the strait of georgia ambient monitoring program phase i
TRANSCRIPT
The Strait of Georgia Ambient Monitoring Program Phase I, 2002-2007: Sediment and Benthos.
C.A. Wright, S.J. Johannessen, R.W. Macdonald, R.W., B.J. Burd, P. Hill, A. Van Roodselaar, S. Bertold
Ocean Sciences Division Fisheries and Ocean Canada Institute of Ocean Sciences 9860 West Saanich Road, Sidney, B.C. V8L 4B2
2008
Canadian Data Report of Fisheries and Aquatic Sciences 1208
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Canadian Data Report of
Fisheries and Aquatic Sciences 1208
2008
THE STRAIT OF GEORGIA AMBIENT MONITORING PROGRAM PHASE I, 2002-2007: SEDIMENT AND BENTHOS
C.A.Wright, S.J. Johannessen, R.W. Macdonald, B.J. Burd*, P. Hill**, A. Van Roodselaar,*** S. Bertold***
Ocean Sciences Division **Pacific Geoscience Centre Fisheries and Ocean Canada Natural Resources Canada 9860 West Saanich Road, 9860 West Saanich Road, Sidney, B.C., Sidney, B.C., V8L 4B2 V8L 4B2
*Ecostat Research Ltd. ***Metro Vancouver 1040 Clayton Street, 4330 Kingsway Sidney, B.C., Burnaby, B.C., V8L 5P6 V5H 4G8
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© Her Majesty the Queen in Right of Canada, 2008. Cat. No. Fs 97-13/1208E ISSN 0706-6465
Correct citation for this publication: Wright, C.A., Johannessen, S.J., Macdonald, R.W., Burd, B.J., Hill, P. Van
Roodselaar, A., and Bertold, S. 2007. The Strait of Georgia ambient program: phase I, 2002-2007: sediment and benthos. Can. Data Rep. Fish. Aquat. Sci. 1208: vi + 112 p.
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TABLE OF CONTENTS
Abstract/Résumé………………………………………………………………………………v 1.0 Introduction……………………………………………………………………………….1 2.0 Methods……………………………………………………………………………….......1 3.0 References…………………………………………………………………………….......3
LIST OF FIGURES Figure 1: Strait of Georgia Ambient Monitoring Program station map……………………….7
LIST OF TABLES Table 1: Cruise and coring details, and sediment sample descriptions………………………..9 Table 2. Results of the 210Pb analysis………………………………………………………...25 Table 3. Activity of radium in subsections of sediment cores. Error represents
1 standard deviation …………………………………………………………………33 Table 4. Results of the AVS, metals, and lead isotope analysis. ‘NM’ indicates
that a particular variable was not measured in the interval…………………………..35 Table 5. Results of the carbon, nitrogen and δ13C and δ15N analyses
of the sediment core samples……………………………………………....................38 Table 6.Results of the metals, nitrogen, carbon, opal and flux
measurements from the two GVRD sediment traps. First deployment only. An asterisk indicates a value that is an average of two measurements…………………………………………………..…………………….49
Table 7.Results of the PCB analysis. All congeners are reported in
pg/g. NQ = data not quantifiable; < = less than detection limit; NDR = peak detected but did not meet quantification criteria, result reported represents the estimated maximum possible concentration…………………………………………………………………………53
Table 8. Results of the PBDE analysis. All congeners are reported
in pg/g. < = less than detection limit; K = peak detected but did not meet quantification criteria, number following this flag represents an unconfirmed concentration; NDR = peak detected but did not meet quantification criteria, result reported represents the estimated maximum possible concentration. Blank cells indicate congener not quantifiable due to <10% recovery of labeled standards………………………...73
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Table 9. Results of the PAH analysis in sediment cores and traps. All
measurements are reported in ng/g dry weight. NDR = peak detected but did not meet quantification criteria, result reported represents the estimated maximum possible concentration. Blank cells indicate the variable was not quantified……………………….….…………….82
Table 10. Results of the NPEO analysis. Values reported in ng/g dry
weight. < = less than the detection limit, number following this symbol represents the detection limit……………………………….….…………….83
Table 11. Results of the metals and lead isotope analysis for IONA stations
8 and 15 in the depth-sectioned Smyth-Macintyre grabs…………………………….84 Table 12. Results of the benthic taxonomic analysis performed on
the depth-sectioned grabs taken at stations……………………………......................86 Table 13. Results of the benthic invertebrate taxonomy from the grab
samples taken at the GVRD core locations…………………………………………..98 Table 14. Results of the benthic foraminifera and thecamoebian
taxonomy and counts. Blank cells indicate a count of zero. Taxonomy follows Loeblich and Tappan, 1961……………..……………………..112
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ABSTRACT Wright, C.A., Johannessen, S.J., Macdonald, R.W., Burd, B.J., Hill, P. Van Roodselaar, A.,
and Bertold, S. 2007. The Strait of Georgia ambient monitoring program: phase I, 2002-2007: sediment and benthos. Can. Data Rep. Fish. Aquat. Sci. 1208: vi + 112 p.
Sediment, sinking particle and water samples were collected in the Strait of Georgia during 2002-2007 as part of a collaborative research project conducted by Fisheries and Oceans Canada, Natural Resources Canada and Metro Vancouver (formerly the Greater Vancouver Regional District). Twenty-two sediment cores were collected and subsampled for later analysis. Core samples were selectively analysed for 210Pb and 226Ra, concentration and stable isotopes of organic carbon and total nitrogen, metals, acid-volatile sulphide (AVS), polychlorinated biphenyls (PCBs), polybrominated diphenyl ethers (PBDEs), polyaromatic hydrocarbons (PAHs) and nonylphenol ethoxylates (NPEOs). Particle fluxes and concentrations of organic carbon, nitrogen, PCBs and PBDEs in sinking particles were measured using sediment traps deployed in the southern Strait in 2004. Benthic communities from nine stations were assessed using twenty-one sediment grabs that were characterized to the highest taxonomic resolution where possible. Additionally, the concentrations of dissolved and total organic carbon were measured at twenty stations along a cruise track from the mouth of Juan de Fuca Strait to the northern Strait of Georgia during four separate cruises in 2003. Data from this project are presented here and stored electronically in the Institute of Ocean Sciences data archive and are available on request (http://www-sci.pac.dfo-mpo.gc.ca/osap/data/default_e.htm).
RÉSUMÉ
Wright, C.A., Johannessen, S.J., Macdonald, R.W., Burd, B.J., Hill, P. Van Roodselaar, A., and Bertold, S. 2007. The Strait of Georgia ambient monitoring program: phase I, 2002-2007: sediment and benthos. Can. Data Rep. Fish. Aquat. Sci. 1208: vi + 112 p.
Des échantillons de sédiment, d’eau et de particules en suspension ont été recueillis dans le détroit de Géorgie entre 2002 et 2007 dans le cadre d'un projet de recherche collaboratif entrepris par Pêches et Océans Canada, Ressources naturelles Canada et Metro Vancouver (anciennement district régional du Grand Vancouver). Vingt-deux carottes de sédiment ont été recueillies et sous-échantillonnées pour analyse ultérieure. L’analyse de certains échantillons de carotte nous a permis de déterminer la concentration de plomb-210 et de radium-226 ainsi que la concentration et la composition des isotopes stables de carbone organique et d’azote total, des métaux, des sulfures volatils en milieu acide (SVMA), des biphényles polychlorés (BPCs), d’éthers diphényliques polybromés (EDPs), d’hydrocarbures aromatiques polycycliques (HAPs) et d’éthoxylates de nonylphénol (NPEOs). Les flux de particules et les concentrations en carbone organique et azote, BPCs et EDPs dans les particules en chute ont été mesurés à l’aide de pièges à sédiment déployés dans la partie sud du détroit en 2004. Les communautés benthiques de neuf stations provenant de vingt et un échantillons ponctuels de sédiment ont été évaluées et caractérisés au degré de résolution taxonomique le plus élevé possible. Les résultats analytiques du travail sont présentés dans ce rapport de données et sont disponibles sous forme électronique sur demande à partir de l’archive de données de l'Institut des sciences de la mer.
1.0 Introduction The Strait of Georgia receives particles, organic matter and contaminants from river runoff, atmospheric and seawater exchange, and anthropogenic discharge (Johannessen et al., 2003). These influxes affect benthic and pelagic productivity, the burial or processing of contaminants, and the role of the Strait of Georgia in the global carbon cycle. During a 2002-2007 collaborative project carried out by Fisheries and Oceans Canada, Natural Resources Canada and Metro Vancouver (formerly the Greater Vancouver Regional District), we collected and analysed 22 sediment cores and 21 sediment grab samples. The objectives of the project were: (i) to provide a context within which to assess the effects of Metro Vancouver wastewater outfalls, (ii) to develop baseline and temporal trend data against which to measure future change, and (iii) to increase our understanding of the local benthic ecosystems and of the cycling of particles, organic carbon, contaminants in the Strait of Georgia. In addition to their presentation in this report, all the data from this project are stored electronically in the Institute of Ocean Sciences data archive and are available on request (http://www-sci.pac.dfo-mpo.gc.ca/osap/data/default_e.htm). Portions of the data have been analysed and published by Burd et al. (2008a,b,c), Johannessen et al. (2008a,b) and Macdonald et al. (2008). Additional review and analysis on the sedimentary regime of the Strait of Georgia have also been published by Hill et al., (2008).
2.0 Methods 2.1 Sediment Cores and Traps In 2002-2004 and 2007, twenty-two sediment box cores were collected in the Strait of Georgia using a Pouliot box corer (cores 1-7) and a Pedersen corer (cores 8-22) (Figure 1, Table 1). Sediment cores were sectioned in the shipboard laboratory within a few hours of collection into 1 cm intervals for the uppermost 10 cm, 2 cm intervals for the next 10 cm and 5 cm intervals for the remainder of the core (20 cm to bottom; core depths ranged from ~20- 50 cm). Sediment consisted primarily of silty mud. Core sections were homogenized and then subsampled for the analyses described below. Moorings (Figure 1) with two sediment traps each (attached 20 and 50 m off the bottom) were set out at two of the core stations in October 2003 and retrieved in April 2004. Each trap collected 10 sequential samples that represented 21 days each. The moorings were redeployed on April 28, 2004 (A2S and B2), but in August, a trawl or towline resulted in the loss of one mooring and the dragging of a second. On Aug. 22, 2004 the Argos beacon at the top of GVRD B2 started to transmit, indicating that the top portion, at least, of the mooring was on the surface. On Aug 26, 2004, a notice to shipping, P-1333, was issued, indicating two yellow steel buoys adrift at 49°19.184’ N 123°27.8’ W. The top float, pinger and Argos beacon were recovered on Ragged Island in Howe Sound at 49° 22.63’ N 123° 26.89’ W. No further signs of the mooring were found. The other mooring was dragged 10 km upslope to 49° 08.136’ 123° 18.422’ (2AF).
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2.2 210Pb Dating Subsamples for each core depth were sent to Flett Research Ltd. in Winnipeg, Canada for analysis of 210Pb and 226Ra. 210Pb was measured in all sections of each core (~22 samples/core), following the procedure of Eakins and Morrison (1978), while that of 226Ra was determined at three depths (top, middle, bottom) in each core, from the in-growth of 222Rn over at least 4 days as per Mathieau et al. (1988) with modifications by Flett Research Ltd. (2006). 2.3 Contaminants, Organics, Isotopes A full suite of metals, Pb isotopes, AVS, and porosity was analysed in Cores 1-7 (19-22 sections depending on core) at the Université du Québec. AVS was determined using ICP-MS and methods can be found Gobeil et al. (2001). Metals and Pb isotopes were measured using ICP-MS and ICP-AES (Gobeil et al. 2005), with mercury measured using AA-MGH (Gobeil et al., 1999). All 209 PCB congeners and 40 PBDE congeners were analyzed in 10 subsamples from each of Cores GVRD-1 to GVRD-7, except core GVRD-4. Only three samples were sent from Core GVRD-4 (top, middle, bottom), because the sedimentation rate from this core could not be determined. PCBs and the PBDEs were measured by high resolution gas chromatography / high resolution mass spectroscopy (general precision ± 30%; precision of duplicates in a batch ± 20% of the mean) (US EPA, 2003a, b). PAHs and NPEOs were measured in 3 subsamples of Cores GVRD-1,2,3,5,7 (top, middle, bottom) (Axys Analytical Services Ltd., 2004, 2006). Carbon and nitrogen were analysed in the sediment core samples at the University of British Columbia, using the method of Calvert et al. (1995), in which organic carbon is calculated as the difference between total and carbonate carbon. Total carbon is measured by combustion and gas chromatography in a CHS analyzer and carbonate carbon by coulometry (precision ± 1.6%, 1 standard deviation). Stable isotopes of carbon and nitrogen were measured in all the core samples at the University of British Columbia (Calvert et al., 2001) Sediment trap material was split for different analysis. Half (by volume) of the material in each cup was sent to the University of British Columbia for analysis of total, organic and inorganic carbon, nitrogen, biogenic silica, opal, stable isotopes of carbon and nitrogen, salt, metals and total dry weight (Calvert et al. 1995, 2001). To obtain enough material for analysis of organic contaminants, one quarter (by volume) of the material from each collection cup was collected and homogenized with all the other quarter splits from the same sediment trap. The analyses of PCB, PAH, NPEO, and PBDE were performed by Axys Analytical Ltd., as described above for the sediment core samples. The remaining quarter of each sample is archived at the Institute of Ocean Sciences, Sidney, British Columbia. 2.3 Benthic Faunal Sampling Benthic grab samples were collected at nine of the core locations (GVRD-1, 2, 3, 4, 5, 6, 7, 9, 10; Figure 1), using 0.1m2 grab samplers (Van Veen or Smyth-Macintyre) and
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sieved through a 1 mm mesh. Small and delicate invertebrates were removed during the washing process and all samples were then preserved in 10% buffered formalin with rose bengal stain. Organisms were identified to genus/species, where possible, by Biological Environmental Services, Victoria, British Columbia. Sites 3 and 4 corresponded to Metro Vancouver stations IONA 8 and 15, which were also sampled and processed independently as part of Metro Vancouver’s ongoing nearfield monitoring program (see Burd et al., 2008b for review). Grab samples collected at stations GVRD 3 and 4 were subsampled into layers to determine the distribution of benthic invertebrates with depth in the sediment column. These grabs were sampled in 1 cm depth intervals for the top 10 cm, where possible, with the >10 cm portion combined into a single sample. The outermost portion of each sample was excluded, to avoid smearing along the grab walls. In addition to the depth-stratigraphic analysis of the benthic invertebrates in cores GVRD-3 and 4, a small subsample (~30 ml) from each depth interval and each replicate was removed for metals and lead isotope analysis performed by Université du Québec using ICP-MS and ICP-AES (Gobeil et al. 2005) 2.4 Foraminifera Foraminifer samples were taken from the surface (0-1 cm) from cores 3 and 4 and were preserved with 10% buffered formalin with Rose Bengal stain. A fraction of each sample was examined in solution (wet picked), except for Core GVRD-3 intervals 0-1 cm and 40-45 cm, which were wet picked in their entirety. Representative specimens were counted. The unexamined remainder of each sample was dried. Each dried sample was sieved into size fractions and examined. Enough of each sample to count 300 specimens was examined, although small populations required examination of the entire sample. Both foraminifera and thecamoebians were identified. The taxonomy and analysis was performed by Susan Burbidge of Ottawa, Ontario, according to the taxonomy of Loeblich and Tappan (1987). 3.0 References Axys Analytical Services Ltd. (1996). Method MLA021 Determination of Polycyclic
Aromatic Hydrocarbons (PAH), Alkylated Polycyclic Aromatic Hydrocarbons and Alkanes by GC/MS. A Modification of Method 8270C, Semivolatile Organic Compounds by GC/MS, December 1996. U.S. EPA, Engineering and Analysis Division, Office of Science And Technology.
Axys Analytical Services Ltd. (2004). Method MLA-004 Determination of Nonylphenols
and nonylphenol ethoxylates by GC/MS. Sidney, B.C. Burd, B., Barnes, P. A., Wright, C. A. and Thomson, R. E. (2008a). A review of subtidal
benthic habitats and invertebrate biota of the Strait of Georgia, British Columbia. Marine Environmental Research, 66, S3-S38.
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Burd, B.J., Macdonald, R.W., Johannessen, S.C., and van Roodselaar, A. (2008b), Responses of subtidal benthos of the Strait of Georgia, British Columbia, Canada to ambient sediment conditions and natural and anthropogenic depositions. Marine Environmental Research, 66, S62-S79.
Burd, B., Macdonald, R., van Roodselaar, A., and Wright, C. (2008c). Axinopsida
serricata shell encrustation: A potential indicator of organic enrichment conditions in sediments in the southern Strait of Georgia, British Columbia, Canada. Marine Environmental Research, 66, S101-111.
Calvert, S.E. and Pedersen, T.F. (1995). On the organic carbon maximum on the
continental slope of the eastern Arabian Sea. Journal of Marine Research, 53, 269-296.
Calvert, S.E., Pedersen, T.F. and Karlin, R.E. (2001). Geochemical and isotopic evidence
for post-glacial palaeoceanographic changes in Saanich Inlet, British Columbia. Marine Geology, 174, 287-305.
Eakins, J.D. and Morrison, R.T. (1978). A new procedure for the determination of lead-
210 in lake and marine sediments. International Journal of Applied Radiation and Isotopes, 29, 531-536.
Gobeil, C., Macdonald, R.W. and Smith, J.N. (1999). Mercury profiles in sediments of
Arctic ocean basins. Environmental Science & Technology, 33, 4194-4198. Gobeil, C., Macdonald, R.W., Smith, J.N. and Beaudin, L. (2001). Atlantic water flow
pathways revealed by lead contamination in Arctic Basin sediments. Science, 293, 1301-1304.
Gobeil, C., Rondeau, B. and Beaudin, L. (2005). Contribution of municiple effluents to
metal fluxes in the St. Lawrence River. Environmental Science & Technology, 39, 456-464.
Hill, P.R., Conway,K., Lintern, D.G., Meulé, S., Picard, K., and Barrie, J.V. (2008).
Sedimentary Processes and Sediment Dispersal in the southern Strait of Georgia, BC, Canada. Marine Environmental Research, 66, S39-S48.
Johannessen, S.C., Macdonald, R.W., and Paton, D.W. (2003). A sediment and organic
carbon budget for the greater Strait of Georgia. Estuarine, Coastal and Shelf Science, 56, 845-860.
Johannessen, S.C., Macdonald, R.W., Wright, C.A., Burd, B., Shaw, D.P. and van
Roodselaar, A. (2008a). Joined by geochemistry, divided by history: PCBs and PBDEs in Strait of Georgia sediments. Marine Environmental Research, 66, S112-S120.
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Johannessen, S.C., Potentier, G., Wright, C.A., Masson, D. and Macdonald, R.W. (2008b). Water column organic carbon in a Pacific marginal sea (Strait of Georgia, Canada). Marine Environmental Research, 66, S49-S61.
Lavelle, J.W., Massoth, G.J. and Crecelius, E.A. (1986). Accumulation rates of recent
sediments in Puget Sound, Washington. Marine Geology, 72, 59-70. Loeblich, A. R. and Tappan, H. 1987. Foraminiferal Genera and their Classification. Van
Nostrand Rienhold Co., New York. Macdonald, R.W., Johannessen, S.C., Gobeil, C., Wright, C., Burd, B., van Roodselaar,
A. and Pedersen, T.F. (2008). Sediment redox tracers in Strait of Georgia sediments – Can they inform us of the loadings of organic carbon from municipal wastewater? Marine Environmental Research, 66, S87-S100.
Mathieu, G.G., Biscaye, P.E., Lupton, R.A. and Hammond, D.E. (1988). System for
measurement of 222Rn at low levels in natural waters. Health Physics, 55: 989- 992.
Robbins, J.A. (1978). Geochemical and geophysical applications of radioactive lead.
Nriagu, J.O. (Eds.). The Biogeochemistry of Lead in the Environment. North-Holland Biomedical Press/Elsevier, New York, 285-393 pp.
US EPA (2003a). Determination of Chlorinated Biphenyl Congeners in Water, Soil,
Sediment, Biosolids and Tissue by HRGC/HRMS. Method 1668 Revision A (with corrections and changes through August 20, 2003). Engineering and Analysis Division, Office of Science and Technology, U.S. EPA, pp. 112+appendices.
US EPA (2003b). Draft Method 1614 Brominated Diphenyl Ethers in Waters,Soil,
Sediment, Biosolids and Tissue by HRGC/HRMS. Engineering and Analysis Division, Office of Science and Technology, U.S. EPA, pp. 83.
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Table 1: Cruise and coring details and sediment sample descriptions.
Core Description GVRD 1 Possibility of some compaction due to sitting overnight
Date June 19, 2003Cruise No. 2003-24 Latitude 49 35.515Event No. 67 Longitude 124 38.275Core Length 56 cm Water Depth 169 m
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments Bivalves Collected
0-1 2.5Y 3/2 dusty red soupy, unconsolidated, rusty oxidation, slightly sulfidic, minor bioturbation Absent
1-2 2.5Y 3/2 dusty red soupy, unconsolidated, rusty oxidation, slightly sulfidic, mud star (sea star) Absent
2-3 2.5Y 3/2 dusty red soupy, unconsolidated, rusty oxidation, slightly sulfidic Absent
3-4 5Y 3/2 dark olive gray grey patches, mud star intact Absent
4-5 5Y 3/2 dark olive gray dark olive grey with grey patches, large tube worm Absent
5-6 5Y 3/2 dark olive gray dark olive grey with grey patches, large tube worm Absent
6-7 5Y 3/2 dark olive gray dark olive grey with grey patches, some woody debris Absent
7-8 5Y 3/2 dark olive gray dark olive grey with grey patches, some woody debris, increased consolidation Absent
8-9 5Y 3/2 dark olive gray dark olive grey with grey patches, some woody debris, increased consolidation. Absent
9-10 5Y 3/2 dark olive gray dark olive grey with grey patches Absent
10-12 5Y 3/2 dark olive gray dark olive grey with grey patches, texture change to increased silty/sand Absent
12-14 5Y 3/2 dark olive gray dark olive grey with grey patches, slightly sulphidic Absent
14-16 5Y 3/2-2.5/2 black to dark olive gray dark olive grey with grey patches Absent
16-18 5Y 3/2 dark olive gray dark olive grey with grey patches Absent18-20 5Y 3/2 dark olive gray dark olive grey with grey patches Absent20-25 5Y 3/2 dark olive gray dark olive grey with grey patches Absent
25-30 5Y 3/2 dark olive gray dark olive grey with grey patches, slightly sulphidic, reworked black tube Absent
30-35 5Y 3/2 dark olive gray dark olive grey with grey patches Absent
35-40 5Y 3/2 dark olive graydark olive grey with grey patches, some mottling, shells and a piece of wood intact
1 pair of valves, Yoldia thraciaeformis
40-45 5Y 3/2 dark olive gray dark olive grey with grey patches, some mottling, and reworked pockets Absent
45-50 5Y 3/2 dark olive gray dark olive grey with grey patches, some mottling, and reworked pockets Absent
50-55 5Y 3/2-2.5/2 dark olive gray to black
dark olive grey with grey patches, some mottling, and reworked pockets Absent
55 5Y 3/2-2.5/2 dark olive gray to black
dark olive grey with grey patches, some mottling, and reworked pockets Absent
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Table 1: Continued
Core Description GVRD 2 Possible compaction and settling due to sitting overnight
Cruise No. 2003-24Date June 18, 2003 Latitude 49 19.902Event No. 52 Longitude 123 18.509Core Length 48 cm Water Depth 76 m
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments Bivalves Collected
0-1 2.5Y 3/2 dusty red errant polychaetes and tubes visible, bioturbated, small tubes
1 pair valves Axinopsida serricata
1-2 5Y 3/2 dark olive gray bioturbated Absent2-3 5Y 3/2 dark olive gray mottled, bioturbated Absent
3-4 5Y 2.5/2 black to dark olive gray mottled, bioturbated, large piece of bark Absent
4-5 5Y 2.5/2 black to dark olive gray mottled bioturbated, 1-2 cm rock Absent
5-6 5Y 2.5/2 black to dark olive gray bioturbated 1 fragmented pair of
valves, M. elminata
6-7 5Y 2.5/2 black to dark olive gray mottled, bioturbated, some woody debris Absent
7-8 5Y 3/2 dark olive gray mottled, bioturbated, small rock Absent
8-9 5Y 3/2 dark olive gray mottled bioturbated, errant polychaetes, polychaete tubes Absent
9-10 5Y 2.5/2 black to dark olive gray amounts of woody debris Absent
10-12 5Y 3/2 dark olive gray mottled, bioturbated Absent
12-14 5Y 2.5/2 black to dark olive gray
mottled, bioturbated, layer of shelly debris
2 pairs + 1 valve Macoma eliminata
14-16 2.5Y N3 very dark gray bioturbated, darker in colour
1 pair valves, Yoldia thraciaeformis , 1 pair valves, Yoldia seminuda , 2 pairs + 1 single valve Macoma eliminata
16-18 5Y 2.5/2 black to dark olive gray less bioturbated Absent
18-20 2.5Y N3 very dark gray mottled, polychaete tubes apparent Absent
20-25 5Y 2.5/2 black to dark olive gray less bioturbated but still mottled Absent
25-30 5Y 2.5/2 black to dark olive gray
texture change, ligher in colour and less consolidated Absent
30-35 5Y 3/1 very dark gray air pockets, soft, loose sediment, some woody debris Absent
35-40 5Y 4/1-3/2 dark gray to dark olive gray softer sediment, more water Absent
40-45 5Y 4/1-3/2 dark gray to dark olive gray softer sediment, more water Absent
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Table 1: Continued
Core Description GVRD 3
Date December 19, 2002Cruise No. 2002-41 Latitude 49 12.467Event No. 38 Longitude 123 17.992Core Length 47 cm Water Depth 183 m
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments Bivalves Collected
0-1 not taken not taken dark olive gray, bioturbated, soupy consistencysmall flatworms Absent
1-2 " " not taken Yes
2-3 " " black to dark olive gray, mottled, bioturbated, shell fragments Yes
3-4 " " not taken Yes4-5 " " " Yes5-6 " " " Yes6-7 " " " No7-8 " " " Yes8-9 " " " Yes9-10 " " " Yes10-12 " " black Yes12-14 " " not taken Yes14-16 " " " Yes16-18 " " " Yes18-20 " " " Yes20-25 " " " Yes25-30 " " black, consolidated Absent30-35 " " not taken Absent35-40 " " " Absent40-45 " " " Absent
Core Description GVRD 4 Possible compaction due to sitting overnight
Date December 19, 2002Cruise No. 2002-41 Latitude 49 07.778Event No. 37 Longitude 123 18.714Core Length 38 cm Water Depth 84 m
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments Bivalves Collected
0-1 not taken not takensilty mud, black to dark olive gray on surface, bioturbated, micaceous minerals, consolidated, not anoxic
Yes
1-2 " " not taken Yes2-3 " " " Yes3-4 " " " Yes4-5 " " " Yes5-6 " " " Absent6-7 " " " Absent7-8 " " " Yes8-9 " " " Absent9-10 " " " Absent10-12 " " " Absent
12
Table 1: Continued.
Core Description GVRD 4Core Depth
(cm) Munsell Colour Scale Munsell Colour Description/Comments Bivalves Collected
12-14 not taken not taken not taken Absent14-16 " " " 1 valve Macoma spp.16-18 " " " Absent18-20 " " " Absent20-25 " " " Absent25-30 " " " Absent30-35 " " " Absent
Core Description GVRD 5
Cruise No. 2002-41 Latitude 49 09.877Date December 20, 2002 Longitude 123 32.73Event No. 76 Water Depth 388 mCore Length 52 cm
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments Bivalves Collected
0-1 not taken not taken wet fine clay, bioturbated, polychaetes and heart urchins Absent
1-2 " " not taken Absent2-3 " " " Absent3-4 " " " Absent4-5 " " " Absent5-6 " " " Absent6-7 " " " Absent7-8 " " " Absent8-9 " " " Absent9-10 " " " Absent10-12 " " " Absent12-14 " " " Absent14-16 " " " Absent16-18 " " " Absent18-20 " " " Absent20-25 " " " Absent25-30 " " " Absent30-35 " " " Absent
Core Description GVRD 6
Cruise No. 2003-24 Latitude 48 56.191Date June 18, 2003 Longitude 123 18.792Event No. 44 Water Depth 183 mCore Length 45 cm
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments Bivalves Collected
0-1 5Y 5/2 dark olive gray mottled, bioturbated, micaceous minerals, soupy consistency Absent
1-2 5Y 2.5/2 black to dark olive gray mottled with black patches Absent
13
Table 1: Continued
Core Description GVRD 6Core Depth
(cm) Munsell Colour Scale Munsell Colour Description/Comments Bivalves Collected
2-3 5Y 3/2 dark olive gray bioturbated, more olive Absent
3-4 5Y 3/2-2.5/2 dark olive gray to black mottled, bioturbated Absent
4-5 5Y 3/2-2.5/2 dark olive gray to black
mottled, bioturbated, slightly darker, Dentalium spp Absent
5-6 5Y 3/2 dark olive gray mottled with darker patches Absent
6-7 5Y 2.5/2 black to dark olive gray mottled with darker patches 1 pr valves (live) Yoldia
seminuda7-8 5Y 3/2 dark olive gray bioturbated, colour more consistent 1 valve, Macoma spp.
8-9 5Y 3/2 dark olive gray bioturbated, echurian found 1 fragmented valve, Macoma spp.
9-10 5Y 2.5/2 black to dark olive gray
bioturbated with rust coloured streaks, errant polychaete found Absent
10-12 5Y 2.5/2 black to dark olive gray
bioturbated, less dark olive grey, shell material and a polychaete found
1 pair (live) Yoldia thraciaeformis
12-14 5Y 2.5/2 black to dark olive gray bioturbated Absent
14-16 5Y 2.5/1 black less bioturbated Absent
16-18 5Y 2.5/2 black to dark olive gray water pockets 1 fragmented valve, no
identification
18-20 5Y 2.5/2 black to dark olive gray
compact dark sand, some pieces of woody debris, gastropod shell Absent
20-25 5Y 2.5/1 black compact dark sand 1 pair valves, Macoma (nasuta ?)
25-30 5Y 2.5/1 black compact, darker Absent30-35 5Y 2.5/1 black compact, darker Absent35-40 5Y 2.5/1 black compact, darker, in situ echurian Absent40-45 5Y 2.5/1 black compact, darker Absent
Core Description GVRD 7
Date December 6, 2003Cruise No. 2003-41 Latitude 49 033.340Event No. Not Taken Longitude 123 22.162Core Length 45 cm Water Depth 240 m
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments Bivalves Collected
0-1 not taken not taken polychaetes, bioturbated not taken1-2 " " " "2-3 " " " "3-4 " " " "4-5 " " " "5-6 " " " "6-7 " " " "7-8 " " " "8-9 " " " "9-10 " " " "10-12 " " " "12-14 " " " "14-16 " " " "
14
Table 1: Continued
Core Description GVRD 7Core Depth
(cm) Munsell Colour Scale Munsell Colour Description/Comments Bivalves Collected
16-18 not taken not taken not taken not taken18-20 " " " "20-25 " " " "
25-30 " " old bioturbated traces, sulphidic, pockets of black soupy sediments "
30-35 " " very sulphidic "
Core Description GVRD 8
Cruise No. BEAM 2007-01 Latitude 49 26.338Date July 8, 2007 Longitude 123 54.590Event No. NA Water Depth 214 mCore Length 66 cm
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments
0-1 not taken not taken wet sediment, very soupy1-2 " " as above2-3 " " dark olive clay, bioturbated3-4 " " as above4-5 " " sulphidic smell
5-6 " " consolidated, "sticky", bioturbated, dark olive gray
6-7 " " as above but increasinly consolidated7-8 " " as above8-9 " " as above9-10 " " as above
10-12 " " dark olive gray with black mottling, somewhat less consolidated
12-14 " " as above but greater water content14-16 " " as above16-18 " " no comments18-20 " " no comments20-25 " " increasingly consolidated25-30 " " no comments30-35 " " no comments35-40 " " no comments40-45 " " no comments45-50 " " no comments
Core Description GVRD 9
Cruise No. BEAM 2007-01 Latitude 49 27.441Date July 12, 2007 Longitude 124 03.148Event No. NA Water Depth 365Core Length 64
0-1 5Y 3/2 dark olive gray bioturbated, worms present, soupy, loose consistency
1-2 5Y 3/2 dark olive gray bioturbated, worms present, soupy, loose consistency
15
Table 1: Continued.
Core Description GVRD 9Core Depth
(cm) Munsell Colour Scale Munsell Colour Description/Comments
2-3 5Y 3/2 dark olive gray soupy consistency, bioturbated, holothurian and echinoderm present
3-4 5Y 3/2 dark olive gray bioturbated
4-5 5Y 3/2 dark olive gray soupy, water content around edge of liner
5-6 5Y 3/2 dark olive gray as above6-7 5Y 3/2 dark olive gray as above, slightly sulphidic7-8 5Y 3/2 dark olive gray as above8-9 5Y 3/2 dark olive gray slight black mottling9-10 5Y 2.5/2 dark olive gray old burrows present10-12 5Y 2.5/2 dark olive gray as above12-14 5Y 2.5/2 dark olive gray as above14-16 5Y 2.5/2 dark olive gray as above16-18 5Y 2.5/2 dark olive gray as above18-20 5Y 2.5/2 dark olive gray as above20-25 5Y 2.5/2 dark olive gray as above, more dark mottling25-30 5Y 2.5/2 dark olive gray as above, slightly sulphidic30-35 5Y 2.5/2 dark olive gray as above, but no sulphidic smell
35-40 5Y 2.5/2 dark olive gray as above but with watery pockes inside old burrows
40-45 5Y 2.5/2 dark olive gray as above45-50 5Y 2.5/2 dark olive gray as above
Core Description GVRD 10
Cruise No. BEAM 2007-01 Latitude 49 50.672Date July 9, 2007 Longitude 124 53.207Event No. NA Water Depth 310 mCore Length 52 cm
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments
0-1 not taken not taken bioturbated, dark olive green with "red" streaks (likely worms), hummocky
1-2 " " no comments2-3 " " no comments3-4 " " loose consistency4-5 " " as above5-6 " " as above6-7 " " increasing in consolidation7-8 " " bioturbated with worm burrows8-9 " " no comments9-10 " " no comments10-12 " " no comments12-14 " " increasing in consolidation, clumping14-16 " " no comments16-18 " " no comments18-20 " " no comments20-25 " " no comments25-30 " " slight sulphidic smell30-35 " " no comments35-40 " " no comments40-45 " " no comments
16
Table 1. Continued.
Core Description GVRD 11
Cruise No. BEAM 2007-01 Latitude 49 42.189Date July 11, 2007 Longitude 124 38.015Event No. NA Water Depth 336 mCore Length Not Known
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments
0-1 not taken not taken bioturbated, worm burrows/tubes on surface, spiclues, soupy, wet consistency
1-2 " " as above2-3 " " no comments3-4 " " loose but increasing in consolidation4-5 " " polychaete worm present5-6 " " no comments
6-7 " " increasing consistency, strong sulphidic smell
7-8 " " no comments8-9 " " no comments9-10 " " no comments10-12 " " no comments12-14 " " no comments14-16 " " no comments16-18 " " no comments18-20 " " no comments20-25 " " no comments25-30 " " no comments30-35 " " 2 separated valves from bivavles35-40 " " bivalve shell fragments (<1 cm)40-45 " " sulphidic smell45-50 " " no comments
Core Description GVRD 12
Cruise No. BEAM 2007-01 Latitude 49 26.201Date July 11, 2007 Longitude 124 22.922Event No. NA Water Depth 328 mCore Length Not Known
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments
0-1 5Y 2.5/1 dark olive gray some mottling1-2 5Y 3/2 dark olive gray as above2-3 5Y 3/2 dark olive gray some evidence of iron oxidation3-4 5Y 3/2 dark olive gray as above with increasing consolidation4-5 5Y 3/2 dark olive gray as above with some black mottling5-6 5Y 3/2 dark olive gray as above6-7 5Y 3/2 dark olive gray as above7-8 5Y 3/2 dark olive gray as above with increased consolidation8-9 5Y 3/2 dark olive gray as above
9-10 5Y 3/2 dark olive gray as above with increased black mottling, higher water content
10-12 5Y 3/2 dark olive gray as above12-14 5Y 3/2 dark olive gray as above14-16 5Y 3/2 dark olive gray as above but increased consolidation
17
Table 1: Continued.
Core Description GVRD 12Core Depth
(cm) Munsell Colour Scale Munsell Colour Description/Comments
16-18 5Y 3/2 dark olive gray as above18-20 5Y 3/2 dark olive gray as above20-25 5Y 3/2 dark olive gray as above
25-30 5Y 3/2 dark olive gray 2 cm x 4 cm piece of iron slag found in this layer
30-35 5Y 3/2 dark olive gray black mottling present with slight sulphidic smell
35-40 5Y 2.5/2 dark olive gray to black strong sulphidic smell
40-45 5Y 3/2 dark olive gray increased water content produces soupier consistency that levels above it
45-50 5Y 3/2 dark olive gray lots of water pockets but some stiff sediment regions
Core Description GVRD 13
Cruise No. BEAM 2007-01 Latitude 49 23.056Date July 12, 2007 Longitude 124 12.611Event No. NA Water Depth 326 mCore Length 39 cm
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments
0-1 not taken not taken worm tubes and spicules present1-2 " " no comments2-3 " " no comments3-4 " " no comments4-5 " " worm tubes present5-6 " " work tubes and spicules present6-7 " " no comments
7-8 " " some sediment consolidation, black mottling
8-9 " " no comments9-10 " " no comments10-12 " " no comments12-14 " " no comments14-16 " " no comments
16-18 " " sediment very stiff and dry, spicules but no more worm tubes
18-20 " " no comments20-25 " " no comments
25-30 " " bivalve shell fragements, clay look consistency
30-35 " " no comments
18
Table 1: Continued.
Core Description GVRD 14
Cruise No. BEAM 2007-01 Latitude 49 21.553Date July 13, 2007 Longitude 123 34.37Event No. NA Water Depth 160 mCore Length 43 cm
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments
0-1 2.5Y 4/2 dark grayish brown watery, lighter sediment on top, bioturbated and hummocky
1-2 2.5Y 4/2 dark grayish brown as above
2-3 5Y 3/2 dark olive gray holothuroid on surface, increased consolidation
3-4 5Y 3/2 dark olive gray as above with increasing consolidation (still watery)
4-5 5Y 3/2 dark olive gray as above5-6 5Y 3/2 dark olive gray as above6-7 5Y 3/2 dark olive gray as above
7-8 5Y 3/2 mottled with 5Y 2.5/2 dark olive gray
as above but with black mottling (old burrows?), still soupy along the edge of the liner but center is consolidated
8-9 5Y 3/2 dark olive gray as above9-10 5Y 3/2 dark olive gray as above
10-12 5Y 3/2 dark olive gray as above but with slight black mottling (old burrows?)
12-14 5Y 3/1 very dark gray as above, but increased water content in center of core
14-16 5Y 3/1 very dark gray as above16-18 5Y 3/1 very dark gray as above18-20 5Y 3/1 to 3/2 dark olive gray as above (still watery in pockets)20-25 5Y 3/2 dark olive gray as above25-30 5Y 3/1 very dark gray as above30-35 5Y 3/1 very dark gray as above, increased consolidation35-40 5Y 3/1 very dark gray as above , sediment firm
Core Description GVRD 15
Cruise No. BEAM 2007-01 Latitude 49 07.44Date July 14, 2007 Longitude 123 27.482Event No. NA Water Depth 296 mCore Length 33 cm
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments
0-1 5Y 3/1 very dark grayfecal pellets on surface, floc, bioturbated, some black precipitate, worm tubes on surface
1-2 5Y 3/1 very dark gray as above, wet2-3 5Y 3/1 very dark gray as above
3-4 5Y 3/1 very dark gray as above with increased consolidation, tubes present, bioturbated
4-5 5Y 3/1 very dark gray as above but less bioturbated
5-6 5Y 3/2 to 2.5/2 dark olive gray to black
as above, increased consolidation, sticky, slight reducing smell
19
Table 1: Continued
Core Description GVRD 15Core Depth
(cm) Munsell Colour Scale Munsell Colour Description/Comments
6-7 5Y 3/2 to 2.5/2 dark olive gray to black
sticky and consolidated, but at bottom of section, increased water content (old tube pocket), reducing smell
7-8 5Y 3/2 mottled with 5Y 2.5/2
dark olive gray to black
more watery due to the presence of sediment pockets
8-9 5Y 3/1 very dark gray sediment pockets not present but still watery
9-10 5Y 3/1 very dark gray sediment consolidated
10-12 5Y 3/2 mottled with 5Y 2.5/2
dark olive gray mottled with black
sticky with a calcium carbonate "lime" smell
12-14 5Y 3/2 mottled with 5Y 2.5/2
dark olive gray mottled with black as above, but holothuroid at edge of liner
14-16 5Y 2.5/2 to 2.5/1 black as above, remains of holothuroid and tube continue
16-18 5Y 2.5/1 black as above18-20 5Y 2.5/1 black as above20-25 5Y 2.5/1 black as above25-30 5Y 2.5/1 black as above
Core Description GVRD 16
Cruise No. 2007-58 Latitude 49 01.605Date November 6, 2007 Longitude 123 20.237Event No. Not Recorded Water Depth 210 mCore Length 23 cm
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments
0-1 5Y 3/2 dark olive gray soupy, no smell, gritty texture (less water content than north stations)
1-2 5Y 3/2 dark olive gray relatively firm, gritty, bioturbated, shell fragments, worm tubes
2-3 5Y 2.5/1 black firm and consolidated, gritty texture, worm tubes, shell fragments, slight odour
3-4 5Y 2/2 blackas above, some brown infill sediments into old burrows; Macoma spp . valves, strong carbonate smell
4-5 5Y 2/2 black as above, Macoma spp . valves, polychaetes
5-6 5Y 2.5/2 black as above, colour more brown, texture is more sandy
6-7 5Y 3/2 dark olive gray sandy, very consolidated, old bioturbation burrows, dediment is sticky
7-8 5Y 2.5/2 black as above with small worms, black/gray mottling
8-9 5Y 2.5/2 black as above
9-10 5Y 2.5/1 black as above with black streaks and mottling
10-12 5Y 2.5/1 black as above, a water pocket begins at the top of this interval
12-14 5Y 2.5/1 black as above, Compack dark, sticky (almost spongy), sandy texture
20
Table 1: Continued.
Core Description GVRD 16Core Depth
(cm) Munsell Colour Scale Munsell Colour Description/Comments
14-16 5Y 2.5/1 black as above but slightly more water content, sulphidic smell
16-18 5Y 2.5/1 black as above, old burrows present18-20 5Y 2.5/1 black as above20-22.5 5Y 2.5/1 black as above
Core Description GVRD 17
Cruise No. 2007-58 Latitude 49 24.508Date November 6, 2007 Longitude 124 02.043Event No. Not Recorded Water Depth 410 mCore Length 56 cm
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments
0-1 5YR 2.5/1 dark brown wet, soupy consistency, fecal material, bioturbated with polychaetes, burrows
1-2 5YR 2.5/1 dark brown set, soupy consistency, fecal material, bioturbated with polychaetes, burrows
2-3 5YR 2.5/1 with 5Y 3/2 dark brown/dark olive gray
increased consolidation, bioturbated, texture of fine silty mud, mottled with olive gray
3-4 5Y 3/2 dark olive gray as above, slightly more consolidated
4-5 2.5Y 3/2 dark olive gray fine silty texture with some clay component, brown floc intermixed
5-6 2.5Y 3/2 dusty red as above, no smell6-7 2.5Y 3/2 (mottled) dusty red as above, increased consolidation7-8 2.5Y 3/2 dusty red as above, compact, carbonate smell8-9 2.5Y 3/2 dusty red as above with some black pockets.9-10 2.5Y 3/2 dusty red as above, quite consolidated
10-12 5Y 3/2 dark olive gray as above with mottling and old burrows containing black sediments
12-14 5Y 3/2 dark olive gray as above
14-16 5Y 3/2 dark olive gray as above, but black flecks in old burrows, carbonate but slightly sulphidic smell
18-20 5Y 3/2 dark olive gray as above, old burrows present.
20-25 5Y 3/2 dark olive gray some increase in water content, some black mottling.
25-30 5Y 3/2 dark olive gray as above30-35 5Y 3/2 dark olive gray as above35-40 5Y 3/2 dark olive gray as above
40-45 5Y 3/2 dark olive gray as above but there was a 1" x 3" piece of wood in the sample
45-50 5Y 3/2 dark olive gray sediment as above with some woody debris
21
Table 1: Continued.
Core Description GVRD 18
Cruise No. 2007-67 Latitude 48 51.762Date November 29, 2007 Longitude 123 05.681Event No. Not Recorded Water Depth 157 mCore Length 20 cm
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments
0-1 not taken not takensandy/silty, gray-black with green, shell has, worm tubes, barncle and shelly debris
1-2 " " as above
2-3 " " as above but increased consolidation, slightly "muddier"
3-4 " " odour similar to iodine
4-5 " " sandy, colour as above, some shell debris, increased consolidation
5-6 " " as above, polychaetes present6-7 " " contains a dried shell layer7-8 " " no comments8-9 " " no comments9-10 " " small holothurian10-11 " " no comments
11-12 " " consolidated but one side has higher water content, silty
12-13 " " small holothurian13-14 " " no comments14-15 " " no comments15-16 " " no comments16-17 " " some shell debris17-18 " " no comments18-19 " " some shell debris
Core Description GVRD 19
Cruise No. 2007-58 Latitude 49 01.12Date November 6, 2007 Longitude 123 23.09Event No. Not Recorded Water Depth 255 mCore Length 21 cm
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments
0-1 5Y 3/2 dark olive gray soupy silty mud, bioturbated, lots of polychaetes
1-2 5Y 3/2 dark olive gray as above
2-3 5Y 3/2 dark olive gray as above, increased consolidation, polychaetes, burrows, water pocket
3-4 5Y 3/2 dark olive gray as above, a piece of heart urchin4-5 5Y 3/2 dark olive gray as above
5-6 5Y 3/2 dark olive gray as above, polychaets, more heart urchin, sediment consolidation.
6-7 5Y 3/2 dark olive gray as above
7-8 5Y 3/2 dark olive gray as above, but no more hear urchin present.
22
Table 1: Continued.
Core Description GVRD 19Core Depth
(cm) Munsell Colour Scale Munsell Colour Description/Comments
8-9 5Y 3/2 dark olive grayas above, but some form of hard worm tube present, metallic speckles in the sediments
9-10 5Y 2.5/2 black as above but slightly darker in colour
10-12 5Y 2.5/2 black as above but increased water content around the tube
12-14 5Y 2.5/2 black as above with some brownish mottling
14-16 5Y 2.5/2 black as above, old burrows infilled with brown deposits
16-18 5Y 2.5/2 black as above, increased water content18-20 5Y 2.5/2 black as above.
Core Description GVRD 20
Cruise No. 2007-67 Latitude 49 19.162Date November 29, 2007 Longitude 123 48.092Event No. Not Taken Water Depth 365 mCore Length 57 cm
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments
0-1 not taken not taken dark olive gray with brown mottling, bioturbated, soupy
1-2 " " as above, bioturbated2-3 " " some brown staining, manganese?3-4 " " porous, muddy texture4-5 " " as above with small piece of wood5-6 " " no comments6-7 " " no comments
7-8 " " slightly more consolidated with some sulphidic smell
8-9 " " no comments9-10 " " no comments10-12 " " no comments12-14 " " no comments16-18 " " no comments18-20 " " no comments20-25 " " no comments25-30 " " no comments
30-35 " " uniform consistency, no sulphidic smell
35-40 " " no comments40-45 " " slightly drier sediments, consolidated45-50 " " some black mottling.
50-55 " " very stiff and consolidated, small piece of shell debris
23
Table 1: Continued.
Core Description GVRD 21
Cruise No. 2007-67 Latitude 49 58.8Date December 1, 2007 Longitude 125 04.30Event No. Not Taken Water Depth 260 mCore Length 45.3 cm
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments
0-1 not taken not takensurface has brown (Mn-oxide?) on surface with dark olive green below, soupy consistency
1-2 " " soupy, some black speckles on surface
2-3 " " no comments3-4 " " small heart urchin
4-5 " " silty mud, slightly sulphidic, small piece of shell debris
5-6 " " no comments6-7 " " increased consolidation7-8 " " no comments8-9 " " stronger sulphidic smell9-10 " " no comments10-12 " " no comments12-14 " " no comments14-16 " " piece of shell debris in sample16-18 " " no comments18-20 " " Increased consolidation20-25 " " sulphidic25-30 " " no comments30-35 " " sediments dry and sulphidic35-40 " " no comments
Core Description GVRD 22
Cruise No. 2007-67 Latitude 49 38.192Date December 1, 2007 Longitude 124 13.642 Event No. Not Taken Water Depth 373 mCore Length 69 cm
Core Depth (cm) Munsell Colour Scale Munsell Colour Description/Comments
0-1 not taken not taken top is dark (Mn?), small worms, soupy consistency
1-2 " " olive green and soupy2-3 " " gel-like consistency3-4 " " as above4-5 " " no comments5-6 " " no comments6-7 " " no comments
7-8 " " possibly this is the base of the mixed layer, changed to a sticky consistency
8-9 " " no comments9-10 " " no comments10-12 " " no comments
12-14 " " some varving, with alternating green and black layers
24
Table 1: Continued.
Core Description GVRD 22Core Depth
(cm) Munsell Colour Scale Munsell Colour Description/Comments
16-18 " " no varves, sulphidic smell18-23 " " mottling23-28 " " dry, no mottling28-33 " " slight watery content, old burrow?33-38 " " no comments38-43 " " woody debris and shell debris43-48 " " no comments48-53 " " increased consolidation
Tab
le 2
: Res
ults
of t
he 2
10P
b an
ayls
is.
Cor
e D
epth
(cm
)U
pper
D
epth
Low
er
Dep
thEx
trap
olat
ed
Upp
er
Sect
ion
Dep
th
(cm
)
Extr
apol
ated
Lo
wer
Se
ctio
n D
epth
(c
m)
Volu
me
of w
et
sam
ple
(ml)
Wei
ght o
f w
et
sam
ple
(g)
Wei
ght o
f dr
y sa
mpl
e (g
)
Dry
Wt./
W
et c
c.
(g/c
m3)
(3
3 pp
t co
rrec
ted)
Mas
s in
ex
trap
olat
ed
sect
ion
(g/c
m2)
Cum
ulat
ive
Mas
s to
B
otto
m o
f C
urre
nt
Sect
ion
(g/c
m2)
Plot
-poi
nt
of
cum
ulat
ive
mas
s in
cu
rren
t se
ctio
n (g
/cm
2)
Po-2
09
coun
ts
Det
ecto
r Po
-209
B
ack-
Gro
und
Cou
nts
Po-2
09
coun
ts le
ss
dete
ctor
ba
ck-
grou
nd
Po-2
10
coun
ts
Det
ecto
r Po
-210
B
ack-
Gro
und
Cou
nts
Po-2
10
coun
ts
less
de
tect
or
back
-gr
ound
Wei
ght o
f Sa
mpl
e C
ount
ed
(g)
Wei
ght o
f Sa
mpl
e C
ount
ed-
Salt
(g)
Cou
nt
Tim
e (s
ec)
Spik
e Si
ze
(ml)
Spik
e A
ctiv
ity
(DPM
/ ml)
Po-2
10
Tota
l A
ctiv
ity
(DPM
/g)
(sal
t co
rrec
ted)
Erro
r P
o-21
0 +/
- 1
S.D
. (D
PM/g
)
Cor
e 1
0-1
01
01
4.92
5.58
1.10
0.19
0.22
0.22
0.11
2786
827
7872
65
721.
000.
497
0.43
030
000
1.01
17.5
710
.360
10.
4024
1-2
12
12
4.92
5.69
1.37
0.25
0.28
0.50
0.36
2394
923
8573
73
734.
000.
527
0.47
230
000
1.01
17.5
711
.220
40.
4297
2-3
23
23
4.92
5.56
1.13
0.20
0.23
0.73
0.62
2658
1326
4588
85
883.
000.
559
0.48
730
000
1.01
17.5
711
.791
40.
4132
3-4
34
34
4.92
5.59
1.18
0.21
0.24
0.97
0.85
2167
721
6067
33
670.
000.
562
0.49
330
000
1.01
17.5
710
.828
20.
4349
4-5
45
45
4.92
5.70
1.30
0.23
0.26
1.24
1.11
2124
1121
1356
812
556.
000.
517
0.45
930
000
1.01
17.5
79.
8603
0.44
165-
65
65
64.
925.
661.
260.
230.
261.
491.
3727
024
2698
677
467
3.00
0.49
60.
439
3000
01.
0117
.57
9.78
190.
3923
6-7
67
67
4.92
5.71
1.34
0.24
0.27
1.77
1.63
2116
1221
0460
24
598.
000.
523
0.46
730
000
1.01
17.5
710
.482
80.
4461
7-8
78
78
4.92
5.72
1.34
0.24
0.27
2.04
1.90
1996
1119
8549
24
488.
000.
522
0.46
630
000
1.01
17.5
79.
0898
0.42
888-
98
98
94.
925.
711.
340.
240.
272.
312.
1720
738
2065
497
549
2.00
0.55
30.
494
3000
01.
0117
.57
8.31
080.
3912
9-10
9
10
9 10
4.
92
5.72
1.
36
0.25
0.
28
2.59
2.
45
2107
9
2098
47
0 3
467.
00
0.53
1 0.
475
3000
0 1.
01
17.5
7 8.
0742
0.
3886
10-1
210
1210
124.
925.
761.
420.
260.
583.
162.
8818
8913
1876
308
530
3.00
0.54
80.
493
3000
01.
0117
.57
5.64
610.
3406
12-1
412
1412
144.
925.
811.
500.
280.
613.
783.
4721
197
2112
316
331
3.00
0.53
00.
480
3000
01.
0117
.57
5.32
170.
3136
14-1
614
1614
164.
925.
861.
520.
280.
624.
394.
0819
904
1986
207
420
3.00
0.52
40.
475
3000
01.
0117
.57
3.71
210.
2743
16-1
816
1816
184.
925.
831.
520.
280.
625.
014.
7018
6811
1857
185
418
1.00
0.52
00.
471
3000
01.
0117
.57
3.56
510.
2796
18-2
018
2018
204.
925.
811.
530.
280.
625.
635.
3225
868
2578
196
519
1.00
0.53
70.
487
3000
01.
0117
.57
2.62
040.
2008
20-2
520
2520
254.
925.
891.
630.
301.
667.
296.
4620
329
2023
114
311
1.00
0.53
30.
487
3000
01.
0117
.57
1.94
270.
1954
25-3
025
3025
304.
925.
841.
630.
301.
668.
958.
1220
4613
2033
855
80.0
00.
549
0.50
230
000
1.01
17.5
71.
3511
0.16
5330
-35
3035
3035
4.92
5.83
1.62
0.30
1.65
10.5
99.
7722
767
2269
873
84.0
00.
544
0.49
730
000
1.01
17.5
71.
2837
0.14
9635
-40
3540
3540
4.92
5.77
1.59
0.30
1.62
12.2
111
.40
2029
1120
1888
1276
.00
0.57
80.
528
3000
01.
0117
.57
1.23
000.
1670
40-4
540
4540
454.
925.
891.
690.
321.
7213
.93
13.0
718
5112
1839
644
60.0
00.
557
0.51
130
000
1.01
17.5
71.
1006
0.15
6145
-50
4550
4550
4.92
6.03
1.85
0.35
1.88
15.8
214
.87
2370
1123
5970
466
.00
0.56
50.
523
3000
01.
0117
.57
0.92
330.
1241
50-5
550
5550
554.
925.
811.
770.
331.
8017
.61
16.7
124
638
2455
715
66.0
00.
550
0.50
830
000
1.01
17.5
70.
9125
0.12
4312
-14
Dup
1214
1214
4.92
5.81
1.50
0.28
0.61
3.78
3.47
2143
1121
3226
212
250.
000.
479
0.43
430
000
1.01
17.5
74.
6590
0.28
8535
-40
Dup
3540
3540
4.92
5.77
1.59
0.30
1.62
12.2
111
.40
1334
413
3042
438
.00
0.52
00.
475
3000
01.
0117
.57
1.03
720.
1745
Cor
e 2
0-1
01
01.
04.
926.
392.
300.
440.
470.
470.
2380
77
800
251
424
7.00
0.57
20.
539
3000
01.
0117
.57
9.90
380.
6595
1-2
12
12.
04.
926.
762.
800.
540.
571.
040.
7573
35
728
258
325
5.00
0.59
40.
566
3000
01.
0117
.57
10.6
942
0.69
732-
32
32
3.0
4.92
6.84
2.94
0.57
0.60
1.63
1.34
738
1472
423
013
217.
000.
509
0.48
730
000
1.01
17.5
710
.649
80.
7872
3-4
34
34.
04.
927.
173.
550.
700.
722.
361.
9999
05
985
287
328
4.00
0.53
70.
519
3000
01.
0117
.57
9.61
430.
5928
4-5
45
45.
04.
926.
883.
110.
610.
632.
992.
6711
628
1154
335
732
8.00
0.58
20.
559
3000
01.
0117
.57
8.79
870.
5104
5-6
56
56.
04.
926.
893.
080.
600.
633.
613.
3079
67
789
236
722
9.00
0.54
20.
520
3000
01.
0117
.57
9.65
610.
6763
6-7
67
67.
04.
926.
853.
110.
610.
634.
243.
9359
48
586
168
416
4.00
0.52
80.
507
3000
01.
0117
.57
9.54
680.
7854
7-8
78
78.
04.
926.
983.
170.
620.
654.
894.
5712
595
1254
347
334
4.00
0.53
50.
514
3000
01.
0117
.57
9.23
400.
5166
8-9
89
89.
04.
926.
243.
310.
650.
675.
565.
2359
87
591
177
417
3.00
0.55
30.
537
3000
01.
0117
.57
9.43
680.
7544
9-10
910
910
.04.
927.
013.
250.
640.
666.
225.
8995
45
949
291
328
8.00
0.52
50.
505
3000
01.
0117
.57
10.3
956
0.63
6610
-12
1012
1012
.04.
927.
103.
410.
671.
397.
616.
9270
314
689
193
1318
0.00
0.54
20.
523
3000
01.
0117
.57
8.64
800.
7092
12-1
412
1412
14.0
4.92
7.35
3.80
0.75
1.55
9.16
8.38
679
567
418
23
179.
000.
552
0.53
530
000
1.01
17.5
78.
5909
0.67
1214
-16
1416
1416
.04.
927.
674.
260.
841.
7310
.89
10.0
296
28
954
181
717
4.00
0.50
80.
495
3000
01.
0117
.57
6.38
410.
5171
16-1
816
1816
18.0
4.92
7.13
3.62
0.71
1.47
12.3
611
.62
723
771
693
786
.00
0.51
60.
499
3000
01.
0117
.57
4.16
150.
4976
18-2
018
2018
20.0
4.92
7.32
3.72
0.73
1.51
13.8
713
.11
612
860
477
473
.00
0.56
70.
549
3000
01.
0117
.57
3.81
050.
4831
20-2
520
2520
25.0
4.92
7.20
3.58
0.70
3.63
17.5
015
.69
1203
511
9814
23
139.
000.
532
0.51
430
000
1.01
17.5
73.
9044
0.34
7825
-30
2530
2530
.04.
927.
173.
490.
693.
5521
.05
19.2
891
114
897
7613
63.0
00.
585
0.56
530
000
1.01
17.5
72.
1519
0.33
1430
-35
3035
3035
.04.
927.
103.
420.
673.
4724
.52
22.7
912
637
1256
100
496
.00
0.56
00.
540
3000
01.
0117
.57
2.44
860.
2675
35-4
035
4035
40.0
4.92
7.22
3.51
0.69
3.57
28.0
926
.31
1303
512
9888
385
.00
0.51
60.
498
3000
01.
0117
.57
2.27
490.
2626
40-4
540
4540
454.
927.
353.
630.
713.
6831
.78
29.9
499
65
991
733
70.0
00.
580
0.56
030
000
1.01
17.5
72.
1813
0.27
9435
-40
Dup
licat
e30
3530
35.0
4.92
7.10
3.42
0.69
3.57
24.5
222
.79
1380
1413
6610
513
92.0
00.
575
0.55
530
000
1.01
17.5
72.
0310
0.25
5040
-45
Dup
licat
e40
4540
454.
927.
353.
630.
743.
6831
.78
29.9
467
18
663
627
55.0
00.
559
0.54
030
000
1.01
17.5
72.
6580
0.41
28
Cor
e 3
0-1
01
01
4.92
7.43
3.54
0.69
0.69
0.69
0.35
2268
722
6125
44
250.
000.
543
0.52
330
000
1.02
17.6
23.
6604
0.24
321-
21
21
24.
927.
433.
850.
760.
761.
451.
0719
775
1972
181
317
8.00
0.51
90.
503
3000
01.
0217
.62
3.10
870.
2450
2-3
23
23
4.92
7.50
3.96
0.78
0.78
2.23
1.84
1991
1419
7722
713
214.
000.
518
0.50
330
000
1.02
17.6
23.
7304
0.27
933-
43
43
44.
927.
714.
320.
850.
853.
092.
6620
535
2048
206
320
3.00
0.53
20.
518
3000
01.
0217
.62
3.31
390.
2441
4-5
45
45
4.92
7.83
4.49
0.89
0.89
3.98
3.53
2499
824
9124
67
239.
000.
515
0.50
230
000
1.02
17.6
23.
3086
0.22
775-
65
65
64.
928.
335.
171.
031.
035.
014.
4920
017
1994
196
718
9.00
0.52
80.
517
3000
01.
0217
.62
3.17
400.
2475
6-7
67
67
4.92
7.97
4.71
0.93
0.93
5.94
5.47
1843
818
3521
44
210.
000.
519
0.50
730
000
1.02
17.6
23.
9095
0.28
437-
87
87
84.
928.
265.
051.
001.
006.
956.
4414
445
1439
131
312
8.00
0.54
30.
532
3000
01.
0217
.62
2.89
870.
2711
8-9
89
89
4.92
8.43
5.44
1.09
1.09
8.03
7.49
2390
723
8317
24
168.
000.
564
0.55
430
000
1.02
17.6
22.
2055
0.18
019-
109
109
104.
928.
765.
921.
181.
189.
228.
6211
6514
1151
111
1398
.00
0.54
60.
537
3000
01.
0217
.62
2.74
520.
3226
10-1
210
1210
124.
928.
785.
591.
122.
2311
.45
10.3
319
035
1898
145
314
2.00
0.51
90.
509
3000
01.
0217
.62
2.54
530.
2255
12-1
412
1412
144.
928.
295.
361.
072.
1413
.59
12.5
213
778
1369
112
710
5.00
0.53
60.
526
3000
01.
0217
.62
2.52
450.
2713
Tab
le 2
: Con
tinue
d.C
ore
3C
ore
Dep
th (c
m)
Upp
er
Dep
thLo
wer
D
epth
Extr
apol
ated
U
pper
Se
ctio
n D
epth
(c
m)
Extr
apol
ated
Lo
wer
Se
ctio
n D
epth
(c
m)
Volu
me
of w
et
sam
ple
(ml)
Wei
ght o
f w
et
sam
ple
(g)
Wei
ght o
f dr
y sa
mpl
e (g
)
Dry
Wt./
W
et c
c.
(g/c
m3)
(3
3 pp
t co
rrec
ted)
Mas
s in
ex
trap
olat
ed
sect
ion
(g/c
m2)
Cum
ulat
ive
Mas
s to
B
otto
m o
f C
urre
nt
Sect
ion
(g/c
m2)
Plot
-poi
nt
of
cum
ulat
ive
mas
s in
cu
rren
t se
ctio
n (g
/cm
2)
Po-2
09
coun
ts
Det
ecto
r Po
-209
B
ack-
Gro
und
Cou
nts
Po-2
09
coun
ts le
ss
dete
ctor
ba
ck-
grou
nd
Po-2
10
coun
ts
Det
ecto
r Po
-210
B
ack-
Gro
und
Cou
nts
Po-2
10
coun
ts
less
de
tect
or
back
-gr
ound
Wei
ght o
f Sa
mpl
e C
ount
ed
(g)
Wei
ght o
f Sa
mpl
e C
ount
ed-
Salt
(g)
Cou
nt
Tim
e (s
ec)
Spik
e Si
ze
(ml)
Spik
e A
ctiv
ity
(DPM
/ ml)
Po-2
10
Tota
l A
ctiv
ity
(DPM
/g)
(sal
t co
rrec
ted)
Erro
r P
o-21
0 +/
- 1
S.D
. (D
PM/g
)
14-1
614
1614
164.
928.
235.
091.
012.
0315
.61
14.6
017
667
1759
141
713
4.00
0.50
90.
499
3000
01.
0217
.62
2.64
690.
2485
16-1
816
1816
184.
928.
175.
041.
002.
0117
.62
16.6
215
158
1507
109
410
5.00
0.50
60.
496
3000
01.
0217
.62
2.43
540.
2550
18-2
018
2018
204.
927.
964.
700.
931.
8719
.49
18.5
518
145
1809
128
312
5.00
0.51
20.
500
3000
01.
0217
.62
2.39
270.
2266
20-2
520
2520
254.
927.
964.
780.
954.
7524
.24
21.8
617
217
1714
106
410
2.00
0.50
50.
494
3000
01.
0217
.62
2.08
740.
2220
25-3
025
3025
304.
928.
014.
750.
944.
7228
.95
26.6
021
795
2174
138
313
5.00
0.53
10.
519
3000
01.
0217
.62
2.07
290.
1886
30-3
530
3530
354.
928.
265.
021.
005.
0033
.95
31.4
521
385
2133
117
311
4.00
0.53
20.
521
3000
01.
0217
.62
1.77
820.
1767
35-4
035
4035
404.
928.
225.
091.
015.
0739
.02
36.4
920
567
2049
119
711
2.00
0.52
00.
509
3000
01.
0217
.62
1.85
870.
1927
40-4
540
4540
454.
928.
154.
910.
984.
8843
.90
41.4
614
395
1434
803
77.0
00.
551
0.53
930
000
1.02
17.6
21.
7259
0.21
126-
7 D
uplic
ate
67
67
4.92
7.97
4.71
0.93
0.93
5.94
5.47
2355
523
5019
73
194.
000.
456
0.44
630
000
1.02
17.6
23.
2098
0.24
208-
9 D
uplic
ate
89
89
4.92
8.43
5.44
1.09
1.09
8.03
7.49
2513
825
0518
67
179.
000.
545
0.53
530
000
1.02
17.6
22.
3134
0.18
5730
-35
Dup
licat
e30
3530
354.
928.
265.
021.
005.
0033
.95
31.4
515
018
1493
887
81.0
00.
555
0.54
330
000
1.02
17.6
21.
7303
0.21
5340
-45
Dup
licat
e40
4540
454.
928.
154.
910.
984.
8843
.90
41.4
615
667
1559
904
86.0
00.
530
0.51
830
000
1.02
17.6
21.
8434
0.21
49
Cor
e 4
0-1
01
01
4.92
7.77
4.47
0.89
0.89
0.89
0.44
2430
1424
1620
213
189.
000.
525
0.51
230
000
1.02
17.6
22.
6460
0.21
231-
21
21
24.
927.
754.
340.
860.
861.
751.
3224
675
2462
220
321
7.00
0.54
10.
527
3000
01.
0217
.62
2.89
760.
2062
2-3
23
23
4.92
7.77
4.40
0.87
0.87
2.62
2.18
1976
819
6818
07
173.
000.
516
0.50
330
000
1.02
17.6
23.
0281
0.24
763-
43
43
44.
927.
874.
530.
900.
903.
523.
0717
677
1760
141
713
4.00
0.50
90.
497
3000
01.
0217
.62
2.65
590.
2494
4-5
45
45
4.92
7.91
4.58
0.91
0.91
4.42
3.97
1628
816
2014
44
140.
000.
546
0.53
330
000
1.02
17.6
22.
8096
0.25
255-
65
65
64.
927.
914.
610.
920.
925.
344.
8816
195
1614
133
313
0.00
0.52
40.
512
3000
01.
0217
.62
2.72
730.
2530
6-7
67
67
4.92
8.23
5.04
1.00
1.00
6.34
5.84
2047
720
4016
34
159.
000.
519
0.50
830
000
1.02
17.6
22.
6571
0.22
347-
87
87
84.
928.
195.
051.
001.
007.
356.
8517
0014
1686
156
1314
3.00
0.53
70.
526
3000
01.
0217
.62
2.79
370.
2627
8-9
89
89
4.92
8.19
5.17
1.03
1.03
8.38
7.86
2551
525
4622
13
218.
000.
520
0.51
030
000
1.02
17.6
22.
9089
0.20
669-
109
109
104.
928.
325.
251.
051.
059.
428.
9021
018
2093
174
716
7.00
0.55
90.
548
3000
01.
0217
.62
2.52
140.
2101
10-1
210
1210
124.
928.
375.
371.
072.
1411
.57
10.5
016
948
1686
146
414
2.00
0.51
10.
502
3000
01.
0217
.62
2.90
890.
2595
12-1
412
1412
144.
928.
405.
391.
082.
1513
.72
12.6
420
295
2024
193
319
0.00
0.55
10.
541
3000
01.
0217
.62
3.00
680.
2292
14-1
614
1614
164.
928.
205.
121.
022.
0415
.76
14.7
414
927
1485
114
411
0.00
0.49
80.
488
3000
01.
0217
.62
2.62
900.
2685
16-1
816
1816
184.
928.
365.
341.
072.
1317
.89
16.8
318
5214
1838
161
1314
8.00
0.51
00.
501
3000
01.
0217
.62
2.78
720.
2569
18-2
018
2018
204.
928.
445.
441.
082.
1720
.06
18.9
821
205
2115
201
319
8.00
0.52
10.
512
3000
01.
0217
.62
3.17
080.
2366
20-2
520
2520
254.
928.
545.
651.
135.
6425
.70
22.8
822
488
2240
180
717
3.00
0.49
40.
486
3000
01.
0217
.62
2.75
520.
2252
25-3
025
3025
304.
928.
465.
511.
105.
5031
.20
28.4
522
328
2224
184
418
0.00
0.50
20.
493
3000
01.
0217
.62
2.84
340.
2240
30-3
530
3530
354.
928.
345.
311.
065.
2936
.49
33.8
521
157
2108
189
418
5.00
0.49
40.
485
3000
01.
0217
.62
3.13
690.
2436
20-2
5 D
uplic
ate
2025
2025
4.92
8.54
5.65
1.13
5.64
25.7
022
.88
1753
717
4614
37
136.
000.
523
0.51
430
000
1.02
17.6
22.
6246
0.24
4525
-30
Dup
licat
e25
3025
304.
928.
465.
511.
105.
5031
.20
28.4
520
805
2075
210
320
7.00
0.55
70.
547
3000
01.
0217
.62
3.15
870.
2303
Cor
e 5
0-1
01
01
4.92
6.12
1.91
0.36
0.36
0.36
0.18
1728
717
2165
34
649.
000.
543
0.50
330
000
1.01
17.6
212
.161
50.
4861
1-2
12
12
4.92
6.13
2.00
0.38
0.38
0.74
0.55
1612
516
0766
83
665.
000.
532
0.49
630
000
1.01
17.6
213
.621
20.
5370
2-3
23
23
4.92
6.29
2.13
0.41
0.41
1.14
0.94
2365
1423
5110
0913
996.
000.
517
0.48
430
000
1.01
17.6
214
.349
50.
4661
3-4
34
34
4.92
6.36
2.22
0.42
0.42
1.57
1.36
1509
515
0453
33
530.
000.
531
0.49
830
000
1.01
17.6
211
.621
30.
5138
4-5
45
45
4.92
6.39
2.05
0.39
0.39
1.96
1.76
2134
821
2685
97
852.
000.
518
0.48
230
000
1.01
17.6
213
.547
80.
4736
5-6
56
56
4.92
6.45
2.33
0.45
0.45
2.40
2.18
1982
719
7575
97
752.
000.
528
0.49
730
000
1.01
17.6
212
.628
10.
4704
6-7
67
67
4.92
6.49
2.40
0.46
0.46
2.86
2.63
2430
824
2288
64
882.
000.
528
0.49
830
000
1.01
17.6
212
.077
60.
4134
7-8
78
78
4.92
6.54
2.56
0.49
0.49
3.36
3.11
1339
513
3439
03
387.
000.
506
0.48
030
000
1.01
17.6
210
.039
80.
5205
8-9
89
89
4.92
6.57
2.59
0.50
0.50
3.86
3.61
2865
728
5810
414
1037
.00
0.52
30.
496
3000
01.
0117
.62
12.1
489
0.38
339-
109
109
104.
926.
882.
800.
540.
544.
404.
1327
635
2758
1059
310
56.0
00.
551
0.52
430
000
1.01
17.6
212
.168
60.
3800
10-1
210
1210
124.
926.
702.
800.
541.
095.
484.
9417
5214
1738
618
1360
5.00
0.53
40.
510
3000
01.
0117
.62
11.4
153
0.47
9712
-14
1214
1214
4.92
6.73
2.92
0.57
1.14
6.62
6.05
2568
1425
5485
513
842.
000.
521
0.50
030
000
1.01
17.6
211
.080
90.
3924
14-1
614
1614
164.
926.
432.
660.
511.
037.
657.
1421
358
2127
696
768
9.00
0.50
40.
479
3000
01.
0117
.62
11.2
549
0.43
8316
-18
1618
1618
4.92
6.65
2.82
0.55
1.09
8.74
8.20
1941
719
3458
57
578.
000.
521
0.49
730
000
1.01
17.6
210
.045
10.
4279
18-2
018
2018
204.
926.
742.
770.
541.
079.
819.
2813
068
1298
360
435
6.00
0.51
40.
489
3000
01.
0117
.62
9.34
400.
5068
20-2
520
2520
254.
926.
802.
780.
542.
6912
.50
11.1
614
045
1399
461
345
8.00
0.54
50.
520
3000
01.
0117
.62
10.5
190
0.50
0725
-30
2530
2530
4.92
6.69
2.39
0.46
2.28
14.7
913
.64
1260
712
5330
14
297.
000.
573
0.53
930
000
1.01
17.6
27.
2439
0.43
1130
-35
3035
3035
4.92
6.74
3.57
0.73
3.63
18.4
116
.60
1121
511
1622
43
221.
000.
508
0.50
830
000
1.01
17.6
26.
8263
0.47
1035
-40
3540
3540
4.92
6.74
2.95
0.60
3.00
21.4
119
.91
1942
1419
2841
713
404.
000.
545
0.54
530
000
1.01
17.6
26.
7329
0.34
9740
-45
4045
4045
4.92
6.76
2.81
0.57
2.86
24.2
722
.84
1256
812
4818
47
177.
000.
516
0.51
630
000
1.01
17.6
24.
8132
0.38
0345
-50
4550
4550
4.92
6.78
2.99
0.61
3.04
27.3
125
.79
1255
812
4719
34
189.
000.
506
0.50
630
000
1.01
17.6
25.
2453
0.39
4235
-40
Dup
licat
e35
4035
404.
926.
742.
950.
603.
0021
.41
19.9
111
745
1169
214
321
1.00
0.50
10.
501
3000
01.
0117
.62
6.30
890.
4458
45-5
0 D
uplic
ate
4550
4550
4.92
6.78
2.99
0.61
3.04
27.3
125
.79
1951
519
4627
73
274.
000.
508
0.50
830
000
1.01
17.6
24.
8536
0.30
00
Tab
le 2
: Con
tinue
d.C
ore
6C
ore
Dep
th (c
m)
Upp
er
Dep
thLo
wer
D
epth
Extr
apol
ated
U
pper
Se
ctio
n D
epth
(c
m)
Extr
apol
ated
Lo
wer
Se
ctio
n D
epth
(c
m)
Volu
me
of w
et
sam
ple
(ml)
Wei
ght o
f w
et
sam
ple
(g)
Wei
ght o
f dr
y sa
mpl
e (g
)
Dry
Wt./
W
et c
c.
(g/c
m3)
(3
3 pp
t co
rrec
ted)
Mas
s in
ex
trap
olat
ed
sect
ion
(g/c
m2)
Cum
ulat
ive
Mas
s to
B
otto
m o
f C
urre
nt
Sect
ion
(g/c
m2)
Plot
-poi
nt
of
cum
ulat
ive
mas
s in
cu
rren
t se
ctio
n (g
/cm
2)
Po-2
09
coun
ts
Det
ecto
r Po
-209
B
ack-
Gro
und
Cou
nts
Po-2
09
coun
ts le
ss
dete
ctor
ba
ck-
grou
nd
Po-2
10
coun
ts
Det
ecto
r Po
-210
B
ack-
Gro
und
Cou
nts
Po-2
10
coun
ts
less
de
tect
or
back
-gr
ound
Wei
ght o
f Sa
mpl
e C
ount
ed
(g)
Wei
ght o
f Sa
mpl
e C
ount
ed-
Salt
(g)
Cou
nt
Tim
e (s
ec)
Spik
e Si
ze
(ml)
Spik
e A
ctiv
ity
(DPM
/ ml)
Po-2
10
Tota
l A
ctiv
ity
(DPM
/g)
(sal
t co
rrec
ted)
Erro
r P
o-21
0 +/
- 1
S.D
. (D
PM/g
)
0-1
01
01
4.92
6.10
1.93
0.36
0.39
0.36
0.20
1383
813
7595
35
948.
000.
514
0.51
430
000
1.01
17.5
723
.136
70.
7788
1-2
12
12
4.92
6.50
2.53
0.49
0.51
0.49
0.65
1519
915
1098
43
981.
000.
542
0.54
230
000
1.01
17.5
720
.708
40.
6828
2-3
23
23
4.92
7.50
2.88
0.55
0.59
0.55
1.20
1651
1316
3811
365
1131
.00
0.52
60.
526
3000
01.
0117
.57
22.7
069
0.69
833-
43
43
44.
926.
893.
250.
640.
660.
641.
8214
677
1460
1151
311
48.0
00.
556
0.55
630
000
1.01
17.5
724
.487
10.
7453
4-5
45
45
4.92
7.25
3.65
0.72
0.74
0.72
2.52
965
1195
465
212
640.
000.
531
0.53
130
000
1.01
17.5
721
.862
40.
9051
5-6
56
56
4.92
7.39
3.79
0.75
0.77
0.75
3.28
1139
411
3579
84
794.
000.
540
0.54
030
000
1.01
17.5
722
.443
30.
8230
6-7
67
67
4.92
7.41
3.83
0.75
0.78
0.75
4.05
1778
1217
6612
424
1238
.00
0.56
80.
568
3000
01.
0117
.57
21.3
682
0.62
647-
87
87
84.
927.
303.
780.
740.
770.
744.
8267
211
661
507
450
3.00
0.57
50.
575
3000
01.
0117
.57
22.9
177
1.05
898-
98
98
94.
927.
514.
070.
800.
830.
805.
6293
711
926
663
1265
1.00
0.55
00.
550
3000
01.
0117
.57
22.1
217
0.90
759-
109
109
104.
927.
614.
240.
840.
860.
846.
4793
54
931
668
466
4.00
0.56
40.
564
3000
01.
0117
.57
21.9
036
0.87
8910
-12
1012
1012
4.92
7.70
4.48
0.89
1.82
0.89
7.81
953
894
558
45
579.
000.
498
0.49
830
000
1.01
17.5
721
.311
10.
9180
12-1
412
1412
144.
927.
704.
340.
861.
760.
869.
6014
949
1485
1035
310
32.0
00.
502
0.50
230
000
1.01
17.5
723
.979
30.
7694
14-1
614
1614
164.
927.
704.
550.
901.
850.
9011
.41
1216
1212
0466
84
664.
000.
485
0.48
530
000
1.01
17.5
719
.706
70.
7906
16-1
816
1816
184.
927.
694.
410.
871.
790.
8713
.23
1080
1110
6971
54
711.
000.
579
0.57
930
000
1.01
17.5
719
.877
60.
7704
18-2
018
2018
204.
927.
704.
360.
861.
770.
8615
.01
1211
812
0377
45
769.
000.
535
0.53
530
000
1.01
17.5
720
.685
30.
7716
20-2
520
2520
254.
927.
804.
600.
914.
670.
9118
.23
1469
914
6086
23
859.
000.
519
0.51
930
000
1.01
17.5
719
.640
90.
6911
25-3
025
3025
304.
927.
974.
840.
964.
920.
9623
.03
1195
1311
8259
75
592.
000.
503
0.50
330
000
1.01
17.5
717
.245
50.
7344
30-3
530
3530
354.
927.
654.
340.
864.
410.
8627
.69
1337
1113
2675
612
744.
000.
509
0.50
930
000
1.01
17.5
717
.688
30.
7309
35-4
035
4035
404.
927.
734.
560.
904.
630.
9032
.21
644
464
035
54
351.
000.
513
0.51
330
000
1.01
17.5
719
.093
11.
0272
40-4
540
4540
454.
927.
824.
610.
924.
680.
9236
.87
962
1295
041
34
409.
000.
514
0.51
430
000
1.01
17.5
718
.517
70.
7444
25-3
0 D
uplic
ate
2530
2530
4.92
7.97
4.84
0.96
4.92
0.96
23.0
311
937
1186
649
364
6.00
0.53
30.
533
3000
01.
0117
.57
18.9
960
0.71
8430
-35
Dup
licat
e30
3530
354.
927.
654.
340.
864.
410.
8627
.69
1249
412
4569
94
695.
000.
509
0.50
930
000
1.01
17.5
714
.509
40.
7448
Cor
e 7
0-1
01
01
4.92
7.32
3.72
0.73
0.73
0.73
0.37
1178
1111
6743
612
424.
000.
502
0.48
630
000
0.51
19.5
37.
4779
0.37
331-
21
21
24.
927.
664.
200.
830.
831.
561.
1511
164
1112
420
441
6.00
0.55
90.
544
3000
00.
5119
.53
6.88
070.
3406
2-3
23
23
4.92
7.94
5.02
1.00
1.00
2.56
2.06
951
1293
935
04
346.
000.
620
0.60
830
000
0.51
19.5
36.
0603
0.32
953-
43
43
44.
928.
385.
491.
101.
103.
663.
1195
011
939
305
430
1.00
0.66
30.
652
3000
00.
5119
.53
4.92
100.
2874
4-5
45
45
4.92
8.17
5.08
1.01
1.01
4.67
4.17
772
876
425
35
248.
000.
600
0.58
830
000
0.51
19.5
35.
5223
0.35
775-
65
65
64.
928.
305.
201.
041.
045.
715.
1992
59
916
252
324
9.00
0.60
50.
593
3000
00.
5117
.89
4.19
830.
2692
6-7
67
67
4.92
8.36
5.27
1.05
1.05
6.76
6.23
855
1384
223
05
225.
000.
568
0.55
730
000
0.51
19.5
34.
7983
0.32
697-
87
87
84.
928.
455.
521.
101.
107.
867.
3112
947
1287
383
338
0.00
0.59
90.
589
3000
00.
5119
.53
5.01
800.
2594
8-9
89
89
4.92
8.78
6.03
1.21
1.21
9.07
8.46
983
1197
218
612
174.
000.
586
0.57
730
000
0.51
19.5
33.
1022
0.25
099-
109
109
104.
928.
976.
341.
271.
2710
.34
9.70
1116
411
1212
44
120.
000.
638
0.62
930
000
0.51
19.5
31.
7152
0.16
1710
-12
1012
1012
4.92
8.69
5.88
1.18
2.35
12.6
911
.51
1340
1213
2813
34
129.
000.
508
0.50
030
000
0.51
19.5
31.
9432
0.17
6312
-14
1214
1214
4.92
8.80
5.74
1.15
2.29
14.9
813
.84
1356
813
4812
35
118.
000.
652
0.64
130
000
0.51
19.5
31.
3669
0.13
1114
-16
1416
1416
4.92
8.30
5.38
1.07
2.15
17.1
316
.05
1529
915
2018
73
184.
000.
565
0.55
530
000
0.51
19.5
32.
1820
0.16
3516
-18
1618
1618
4.92
8.23
5.25
1.05
2.10
19.2
218
.18
1268
1312
5516
45
159.
000.
601
0.59
030
000
0.51
19.5
32.
1486
0.17
5718
-20
1820
1820
4.92
8.34
5.25
1.05
2.09
21.3
220
.27
1319
713
1222
33
220.
000.
838
0.82
230
000
0.51
19.5
32.
0409
0.13
9520
-25
2025
2025
4.92
7.74
4.90
0.98
4.88
26.2
023
.76
1458
414
5427
24
268.
000.
816
0.80
030
000
0.51
19.5
32.
3033
0.14
2825
-30
2530
2530
4.92
7.74
4.44
0.88
4.40
30.6
028
.40
1432
1214
2088
484
.00
0.50
10.
489
3000
00.
5119
.53
1.21
060.
1382
30-3
530
3530
354.
927.
734.
540.
904.
5135
.11
32.8
614
0111
1390
814
77.0
00.
580
0.56
730
000
0.51
19.5
30.
9779
0.11
7135
-40
3540
3540
4.92
7.68
4.31
0.85
4.27
39.3
837
.25
920
991
159
356
.00
0.58
60.
571
3000
00.
5119
.53
1.07
690.
1514
40-4
440
4440
444.
927.
654.
320.
853.
4242
.80
41.0
913
0913
1296
765
71.0
00.
722
0.70
430
000
0.51
19.5
30.
7788
0.09
8710
-12
Dup
licat
e10
1210
124.
928.
695.
881.
182.
3512
.69
11.5
199
111
980
132
412
8.00
0.72
90.
717
3000
00.
5119
.53
1.82
080.
1659
18-2
0 D
uplic
ate
1820
1820
4.92
8.34
5.25
1.05
2.09
21.3
220
.27
1010
1199
911
512
103.
000.
479
0.47
030
000
0.51
19.5
32.
1954
0.24
0230
-35
Dup
licat
e30
3530
354.
927.
734.
540.
904.
5135
.11
32.8
611
448
1136
525
47.0
00.
615
0.60
130
000
0.51
19.5
30.
6888
0.11
06
Cor
e 8
2-3
23
03
0.26
0.32
0.11
0.38
1.15
1.15
0.96
2481
2224
5930
8623
3031
.61
1.25
61.
172
6000
00.
5120
.05
10.6
583
0.19
603-
43
43
44.
926.
041.
760.
330.
331.
481.
3222
1522
2193
2427
2323
76.0
01.
099
1.01
160
000
0.51
19.9
510
.856
80.
2262
4-5
45
45
4.92
6.09
1.84
0.34
0.34
1.83
1.65
2453
724
4628
288
2788
.77
1.09
71.
013
6000
00.
5119
.95
11.3
958
0.21
765-
65
65
64.
926.
182.
040.
390.
392.
212.
0221
7425
2149
2781
927
44.5
71.
221
1.13
960
000
0.51
19.9
511
.355
60.
2185
6-7
67
67
4.92
6.20
2.03
0.38
0.38
2.60
2.40
1693
2316
7019
438
1913
.68
1.17
61.
096
6000
00.
5119
.95
10.5
846
0.24
437-
87
87
84.
926.
232.
060.
390.
392.
992.
7916
2519
1606
1721
716
93.5
01.
090
1.01
760
000
0.51
19.9
510
.500
00.
2577
8-9
89
89
4.92
6.30
2.20
0.42
0.42
3.41
3.20
1620
1616
0417
876
1760
.52
1.23
51.
159
6000
00.
5119
.95
9.59
080.
2307
9-10
910
910
4.92
6.27
2.10
0.40
0.40
3.81
3.61
1882
2118
6119
147
1883
.24
1.18
71.
109
6000
00.
5119
.95
9.23
700.
2150
10-1
210
1210
124.
926.
342.
240.
430.
864.
664.
2324
1217
2395
2198
521
62.4
31.
134
1.06
660
000
0.51
19.9
58.
5813
0.18
6312
-14
1214
1214
4.92
6.22
2.03
0.38
0.77
5.43
5.05
1676
2216
5414
4923
1404
.89
1.31
51.
226
6000
00.
5119
.95
7.01
850.
1917
14-1
614
1614
164.
926.
352.
260.
430.
866.
295.
8618
277
1820
1022
899
0.77
1.23
51.
161
6000
00.
5119
.95
4.75
000.
1538
16-1
816
1816
184.
926.
342.
260.
430.
867.
156.
7223
6825
2343
915
987
6.09
1.17
31.
103
6000
00.
5119
.95
3.43
290.
1191
18-2
018
2018
204.
926.
302.
210.
420.
848.
007.
5814
5523
1432
481
845
4.72
1.22
81.
153
6000
00.
5119
.95
2.78
910.
1356
20-2
520
2520
254.
926.
392.
370.
452.
2710
.27
9.13
1752
1917
3348
67
456.
881.
214
1.14
660
000
0.51
19.9
52.
3295
0.11
3225
-30
2530
2530
4.92
6.44
2.71
0.52
2.62
12.8
911
.58
1888
1618
7237
26
342.
101.
201
1.14
660
000
0.51
19.9
51.
6144
0.09
18
Tab
le 2
: Con
tinue
d.C
ore
8C
ore
Dep
th (c
m)
Upp
er
Dep
thLo
wer
D
epth
Extr
apol
ated
U
pper
Se
ctio
n D
epth
(c
m)
Extr
apol
ated
Lo
wer
Se
ctio
n D
epth
(c
m)
Volu
me
of w
et
sam
ple
(ml)
Wei
ght o
f w
et
sam
ple
(g)
Wei
ght o
f dr
y sa
mpl
e (g
)
Dry
Wt./
W
et c
c.
(g/c
m3)
(3
3 pp
t co
rrec
ted)
Mas
s in
ex
trap
olat
ed
sect
ion
(g/c
m2)
Cum
ulat
ive
Mas
s to
B
otto
m o
f C
urre
nt
Sect
ion
(g/c
m2)
Plot
-poi
nt
of
cum
ulat
ive
mas
s in
cu
rren
t se
ctio
n (g
/cm
2)
Po-2
09
coun
ts
Det
ecto
r Po
-209
B
ack-
Gro
und
Cou
nts
Po-2
09
coun
ts le
ss
dete
ctor
ba
ck-
grou
nd
Po-2
10
coun
ts
Det
ecto
r Po
-210
B
ack-
Gro
und
Cou
nts
Po-2
10
coun
ts
less
de
tect
or
back
-gr
ound
Wei
ght o
f Sa
mpl
e C
ount
ed
(g)
Wei
ght o
f Sa
mpl
e C
ount
ed-
Salt
(g)
Cou
nt
Tim
e (s
ec)
Spik
e Si
ze
(ml)
Spik
e A
ctiv
ity
(DPM
/ ml)
Po-2
10
Tota
l A
ctiv
ity
(DPM
/g)
(sal
t co
rrec
ted)
Erro
r P
o-21
0 +/
- 1
S.D
. (D
PM/g
)
30-3
530
3530
354.
926.
472.
440.
472.
3415
.23
14.0
616
3221
1611
262
723
4.43
1.27
01.
200
6000
00.
5119
.95
1.22
750.
0859
35-4
035
4035
404.
926.
442.
410.
462.
3117
.54
16.3
821
8917
2172
341
530
8.27
1.22
21.
154
6000
00.
5119
.95
1.24
510.
0751
40-4
440
4540
454.
926.
442.
390.
462.
2919
.83
18.6
819
497
1942
284
825
1.21
1.25
81.
188
6000
00.
5119
.95
1.10
280.
0750
45-5
045
5045
504.
926.
462.
440.
472.
3522
.18
21.0
022
5725
2232
307
926
9.51
1.22
11.
155
6000
00.
5119
.95
1.05
890.
0698
7-8
Dup
licat
e7
87
84.
926.
232.
060.
390.
392.
992.
7923
2916
2313
2088
620
52.4
70.
930
0.86
860
000
0.51
19.9
510
.354
10.
2308
14-1
6 D
uplic
ate
1416
1416
4.92
6.35
2.26
0.43
0.86
6.29
5.86
2408
2223
8615
7323
1517
.79
1.39
51.
312
6000
00.
5019
.92
4.81
700.
1268
Cor
e 9
2-3
23
03.
04.
926.
091.
870.
351.
051.
050.
8823
5317
2336
4030
539
95.0
81.
203
1.11
360
000
0.51
19.9
515
.480
00.
2461
3-4
34
34.
04.
926.
091.
890.
360.
361.
411.
2326
8522
2663
4226
2341
68.9
01.
185
1.09
860
000
0.51
19.9
514
.364
20.
2246
4-5
45
45.
04.
926.
202.
010.
380.
381.
791.
6025
107
2503
4001
839
60.9
41.
233
1.14
860
000
0.51
19.9
513
.890
20.
2220
5-6
56
56.
04.
926.
151.
960.
370.
372.
161.
9725
5125
2526
3913
938
71.6
51.
228
1.14
260
000
0.51
19.9
513
.528
90.
2188
6-7
67
67.
04.
926.
151.
930.
360.
362.
522.
3419
5723
1934
2806
827
73.2
31.
219
1.13
160
000
0.51
19.9
512
.773
30.
2443
7-8
78
78.
04.
926.
092.
030.
380.
382.
912.
7122
6219
2243
3014
729
78.2
71.
208
1.12
860
000
0.51
19.9
511
.860
10.
2189
8-9
89
89.
04.
926.
232.
080.
400.
403.
303.
1019
5216
1936
2585
625
54.2
11.
273
1.18
960
000
0.51
19.9
511
.180
00.
2228
9-10
910
910
.04.
926.
292.
190.
420.
423.
723.
5123
6121
2340
3110
730
73.0
31.
283
1.20
460
000
0.51
19.9
510
.994
60.
1997
10-1
210
1210
12.0
4.92
6.36
2.34
0.45
0.89
4.61
4.17
1599
1715
8217
375
1711
.74
1.22
11.
152
6000
00.
5119
.95
9.46
740.
2308
12-1
412
1412
14.0
4.92
6.18
1.98
0.37
0.75
5.36
4.99
1552
2215
3015
8023
1537
.41
1.28
41.
194
6000
00.
5119
.94
8.48
000.
2208
14-1
614
1614
16.0
4.92
6.22
2.03
0.38
0.77
6.13
5.74
464
745
742
48
410.
151.
283
1.19
560
000
0.51
19.9
47.
5700
0.38
3416
-18
1618
1618
.04.
926.
342.
270.
430.
876.
996.
5623
8625
2361
1902
918
62.7
61.
207
1.13
660
000
0.51
19.9
47.
0007
0.16
4318
-20
1820
1820
.04.
926.
222.
100.
400.
807.
797.
3918
1323
1790
1203
811
72.0
81.
231
1.15
160
000
0.51
19.9
45.
7304
0.17
0120
-25
2025
2025
.04.
926.
222.
040.
391.
939.
738.
7612
1719
1198
677
765
4.66
1.20
61.
125
6000
00.
5119
.94
4.89
620.
1956
25-3
025
3025
30.0
4.92
6.21
2.04
0.39
1.93
11.6
610
.69
589
1657
323
46
220.
661.
283
1.19
660
000
0.51
19.9
43.
2431
0.22
7730
-35
3035
3035
.04.
926.
242.
100.
402.
0013
.66
12.6
614
2021
1399
444
741
9.08
1.22
91.
149
6000
00.
5119
.94
2.62
640.
1331
35-4
035
4035
40.0
4.92
6.22
2.05
0.39
1.94
15.5
914
.62
1464
1714
4741
55
391.
471.
245
1.16
160
000
0.51
19.9
42.
3477
0.12
2940
-44
4045
4045
.04.
926.
312.
190.
422.
0817
.67
16.6
395
122
929
265
2323
0.10
1.22
31.
147
6000
00.
5119
.94
2.17
610.
1605
45-5
045
5045
50.0
4.92
6.31
2.28
0.44
2.18
19.8
618
.77
2089
720
8244
98
414.
341.
335
1.25
760
000
0.51
20.0
51.
6030
0.08
278-
9 D
uplic
ate
89
89.
04.
926.
232.
080.
400.
403.
303.
1020
3523
2012
2929
828
95.2
31.
325
1.23
860
000
0.51
19.9
411
.713
00.
2192
14-1
6 D
uplic
ate
1416
1416
.04.
926.
222.
030.
380.
776.
135.
7463
319
614
517
750
2.14
1.23
91.
154
6000
00.
5119
.94
7.13
830.
3254
Cor
e 10
1-2
12
02
4.92
5.65
1.17
0.21
0.42
0.42
0.31
2113
2520
8827
849
2747
.89
1.16
41.
017
6000
00.
5085
19.9
413
.116
00.
2523
2-3
23
23
4.92
5.72
1.29
0.23
0.23
0.65
0.53
2385
2323
6232
428
3203
.33
1.17
71.
043
6000
00.
5085
19.9
413
.181
50.
2346
3-4
34
34
4.92
5.80
1.43
0.26
0.26
0.91
0.78
1659
1916
4023
057
2276
.70
1.22
61.
102
6000
00.
5085
19.9
412
.774
60.
2698
4-5
45
45
4.92
5.74
1.36
0.25
0.25
1.16
1.03
2025
1620
0929
056
2872
.91
1.25
41.
121
6000
00.
5085
19.9
412
.932
50.
2429
5-6
56
56
4.92
5.81
1.40
0.26
0.26
1.41
1.28
1962
2119
4127
897
2756
.80
1.27
91.
146
6000
00.
5085
19.9
412
.562
40.
2410
6-7
67
67
4.92
5.79
1.47
0.27
0.27
1.68
1.55
1906
1718
8923
175
2287
.47
1.27
41.
151
6000
00.
5085
19.9
410
.671
90.
2248
7-8
78
78
4.92
5.83
1.44
0.26
0.26
1.94
1.81
1278
2212
5614
9023
1450
.69
1.24
71.
121
6000
00.
5085
19.9
410
.443
50.
2800
8-9
89
89
4.92
5.87
1.51
0.28
0.28
2.22
2.08
2329
723
2223
608
2321
.85
1.22
61.
109
6000
00.
5085
19.9
49.
1436
0.19
169-
109
109
104.
925.
861.
520.
280.
282.
502.
3624
4625
2421
2253
922
12.5
61.
350
1.22
360
000
0.50
8519
.94
7.57
880.
1629
10-1
210
1210
124.
925.
901.
550.
280.
573.
072.
7919
1923
1896
1349
813
16.3
81.
211
1.09
860
000
0.50
8519
.94
6.40
880.
1793
12-1
412
1412
144.
925.
921.
620.
300.
603.
673.
3719
5419
1935
988
795
5.87
1.20
01.
095
6000
00.
5085
19.9
44.
5762
0.15
1014
-16
1416
1416
4.92
5.88
1.58
0.29
0.59
4.25
3.96
1352
713
4551
28
485.
841.
264
1.15
160
000
0.49
8519
.92
3.12
000.
1463
16-1
816
1816
184.
925.
881.
590.
290.
594.
844.
5518
1821
1797
468
743
7.67
1.17
61.
071
6000
00.
5085
19.9
42.
3048
0.11
4818
-20
1820
1820
4.92
5.89
1.60
0.30
0.59
5.43
5.14
2103
1720
8644
15
408.
911.
261
1.14
960
000
0.50
8519
.94
1.73
000.
0893
20-2
520
2520
254.
925.
951.
780.
331.
667.
106.
2619
3822
1916
370
2332
2.12
1.28
11.
182
6000
00.
5085
19.9
41.
4426
0.08
8825
-30
2530
2530
4.92
5.94
1.65
0.31
1.53
8.62
7.86
1570
715
6319
48
165.
701.
207
1.10
360
000
0.50
8519
.94
0.97
000.
0836
30-3
530
3530
354.
925.
921.
700.
321.
5810
.21
9.41
1893
2518
6819
39
159.
741.
216
1.11
660
000
0.50
8519
.94
0.77
680.
0691
35-4
035
4035
404.
926.
111.
980.
381.
8812
.08
11.1
422
2523
2202
258
822
1.41
1.26
71.
180
6000
00.
5085
19.9
40.
8640
0.06
3640
-45
4045
4045
4.92
6.04
1.86
0.35
1.74
13.8
312
.95
2282
1922
6326
17
224.
611.
228
1.13
760
000
0.50
8519
.94
0.88
540.
0645
14-1
6 D
uplic
ate
1416
1416
4.92
5.88
1.58
0.29
0.59
4.25
3.96
1892
1718
7567
75
646.
531.
236
1.12
560
000
0.50
8219
.94
3.10
520.
1254
25-3
0 D
uplic
ate
2530
2530
4.92
5.94
1.65
0.31
1.53
8.62
7.86
1893
2218
7128
423
237.
391.
214
1.11
060
000
0.50
8219
.94
1.15
870.
0855
Cor
e 11
1-2
12
02
4.92
5.66
1.20
0.21
0.43
0.43
0.32
2492
724
8534
578
3417
.64
1.18
81.
042
6000
00.
5082
19.9
413
.368
80.
2303
2-3
23
23
4.92
5.73
1.32
0.24
0.24
0.67
0.55
1906
2518
8129
429
2909
.26
1.26
61.
126
6000
00.
5082
19.9
413
.914
80.
2598
3-4
34
34
4.92
5.78
1.39
0.25
0.25
0.92
0.79
2151
2321
2835
958
3560
.15
1.31
91.
181
6000
00.
5082
19.9
414
.349
00.
2419
4-5
45
45
4.92
5.83
1.48
0.27
0.27
1.19
1.05
2417
1923
9841
207
4082
.74
1.34
81.
217
6000
00.
5082
19.9
414
.170
40.
2230
5-6
56
56
4.92
5.83
1.47
0.27
0.27
1.46
1.33
2237
1622
2138
846
3849
.97
1.40
51.
267
6000
00.
5082
19.9
413
.859
50.
2245
6-7
67
67
4.92
5.83
1.46
0.27
0.27
1.73
1.59
834
2181
313
807
1362
.74
1.33
21.
200
6000
00.
5082
19.9
414
.152
00.
3868
7-8
78
78
4.92
5.84
1.49
0.27
0.27
2.00
1.86
1686
1716
6928
795
2852
.94
1.42
41.
287
6000
00.
5082
19.9
413
.460
10.
2534
8-9
89
89
4.92
5.90
1.59
0.29
0.29
2.29
2.15
2120
2220
9837
6223
3712
.53
1.49
51.
361
6000
00.
5082
19.9
413
.173
00.
2183
9-10
910
910
4.92
5.91
1.58
0.29
0.29
2.59
2.44
2424
724
1733
708
3331
.50
1.26
91.
155
6000
00.
5082
19.9
412
.095
70.
2110
Tab
le 2
: Con
tinue
d.C
ore
11C
ore
Dep
th (c
m)
Upp
er
Dep
thLo
wer
D
epth
Extr
apol
ated
U
pper
Se
ctio
n D
epth
(c
m)
Extr
apol
ated
Lo
wer
Se
ctio
n D
epth
(c
m)
Volu
me
of w
et
sam
ple
(ml)
Wei
ght o
f w
et
sam
ple
(g)
Wei
ght o
f dr
y sa
mpl
e (g
)
Dry
Wt./
W
et c
c.
(g/c
m3)
(3
3 pp
t co
rrec
ted)
Mas
s in
ex
trap
olat
ed
sect
ion
(g/c
m2)
Cum
ulat
ive
Mas
s to
B
otto
m o
f C
urre
nt
Sect
ion
(g/c
m2)
Plot
-poi
nt
of
cum
ulat
ive
mas
s in
cu
rren
t se
ctio
n (g
/cm
2)
Po-2
09
coun
ts
Det
ecto
r Po
-209
B
ack-
Gro
und
Cou
nts
Po-2
09
coun
ts le
ss
dete
ctor
ba
ck-
grou
nd
Po-2
10
coun
ts
Det
ecto
r Po
-210
B
ack-
Gro
und
Cou
nts
Po-2
10
coun
ts
less
de
tect
or
back
-gr
ound
Wei
ght o
f Sa
mpl
e C
ount
ed
(g)
Wei
ght o
f Sa
mpl
e C
ount
ed-
Salt
(g)
Cou
nt
Tim
e (s
ec)
Spik
e Si
ze
(ml)
Spik
e A
ctiv
ity
(DPM
/ ml)
Po-2
10
Tota
l A
ctiv
ity
(DPM
/g)
(sal
t co
rrec
ted)
Erro
r P
o-21
0 +/
- 1
S.D
. (D
PM/g
)
10-1
210
1210
124.
925.
921.
680.
310.
633.
212.
9024
5125
2426
2715
926
75.3
91.
240
1.13
760
000
0.50
8219
.94
9.82
820.
1917
12-1
412
1412
144.
925.
922.
080.
400.
794.
003.
6125
8623
2563
2942
829
01.6
61.
365
1.28
260
000
0.50
8219
.94
8.95
100.
1675
14-1
614
1614
164.
925.
921.
590.
290.
594.
594.
3016
9619
1677
1650
716
21.8
41.
262
1.14
860
000
0.50
8219
.94
8.53
000.
2141
16-1
816
1816
184.
926.
001.
750.
330.
655.
244.
9225
7016
2554
2266
622
27.7
71.
278
1.17
560
000
0.50
8219
.94
7.51
910.
1609
18-2
018
2018
204.
925.
951.
650.
310.
615.
865.
5516
2521
1604
1170
711
42.7
61.
300
1.18
860
000
0.50
8219
.94
6.07
420.
1824
20-2
520
2520
254.
925.
901.
570.
291.
457.
316.
5823
2117
2304
1299
512
64.9
31.
268
1.15
260
000
0.50
8219
.94
4.82
680.
1378
25-3
025
3025
304.
925.
961.
680.
311.
568.
878.
0915
8822
1566
729
2368
6.24
1.32
61.
215
6000
00.
5082
19.9
43.
6600
0.14
6130
-35
3035
3035
4.92
5.96
1.66
0.31
1.54
10.4
19.
6420
167
2009
667
863
3.65
1.27
41.
165
6000
00.
5082
19.9
42.
7424
0.11
2435
-40
3540
3540
4.92
5.98
1.69
0.31
1.57
11.9
811
.20
2232
2522
0753
99
502.
151.
242
1.13
860
000
0.50
8219
.94
2.02
600.
0944
40-4
540
4540
454.
926.
031.
740.
321.
6213
.61
12.7
918
2123
1798
351
832
0.31
1.21
51.
116
6000
00.
5082
19.9
41.
6172
0.09
5745
-50
4550
4550
4.92
5.98
1.75
0.33
1.64
15.2
414
.43
2397
1923
7845
07
412.
991.
257
1.15
760
000
0.50
8219
.94
1.52
100.
0787
14-1
6 D
uplic
ate
1416
1416
4.92
5.92
1.59
0.29
0.59
4.59
4.30
969
2594
492
19
899.
261.
222
1.11
260
000
0.49
8519
.92
8.50
810.
2885
25-3
0 D
uplic
ate
2530
2530
4.92
5.96
1.68
0.31
1.56
8.87
8.09
2672
1726
5510
375
998.
501.
298
1.18
960
000
0.50
8219
.94
3.20
490.
1036
Cor
e 12
1-2
12
02
4.92
5.75
1.36
0.25
0.49
0.49
0.37
1597
1715
8021
465
2121
.06
1.10
30.
985
6000
00.
5113
19.9
413
.891
70.
3038
2-3
23
23
4.92
5.81
1.46
0.27
0.27
0.76
0.63
2439
2224
1731
0923
3055
.11
1.08
20.
975
6000
00.
5113
19.9
413
.212
70.
2420
3-4
34
34
4.92
5.91
1.56
0.29
0.29
1.05
0.90
1507
715
0021
328
2104
.83
1.14
11.
036
6000
00.
5113
19.9
413
.805
90.
3034
4-5
45
45
4.92
5.89
1.57
0.29
0.29
1.33
1.19
2327
2523
0234
259
3386
.58
1.17
81.
071
6000
00.
5113
19.9
414
.007
60.
2424
5-6
56
56
4.92
5.88
1.53
0.28
0.28
1.62
1.48
2078
2320
5525
118
2476
.74
1.12
01.
015
6000
00.
5113
19.9
412
.104
00.
2453
6-7
67
67
4.92
5.91
1.60
0.30
0.30
1.91
1.76
2069
1920
5024
147
2380
.80
1.20
21.
095
6000
00.
5113
19.9
410
.811
50.
2234
7-8
78
78
4.92
5.97
1.68
0.31
0.31
2.22
2.07
1579
1615
6317
096
1683
.03
1.15
31.
056
6000
00.
5113
19.9
410
.394
50.
2558
8-9
89
89
4.92
6.03
1.75
0.33
0.33
2.55
2.39
1740
2117
1916
417
1612
.03
1.11
71.
027
6000
00.
5113
19.9
49.
3084
0.23
449-
109
109
104.
925.
971.
680.
310.
312.
862.
7113
3025
1305
1217
911
91.3
21.
180
1.08
160
000
0.51
1319
.94
8.61
060.
2531
10-1
210
1210
124.
925.
991.
730.
320.
643.
513.
1919
7123
1948
1655
816
22.1
11.
197
1.10
060
000
0.51
1319
.94
7.71
900.
1941
12-1
412
1412
144.
926.
011.
730.
320.
644.
153.
8323
4019
2321
1656
716
19.3
41.
165
1.07
060
000
0.51
1319
.94
6.64
710.
1674
14-1
614
1614
164.
926.
061.
830.
340.
694.
844.
5013
8616
1370
700
667
6.49
1.00
80.
931
6000
00.
5113
19.9
45.
4041
0.21
2316
-18
1618
1618
4.92
5.98
1.68
0.31
0.63
5.47
5.16
2328
2123
0713
677
1330
.52
1.23
91.
135
6000
00.
5113
19.9
45.
1813
0.14
4318
-20
1820
1820
4.92
6.10
1.84
0.35
0.69
6.16
5.81
1738
1717
2110
745
1047
.01
1.19
11.
100
6000
00.
5113
19.9
45.
6367
0.17
6820
-25
2025
2025
4.92
6.01
1.77
0.33
1.65
7.81
6.99
2539
2225
1714
8923
1433
.83
1.21
81.
122
6000
00.
5113
19.9
35.
1768
0.14
0425
-30
2530
2530
4.92
6.01
1.76
0.33
1.65
9.46
8.64
1943
719
3673
38
700.
261.
250
1.15
160
000
0.51
1319
.93
3.20
370.
1245
30-3
530
3530
354.
926.
071.
780.
331.
6611
.12
10.2
925
0825
2483
662
962
1.27
1.20
91.
113
6000
00.
5113
19.9
32.
2922
0.09
5635
-40
3540
3540
4.92
6.10
1.88
0.35
1.77
12.8
912
.01
2332
2323
0959
68
558.
491.
238
1.14
660
000
0.51
1319
.93
2.15
080.
0946
40-4
540
4540
454.
926.
071.
830.
341.
7214
.61
13.7
522
5419
2235
506
747
0.44
1.21
91.
126
6000
00.
5113
19.9
31.
9055
0.09
1745
-50
4550
4550
4.92
6.31
2.29
0.44
2.19
16.8
015
.70
2406
1623
9010
186
981.
461.
286
1.21
160
000
0.51
1319
.93
3.45
490.
1126
8-9
Dup
licat
e8
98
94.
926.
031.
750.
330.
332.
552.
3915
7523
1552
1846
818
17.0
51.
334
1.22
660
000
0.49
8519
.92
9.48
200.
2247
14-1
6 D
uplic
ate
1416
1416
4.92
6.06
1.83
0.34
0.69
4.84
4.50
2294
722
8797
08
932.
710.
801
0.74
060
000
0.51
1319
.93
5.61
660.
1883
45-5
0 D
uplic
ate
4550
4550
4.92
6.31
2.29
0.44
2.19
16.8
015
.70
2568
1925
4987
87
836.
590.
967
0.91
160
000
0.49
8519
.92
3.57
850.
1272
Cor
e 13
1-2
12
02
4.92
5.80
1.44
0.26
0.53
0.53
0.39
2225
.025
.00
2200
3433
933
95.8
21.
199
1.07
960
000
0.50
4619
.93
14.3
919
0.24
862-
32
32
34.
925.
941.
640.
300.
300.
830.
6822
70.0
23.0
022
4738
068
3769
.22
1.20
61.
101
6000
00.
5046
19.9
315
.323
20.
2511
3-4
34
34
4.92
6.00
1.74
0.33
0.33
1.15
0.99
2361
.019
.00
2342
3833
737
96.0
11.
185
1.09
060
000
0.50
4619
.93
14.9
645
0.24
434-
54
54
54.
925.
971.
700.
320.
321.
471.
3111
41.0
16.0
011
2517
356
1714
.59
1.21
71.
116
6000
00.
5046
19.9
313
.735
60.
3343
5-6
56
56
4.92
5.93
1.60
0.30
0.30
1.77
1.62
2089
.021
.00
2068
3138
731
04.5
21.
277
1.16
360
000
0.50
4619
.93
12.9
857
0.23
466-
76
76
74.
926.
011.
730.
320.
322.
091.
9322
2917
2212
3214
531
80.6
71.
227
1.12
760
000
0.50
4619
.93
12.8
343
0.22
897-
87
87
84.
926.
161.
950.
370.
372.
462.
2720
0822
1986
2849
2328
00.5
71.
256
1.16
760
000
0.50
4619
.93
12.1
571
0.23
268-
98
98
94.
926.
151.
980.
370.
372.
832.
6421
667
2159
2599
825
63.3
51.
249
1.16
260
000
0.50
4619
.93
10.2
753
0.20
479-
109
109
104.
926.
151.
960.
370.
373.
203.
0219
3125
1906
1965
919
31.5
91.
212
1.12
660
000
0.50
4619
.93
9.05
170.
2082
10-1
210
1210
124.
926.
211.
990.
380.
753.
953.
5828
7423
2851
2489
824
44.4
91.
200
1.11
660
000
0.50
4619
.93
7.72
880.
1580
12-1
412
1412
144.
926.
202.
050.
390.
784.
734.
3424
4619
2427
1707
716
68.9
21.
184
1.10
560
000
0.50
4619
.93
6.26
070.
1553
14-1
614
1614
164.
926.
372.
340.
450.
895.
625.
1815
9616
1580
1034
610
07.7
71.
201
1.13
360
000
0.50
4619
.93
5.66
450.
1813
16-1
816
1816
184.
926.
262.
130.
400.
816.
436.
0323
3421
2313
1402
713
65.3
81.
218
1.14
060
000
0.50
4619
.93
5.20
990.
1432
18-2
018
2018
204.
926.
412.
400.
460.
927.
356.
8913
2517
1308
853
583
1.25
1.23
01.
162
6000
00.
5046
19.9
35.
4997
0.19
3820
-25
2025
2025
4.92
6.32
2.19
0.42
2.09
9.44
8.40
2254
2222
3213
3623
1284
.42
1.19
91.
125
6000
00.
5046
19.9
35.
1468
0.14
7725
-30
2530
2530
4.92
6.30
2.21
0.42
2.11
11.5
510
.50
2137
721
3014
288
1392
.72
1.29
31.
214
6000
00.
5046
19.9
35.
4168
0.21
2330
-35
3035
3035
4.92
6.40
2.36
0.45
2.26
13.8
112
.68
2171
2521
4625
199
2482
.52
1.21
61.
147
6000
00.
5046
19.9
310
.141
40.
2054
14-1
6 D
uplic
ate
1416
1416
4.92
6.37
2.34
0.45
0.89
5.62
5.18
1841
1918
2212
717
1240
.67
1.23
41.
164
6000
00.
5046
19.9
35.
8855
0.16
9625
-30
Dup
licat
e25
3025
304.
926.
302.
210.
422.
1111
.55
10.5
025
3316
2517
1722
616
83.7
71.
317
1.23
760
000
0.50
4619
.93
5.44
090.
1343
30-3
5 D
uplic
ate
3035
3035
4.92
6.40
2.36
0.45
2.26
13.8
112
.68
2327
1623
1124
856
2447
.80
1.09
71.
035
6000
00.
4985
19.9
210
.164
00.
2072
Tab
le 2
: Con
tinue
d.C
ore
14C
ore
Dep
th (c
m)
Upp
er
Dep
thLo
wer
D
epth
Extr
apol
ated
U
pper
Se
ctio
n D
epth
(c
m)
Extr
apol
ated
Lo
wer
Se
ctio
n D
epth
(c
m)
Volu
me
of w
et
sam
ple
(ml)
Wei
ght o
f w
et
sam
ple
(g)
Wei
ght o
f dr
y sa
mpl
e (g
)
Dry
Wt./
W
et c
c.
(g/c
m3)
(3
3 pp
t co
rrec
ted)
Mas
s in
ex
trap
olat
ed
sect
ion
(g/c
m2)
Cum
ulat
ive
Mas
s to
B
otto
m o
f C
urre
nt
Sect
ion
(g/c
m2)
Plot
-poi
nt
of
cum
ulat
ive
mas
s in
cu
rren
t se
ctio
n (g
/cm
2)
Po-2
09
coun
ts
Det
ecto
r Po
-209
B
ack-
Gro
und
Cou
nts
Po-2
09
coun
ts le
ss
dete
ctor
ba
ck-
grou
nd
Po-2
10
coun
ts
Det
ecto
r Po
-210
B
ack-
Gro
und
Cou
nts
Po-2
10
coun
ts
less
de
tect
or
back
-gr
ound
Wei
ght o
f Sa
mpl
e C
ount
ed
(g)
Wei
ght o
f Sa
mpl
e C
ount
ed-
Salt
(g)
Cou
nt
Tim
e (s
ec)
Spik
e Si
ze
(ml)
Spik
e A
ctiv
ity
(DPM
/ ml)
Po-2
10
Tota
l A
ctiv
ity
(DPM
/g)
(sal
t co
rrec
ted)
Erro
r P
o-21
0 +/
- 1
S.D
. (D
PM/g
)
3-4
34
34
4.92
6.34
2.21
0.42
0.42
1.64
1.43
2016
720
0923
288
2292
.54
1.21
01.
135
6000
00.
5012
19.9
310
.041
40.
2117
4-5
45
45
4.92
6.41
2.33
0.45
0.45
2.08
1.86
1333
2513
0815
129
1485
.12
1.21
11.
141
6000
00.
5012
19.9
39.
9410
0.26
115-
65
65
64.
926.
482.
420.
460.
462.
552.
3118
3723
1814
2296
822
63.2
01.
240
1.17
160
000
0.50
1219
.93
10.6
400
0.22
576-
76
76
74.
926.
452.
450.
470.
473.
022.
7823
4819
2329
2768
727
29.1
61.
230
1.16
460
000
0.50
1219
.93
10.0
616
0.19
427-
87
87
84.
926.
552.
610.
500.
503.
523.
2720
5016
2034
2096
620
62.2
01.
217
1.15
660
000
0.50
1219
.93
8.76
100.
1948
8-9
89
89
4.92
6.54
2.57
0.49
0.49
4.01
3.77
1324
2113
0313
047
1279
.19
1.27
31.
208
6000
00.
5012
19.9
38.
1198
0.22
989-
109
109
104.
926.
522.
530.
490.
494.
504.
2621
2317
2106
2117
520
83.2
11.
234
1.17
060
000
0.50
1219
.93
8.44
850.
1868
10-1
210
1210
124.
926.
973.
300.
641.
295.
795.
1419
4022
1918
1954
2319
04.7
81.
242
1.19
660
000
0.50
1219
.93
8.29
360.
1936
12-1
412
1412
144.
926.
552.
600.
501.
006.
796.
2911
737
1166
1022
899
8.06
1.23
01.
168
6000
00.
5012
19.9
37.
3207
0.23
5414
-16
1416
1416
4.92
6.72
2.90
0.56
1.13
7.92
7.35
2035
2520
1013
619
1324
.52
1.20
61.
154
6000
00.
5012
19.9
35.
7073
0.15
9516
-18
1618
1618
4.92
6.65
2.75
0.53
1.07
8.98
8.45
1428
1614
1277
76
751.
701.
268
1.20
960
000
0.50
1219
.93
4.40
020.
1638
18-2
018
2018
204.
926.
642.
770.
541.
0710
.05
9.52
881
2186
036
97
350.
241.
233
1.17
660
000
0.50
1219
.93
3.45
970.
1915
20-2
520
2520
254.
926.
642.
710.
522.
6212
.67
11.3
615
4617
1529
579
555
3.10
1.23
41.
175
6000
00.
5012
19.9
33.
0760
0.13
4425
-30
2530
2530
4.92
6.66
2.76
0.53
2.67
15.3
414
.01
1324
2213
0246
223
421.
201.
253
1.19
560
000
0.50
1219
.93
2.70
550.
1415
30-3
530
3530
354.
926.
803.
000.
582.
9218
.26
16.8
023
587
2351
605
856
4.86
1.27
31.
220
6000
00.
5012
19.9
31.
9678
0.08
6335
-40
3540
3540
4.92
7.04
3.32
0.65
3.24
21.5
119
.88
803
2577
833
09
310.
361.
228
1.18
360
000
0.50
1219
.93
3.37
020.
1999
10-1
2 D
uplic
ate
1012
1012
4.92
6.97
3.30
0.64
1.29
5.79
5.14
1333
1613
1713
906
1366
.00
1.28
21.
235
6000
00.
5012
19.9
38.
3913
0.22
9514
-16
Dup
licat
e14
1614
164.
926.
722.
900.
561.
137.
927.
3518
0821
1787
1254
712
22.5
71.
244
1.19
060
000
0.50
1219
.93
5.74
420.
1668
35-4
0 D
uplic
ate
3540
3540
4.92
7.04
3.32
0.65
3.24
21.5
119
.88
2477
2124
5610
937
1052
.85
1.38
11.
330
6000
00.
4985
19.9
23.
2018
0.10
09
Cor
e 15
1-2
12
02
4.92
6.63
2.67
0.52
1.03
1.03
0.77
2334
.017
.00
2317
3270
532
33.3
31.
229
1.16
960
000
0.50
0219
.93
11.9
020
0.21
072-
32
32
34.
926.
692.
800.
540.
541.
581.
3022
46.0
22.0
022
2432
0923
3157
.70
1.21
81.
162
6000
00.
5002
19.9
312
.180
60.
2193
3-4
34
34
4.92
6.78
2.93
0.57
0.57
2.14
1.86
1159
711
5217
478
1724
.34
1.21
91.
166
6000
00.
5002
19.9
312
.796
10.
3109
4-5
45
45
4.92
6.79
2.97
0.58
0.58
2.72
2.43
1411
.025
.00
1386
2239
922
12.3
61.
233
1.18
160
000
0.50
0219
.93
13.4
792
0.28
895-
65
65
64.
926.
933.
250.
630.
633.
363.
0418
9323
1870
2841
828
09.2
01.
206
1.16
160
000
0.50
0219
.93
12.9
026
0.21
236-
76
76
74.
927.
083.
430.
670.
674.
033.
6926
58.0
19.0
026
3941
827
4141
.42
1.24
81.
204
6000
00.
5002
19.9
312
.993
80.
2031
7-8
78
78
4.92
7.00
3.30
0.65
0.65
4.67
4.35
2155
.016
.00
2139
3139
631
05.7
81.
209
1.16
460
000
0.50
0219
.93
12.4
326
0.22
458-
98
98
94.
927.
113.
470.
680.
685.
355.
0120
05.0
21.0
019
8430
897
3056
.75
1.22
21.
180
6000
00.
5002
19.9
313
.021
80.
2370
9-10
910
910
4.92
7.27
3.73
0.73
0.73
6.09
5.72
1610
.017
.00
1593
2517
524
91.7
31.
246
1.20
760
000
0.50
0219
.93
12.9
213
0.26
0410
-12
1012
1012
4.92
7.66
4.43
0.88
1.76
7.84
6.96
2374
.022
.00
2352
3467
2334
14.0
71.
207
1.17
860
000
0.50
0219
.93
12.2
848
0.21
2612
-14
1214
1214
4.92
7.38
3.94
0.78
1.56
9.40
8.62
2152
.07.
0021
4530
618
3025
.70
1.23
51.
199
6000
00.
5002
19.9
311
.724
60.
2147
14-1
614
1614
164.
927.
353.
890.
771.
5310
.93
10.1
610
58.0
25.0
010
3314
669
1443
.85
1.24
61.
209
6000
00.
5002
19.9
311
.522
40.
3065
16-1
816
1816
184.
927.
303.
780.
741.
4912
.42
11.6
725
51.0
23.0
025
2835
698
3528
.83
1.23
11.
193
6000
00.
5002
19.9
311
.663
80.
1977
18-2
018
2018
204.
927.
293.
780.
741.
4913
.90
13.1
647
519
456
572
755
9.20
1.22
51.
187
6000
00.
5002
19.9
310
.296
30.
4431
20-2
520
2520
254.
927.
564.
200.
834.
1618
.06
15.9
818
5416
1838
2565
625
35.6
11.
253
1.22
060
000
0.50
0219
.93
11.2
734
0.22
5425
-30
2530
2530
4.92
7.57
4.29
0.85
4.25
22.3
120
.18
1887
2118
6622
997
2268
.25
1.25
81.
226
6000
00.
5002
19.9
39.
8826
0.20
923-
4 D
uplic
ate
34
34
4.92
6.78
2.93
0.57
0.57
2.14
1.86
2100
2220
7834
2023
3370
.56
1.29
51.
239
6000
00.
5002
19.9
313
.051
90.
2272
5-6
Dup
licat
e5
65
64.
926.
933.
250.
630.
633.
363.
0417
287
1721
2798
827
68.1
01.
256
1.20
960
000
0.50
0219
.93
13.2
639
0.25
3818
-20
Dup
licat
e18
2018
204.
927.
293.
780.
741.
4913
.90
13.1
623
3717
2320
3391
533
54.6
81.
367
1.32
560
000
0.49
8519
.92
10.8
390
0.18
83
Cor
e 16
1-2
12
02
4.94
7.06
3.36
0.66
1.31
1.31
0.99
1710
2216
8828
4723
2802
.14
1.23
61.
191
6000
00.
4922
19.8
813
.639
50.
2608
2-3
23
23
4.94
7.18
3.59
0.70
0.70
2.02
1.67
2241
.08.
0022
3338
858
3847
.59
1.26
51.
223
6000
00.
4942
19.8
713
.832
70.
2243
3-4
34
34
4.94
7.31
3.80
0.75
0.75
2.76
2.39
1907
.025
.00
1882
2961
829
28.6
31.
238
1.20
060
000
0.49
2219
.88
12.6
878
0.23
614-
54
54
54.
947.
333.
780.
740.
743.
513.
1313
3023
1307
2111
820
86.0
81.
232
1.19
460
000
0.49
2219
.88
13.0
842
0.28
875-
65
65
64.
947.
383.
880.
760.
764.
273.
8920
7219
2053
3713
636
80.4
21.
247
1.21
060
000
0.49
2219
.88
14.5
016
0.24
036-
76
76
74.
947.
664.
390.
870.
875.
144.
7016
3016
1614
3173
631
46.1
01.
295
1.26
360
000
0.49
2219
.88
15.1
021
0.27
077-
87
87
84.
947.
454.
010.
790.
795.
925.
5322
5821
2237
4226
741
90.0
31.
283
1.24
060
000
0.49
2219
.88
14.7
815
0.22
958-
98
98
94.
947.
584.
230.
830.
836.
766.
3410
6925
1044
1727
817
05.2
51.
250
1.21
760
000
0.49
4219
.87
13.1
758
0.32
189-
109
109
104.
947.
604.
230.
840.
847.
597.
1722
9122
2269
3630
2335
77.6
21.
249
1.21
660
000
0.49
2219
.88
12.6
878
0.21
4310
-12
1012
1012
4.94
7.59
4.23
0.84
1.67
9.26
8.43
1033
710
2614
978
1475
.72
1.23
11.
199
6000
00.
4922
19.8
811
.741
90.
3087
12-1
412
1412
144.
947.
634.
260.
841.
6810
.94
10.1
022
0425
2179
3212
831
75.7
91.
229
1.19
760
000
0.49
2219
.88
11.9
169
0.21
2914
-16
1416
1416
4.94
7.50
4.09
0.81
1.61
12.5
511
.75
2357
2323
3432
138
3174
.78
1.24
21.
208
6000
00.
4922
19.8
811
.020
40.
1970
16-1
816
1816
184.
947.
664.
350.
861.
7214
.27
13.4
120
8419
2065
2801
627
68.2
61.
254
1.22
260
000
0.49
2219
.88
10.7
319
0.20
5418
-20
1820
1820
4.94
7.62
4.29
0.85
1.69
15.9
715
.12
2311
1622
9529
986
2962
.28
1.26
91.
236
6000
00.
4922
19.8
810
.216
70.
1890
20-2
520
2520
254.
947.
824.
580.
914.
5420
.50
18.2
321
5321
2132
2420
723
85.3
91.
266
1.23
760
000
0.49
2219
.88
8.85
540.
1829
1-2
Dup
licat
e1
20
24.
947.
063.
360.
661.
311.
310.
9919
9522
1973
3273
2332
24.0
11.
268
1.22
260
000
0.49
4219
.87
13.1
318
0.23
38
Tab
le 2
: Con
tinue
d.C
ore
17C
ore
Dep
th (c
m)
Upp
er
Dep
thLo
wer
D
epth
Extr
apol
ated
U
pper
Se
ctio
n D
epth
(c
m)
Extr
apol
ated
Lo
wer
Se
ctio
n D
epth
(c
m)
Volu
me
of w
et
sam
ple
(ml)
Wei
ght o
f w
et
sam
ple
(g)
Wei
ght o
f dr
y sa
mpl
e (g
)
Dry
Wt./
W
et c
c.
(g/c
m3)
(3
3 pp
t co
rrec
ted)
Mas
s in
ex
trap
olat
ed
sect
ion
(g/c
m2)
Cum
ulat
ive
Mas
s to
B
otto
m o
f C
urre
nt
Sect
ion
(g/c
m2)
Plot
-poi
nt
of
cum
ulat
ive
mas
s in
cu
rren
t se
ctio
n (g
/cm
2)
Po-2
09
coun
ts
Det
ecto
r Po
-209
B
ack-
Gro
und
Cou
nts
Po-2
09
coun
ts le
ss
dete
ctor
ba
ck-
grou
nd
Po-2
10
coun
ts
Det
ecto
r Po
-210
B
ack-
Gro
und
Cou
nts
Po-2
10
coun
ts
less
de
tect
or
back
-gr
ound
Wei
ght o
f Sa
mpl
e C
ount
ed
(g)
Wei
ght o
f Sa
mpl
e C
ount
ed-
Salt
(g)
Cou
nt
Tim
e (s
ec)
Spik
e Si
ze
(ml)
Spik
e A
ctiv
ity
(DPM
/ ml)
Po-2
10
Tota
l A
ctiv
ity
(DPM
/g)
(sal
t co
rrec
ted)
Erro
r P
o-21
0 +/
- 1
S.D
. (D
PM/g
)
1-2
12
02
4.94
5.81
1.42
0.26
0.52
0.52
0.39
1723
1717
0634
376
3409
.00
1.22
31.
098
6000
00.
4929
19.8
817
.838
00.
3070
2-3
23
23
4.93
5.79
1.35
0.24
0.24
0.76
0.64
2505
2124
8448
897
4849
.96
1.25
51.
119
6000
00.
4929
19.8
817
.104
50.
2468
3-4
34
34
4.93
5.87
1.47
0.27
0.27
1.03
0.89
2262
1722
4544
106
4375
.05
1.24
81.
125
6000
00.
4929
19.8
816
.975
30.
2578
4-5
45
45
4.93
5.95
1.59
0.29
0.29
1.32
1.17
1657
1916
3831
137
3084
.88
1.25
91.
145
6000
00.
4929
19.8
816
.118
00.
2918
5-6
56
56
4.93
5.94
1.55
0.28
0.28
1.61
1.46
1641
1716
2432
526
3225
.06
1.27
51.
156
6000
00.
4929
19.8
816
.838
70.
2980
6-7
67
67
4.93
6.05
1.76
0.33
0.33
1.93
1.77
1897
2118
7636
757
3643
.81
1.27
21.
170
6000
00.
4929
19.8
816
.269
20.
2709
7-8
78
78
4.93
6.20
2.02
0.38
0.38
2.32
2.13
1722
2217
0031
3223
3087
.08
1.28
31.
196
6000
00.
4929
19.8
814
.884
10.
2708
8-9
89
89
4.93
6.05
1.79
0.33
0.33
2.65
2.48
1602
815
9427
718
2742
.44
1.24
51.
147
6000
00.
4929
19.8
814
.701
80.
2826
9-10
910
910
4.93
6.08
1.81
0.34
0.34
2.99
2.82
969
2394
616
878
1666
.54
1.23
91.
143
6000
00.
4942
19.8
715
.138
80.
3740
10-1
210
1210
124.
936.
222.
020.
380.
763.
753.
3721
9123
2168
3926
838
90.0
41.
268
1.18
160
000
0.49
2919
.88
14.8
921
0.24
0112
-14
1214
1214
4.93
6.24
1.99
0.37
0.75
4.50
4.13
1018
1999
917
457
1725
.12
1.33
01.
236
6000
00.
4929
19.8
813
.689
20.
3321
14-1
614
1614
164.
936.
212.
030.
380.
765.
264.
8820
2717
2010
3097
630
65.0
81.
239
1.14
360
000
0.49
2919
.88
13.0
687
0.23
7516
-18
1618
1618
4.93
6.14
1.90
0.36
0.71
5.97
5.62
2264
2122
4331
257
3089
.07
1.25
91.
166
6000
00.
4929
19.8
811
.571
30.
2096
18-2
018
2018
204.
936.
051.
780.
330.
676.
646.
3117
2017
1703
2294
622
65.5
71.
356
1.24
960
000
0.49
4219
.87
10.4
597
0.22
1420
-25
2025
2025
4.93
6.17
1.94
0.37
1.83
8.47
7.55
1741
2217
1919
1723
1871
.83
1.26
91.
178
6000
00.
4929
19.8
89.
0603
0.21
3225
-30
2530
2530
4.93
6.24
2.02
0.38
1.91
10.3
89.
4218
538
1845
1741
817
09.2
11.
282
1.19
460
000
0.49
2919
.88
7.60
580.
1861
30-3
530
3530
354.
936.
242.
030.
381.
9112
.28
11.3
316
5025
1625
1670
816
41.0
41.
292
1.19
960
000
0.49
2919
.88
8.25
390.
2060
35-4
035
4035
404.
936.
171.
900.
361.
7914
.07
13.1
819
9523
1972
1238
812
04.5
71.
268
1.17
460
000
0.49
2919
.88
5.09
710.
1494
40-4
540
4540
454.
936.
181.
920.
361.
8015
.88
14.9
721
5919
2140
1281
712
46.4
01.
294
1.19
960
000
0.49
2919
.88
4.75
940.
1370
45-5
045
5045
504.
936.
121.
860.
351.
7517
.62
16.7
520
4517
2028
933
690
0.85
1.26
11.
166
6000
00.
4929
19.8
83.
7336
0.12
702-
3 D
uplic
ate
23
23
4.93
5.79
1.35
0.24
0.24
0.76
0.64
1549
2115
2831
047
3077
.29
1.27
01.
132
6000
00.
4929
19.8
817
.434
50.
3160
14-1
6 D
uplic
ate
1416
1416
4.93
6.21
2.03
0.38
0.76
5.26
4.88
1412
1913
9323
077
2281
.65
1.34
21.
238
6000
00.
4942
19.8
712
.987
30.
2738
Cor
e 18
1-2
12
02
4.93
8.97
6.21
1.24
2.48
2.48
1.86
1745
.017
.00
1728
1468
614
39.7
11.
583
1.56
060
000
0.49
4419
.88
5.24
980.
1400
2-3
23
23
4.93
9.43
7.00
1.40
1.40
3.89
3.18
1635
2116
1414
387
1410
.18
1.72
31.
703
6000
00.
4944
19.8
85.
0417
0.13
593-
43
43
44.
939.
587.
301.
461.
465.
344.
6123
0517
2288
1750
617
14.4
91.
623
1.59
760
000
0.49
4419
.88
4.61
240.
1127
4-5
45
45
4.93
9.43
6.97
1.40
1.40
6.74
6.04
1464
2214
4211
6823
1126
.40
1.70
71.
687
6000
00.
4944
19.8
84.
5505
0.13
945-
65
65
64.
939.
537.
111.
431.
438.
177.
4513
708
1362
867
884
1.43
1.71
41.
695
6000
00.
4944
19.8
83.
5827
0.12
596-
76
76
74.
939.
777.
361.
481.
489.
648.
9112
9925
1274
718
869
3.57
1.81
01.
790
6000
00.
4944
19.8
82.
9883
0.11
617-
87
87
84.
939.
196.
721.
351.
3510
.99
10.3
216
6823
1645
879
884
9.78
1.77
31.
751
6000
00.
4944
19.8
82.
8988
0.10
168-
98
98
94.
939.
507.
061.
411.
4112
.41
11.7
016
2319
1604
827
779
9.31
1.73
21.
712
6000
00.
4944
19.8
82.
8605
0.10
339-
109
109
104.
939.
326.
871.
381.
3813
.78
13.0
915
3917
1522
555
652
9.37
1.77
81.
757
6000
00.
4944
19.8
81.
9455
0.08
7010
-11
1011
1011
4.93
9.27
6.68
1.34
1.34
15.1
214
.45
1363
2113
4231
17
286.
691.
789
1.76
660
000
0.49
4419
.88
1.18
880.
0739
11-1
211
1211
124.
939.
096.
501.
301.
3016
.42
15.7
720
8317
2066
513
648
0.36
1.79
61.
772
6000
00.
4944
19.8
81.
2893
0.06
1112
-13
1213
1213
4.93
9.24
6.73
1.35
1.35
17.7
717
.09
2376
2223
5450
223
448.
641.
804
1.78
260
000
0.49
4419
.88
1.05
130.
0537
13-1
413
1413
144.
939.
186.
611.
321.
3219
.09
18.4
312
108
1202
314
829
0.50
1.81
71.
794
6000
00.
4944
19.8
81.
3242
0.08
1814
-15
1415
1415
4.93
9.39
6.89
1.38
1.38
20.4
819
.78
1876
2518
5156
68
534.
131.
708
1.68
860
000
0.49
4419
.88
1.68
050.
0754
15-1
615
1615
164.
949.
286.
721.
341.
3421
.82
21.1
519
6123
1938
576
854
3.01
1.78
71.
765
6000
00.
4944
19.8
81.
5606
0.06
9516
-17
1617
1617
4.94
9.55
7.10
1.42
1.42
23.2
422
.53
1318
1912
9955
57
531.
251.
876
1.85
560
000
0.49
4419
.88
2.16
730.
0967
17-1
817
1817
184.
949.
156.
491.
301.
3024
.54
23.8
912
9117
1274
657
663
4.57
1.88
21.
857
6000
00.
4944
19.8
82.
6367
0.10
7018
-19
1819
1819
4.94
8.98
6.29
1.26
1.26
25.8
025
.17
378
2135
716
77
155.
401.
828
1.80
260
000
0.49
4419
.88
2.37
380.
2015
2-3
Dup
licat
e2
32
34.
939.
437.
001.
401.
403.
893.
1820
858
2077
2007
819
72.2
11.
762
1.74
260
000
0.49
4419
.88
5.35
800.
1220
18-9
Dup
licat
e18
1918
194.
948.
986.
291.
261.
2625
.80
25.1
754
521
524
272
725
8.10
1.73
01.
706
6000
00.
4942
19.8
72.
8359
0.18
35
Cor
e 19
1-2
12
02
4.94
7.07
3.44
0.67
1.35
1.35
1.01
2657
2526
3241
898
4147
.06
1.20
91.
167
6000
00.
5001
19.8
813
.421
50.
2097
2-3
23
23
4.94
7.29
3.81
0.75
0.75
2.10
1.72
1832
1718
1532
196
3189
.09
1.37
21.
331
6000
00.
4942
19.8
712
.967
30.
2309
3-4
34
34
4.94
7.43
3.98
0.78
0.78
2.88
2.49
2122
1921
0334
457
3410
.88
1.25
71.
221
6000
00.
5001
19.8
813
.203
90.
2274
4-5
45
45
4.94
7.29
3.72
0.73
0.73
3.61
3.24
2274
1722
5736
756
3639
.89
1.24
91.
209
6000
00.
5001
19.8
813
.256
80.
2210
5-6
56
56
4.94
7.88
4.65
0.91
0.91
4.52
4.06
1300
2112
7920
987
2074
.50
1.23
21.
189
6000
00.
5001
19.8
813
.563
60.
3000
6-7
67
67
4.94
7.74
4.44
0.88
0.88
5.40
4.96
324
1730
753
06
520.
041.
264
1.23
360
000
0.50
0119
.88
13.6
559
0.60
797-
87
87
84.
947.
564.
190.
830.
836.
225.
8116
1022
1588
2832
2327
88.5
21.
262
1.22
960
000
0.50
0119
.88
14.2
079
0.27
228-
98
98
94.
947.
434.
000.
790.
797.
016.
6213
038
1295
2398
823
73.3
01.
235
1.20
060
000
0.50
0119
.88
15.1
811
0.31
389-
109
109
104.
947.
433.
970.
780.
787.
797.
4022
3625
2211
4030
839
93.4
91.
234
1.19
860
000
0.50
0119
.88
14.9
819
0.23
8410
-12
1012
1012
4.94
7.49
4.06
0.80
1.60
9.39
8.59
2027
2320
0431
948
3160
.15
1.24
51.
210
6000
00.
5001
19.8
812
.952
00.
2319
12-1
412
1412
144.
947.
223.
670.
721.
4410
.83
10.1
114
0019
1381
2415
723
90.1
91.
261
1.22
160
000
0.50
0119
.88
14.0
941
0.29
0214
-16
1416
1416
4.94
7.33
3.82
0.75
1.50
12.3
311
.58
1141
1711
2418
636
1842
.50
1.26
91.
230
6000
00.
5001
19.8
813
.243
40.
3107
16-1
816
1816
184.
947.
303.
750.
741.
4713
.80
13.0
624
9521
2474
3982
739
43.0
91.
237
1.19
860
000
0.50
0119
.88
13.2
214
0.21
1818
-20
1820
1820
4.94
7.32
3.81
0.75
1.50
15.3
014
.55
1905
818
9732
368
3203
.01
1.33
31.
292
6000
00.
4942
19.8
712
.828
90.
2281
1-2
Dup
licat
e1
20
24.
947.
073.
440.
671.
351.
351.
0122
968
2288
3677
836
39.4
91.
226
1.18
360
000
0.50
0119
.88
13.3
619
0.22
296-
7 D
uplic
ate
67
67
4.94
7.74
4.44
0.88
0.88
5.40
4.96
790
2276
813
4123
1307
.88
1.37
61.
342
6000
00.
4942
19.8
712
.457
90.
3518
Tab
le 2
: Con
tinue
d.C
ore
20C
ore
Dep
th (c
m)
Upp
er
Dep
thLo
wer
D
epth
Extr
apol
ated
U
pper
Se
ctio
n D
epth
(c
m)
Extr
apol
ated
Lo
wer
Se
ctio
n D
epth
(c
m)
Volu
me
of w
et
sam
ple
(ml)
Wei
ght o
f w
et
sam
ple
(g)
Wei
ght o
f dr
y sa
mpl
e (g
)
Dry
Wt./
W
et c
c.
(g/c
m3)
(3
3 pp
t co
rrec
ted)
Mas
s in
ex
trap
olat
ed
sect
ion
(g/c
m2)
Cum
ulat
ive
Mas
s to
B
otto
m o
f C
urre
nt
Sect
ion
(g/c
m2)
Plot
-poi
nt
of
cum
ulat
ive
mas
s in
cu
rren
t se
ctio
n (g
/cm
2)
Po-2
09
coun
ts
Det
ecto
r Po
-209
B
ack-
Gro
und
Cou
nts
Po-2
09
coun
ts le
ss
dete
ctor
ba
ck-
grou
nd
Po-2
10
coun
ts
Det
ecto
r Po
-210
B
ack-
Gro
und
Cou
nts
Po-2
10
coun
ts
less
de
tect
or
back
-gr
ound
Wei
ght o
f Sa
mpl
e C
ount
ed
(g)
Wei
ght o
f Sa
mpl
e C
ount
ed-
Salt
(g)
Cou
nt
Tim
e (s
ec)
Spik
e Si
ze
(ml)
Spik
e A
ctiv
ity
(DPM
/ ml)
Po-2
10
Tota
l A
ctiv
ity
(DPM
/g)
(sal
t co
rrec
ted)
Erro
r P
o-21
0 +/
- 1
S.D
. (D
PM/g
)
3-4
34
34
4.94
6.21
2.03
0.38
0.38
1.46
1.27
2322
823
1437
558
3716
.18
1.22
71.
143
6000
00.
4929
19.8
713
.759
70.
2271
4-5
45
45
4.94
6.20
2.02
0.38
0.38
1.84
1.65
2102
2520
7734
548
3418
.34
1.25
81.
172
6000
00.
4929
19.8
713
.753
20.
2367
5-6
56
56
4.94
6.22
2.05
0.39
0.39
2.23
2.04
1095
2310
7215
508
1527
.72
1.23
61.
153
6000
00.
4929
19.8
712
.109
50.
3129
6-7
67
67
4.94
6.29
2.15
0.41
0.41
2.64
2.43
2081
1920
6230
517
3016
.53
1.28
81.
206
6000
00.
4929
19.8
711
.879
70.
2178
7-8
78
78
4.94
6.35
2.26
0.43
0.43
3.07
2.85
1470
2514
4515
178
1489
.97
0.94
50.
889
6000
00.
4942
19.8
711
.394
60.
2986
8-9
89
89
4.94
6.33
2.21
0.42
0.42
3.49
3.28
708
2368
555
68
538.
980.
925
0.86
860
000
0.49
4219
.87
8.90
010.
3922
9-10
910
910
4.94
6.34
2.24
0.42
0.42
3.91
3.70
1922
1919
0318
237
1790
.94
1.21
41.
134
6000
00.
4942
19.8
78.
1474
0.19
4610
-12
1012
1012
4.94
6.36
2.25
0.43
0.86
4.77
4.34
1867
2218
4515
1623
1468
.43
1.23
61.
162
6000
00.
4929
19.8
76.
7110
0.17
9312
-14
1214
1214
4.94
6.33
2.22
0.42
0.84
5.62
5.19
2317
823
0916
358
1596
.24
1.23
01.
155
6000
00.
4929
19.8
75.
8642
0.14
8914
-16
1416
1416
4.94
6.36
2.28
0.43
0.87
6.49
6.05
2087
2520
6210
618
1025
.53
1.20
81.
137
6000
00.
4929
19.8
74.
2863
0.13
6716
-18
1618
1618
4.94
6.34
2.22
0.42
0.85
7.33
6.91
2549
2325
2611
848
1142
.35
1.21
51.
141
6000
00.
4929
19.8
73.
8833
0.11
7418
-20
1820
1820
4.94
6.31
2.22
0.42
0.84
8.18
7.75
1046
1910
2740
37
382.
321.
242
1.16
660
000
0.49
2919
.87
3.12
670.
1656
20-2
520
2520
254.
946.
302.
170.
412.
0610
.23
9.21
1870
1718
5357
06
539.
321.
248
1.16
960
000
0.49
2919
.87
2.43
830.
1085
25-3
025
3025
304.
946.
532.
590.
502.
4912
.73
11.4
822
7117
2254
555
651
9.31
1.20
71.
146
6000
00.
4942
19.8
71.
9735
0.09
0030
-35
3035
3035
4.94
6.49
2.48
0.47
2.37
15.1
013
.91
2182
1721
6549
96
464.
161.
275
1.20
760
000
0.49
2919
.87
1.74
020.
0843
35-4
035
4035
404.
946.
422.
400.
462.
3017
.40
16.2
517
0721
1686
298
726
8.79
1.08
81.
028
6000
00.
4942
19.8
71.
5228
0.09
8940
-45
4045
4047
.54.
946.
392.
360.
453.
3820
.78
18.5
317
398
1731
443
841
1.94
1.35
11.
275
6000
00.
4929
19.8
71.
8288
0.09
4345
-50
5055
4855
4.94
6.86
3.04
0.59
4.43
25.2
123
.73
2030
2520
0510
408
1005
.29
1.25
11.
199
6000
00.
4929
19.8
74.
0959
0.13
1920
-25
Dup
licat
e20
2520
254.
946.
302.
170.
412.
0610
.23
9.21
1257
2112
3632
57
301.
541.
242
1.16
460
000
0.49
2919
.87
2.05
360.
1241
50-5
5 D
uplic
ate
5055
4855
4.94
6.86
3.04
0.59
4.43
25.2
123
.73
1574
1715
5775
96
732.
491.
185
1.13
660
000
0.49
4219
.87
4.06
710.
1536
Cor
e 21
1-2
12
02
4.94
5.66
1.16
0.21
0.41
0.41
0.31
2138
2621
1237
708
3734
.01
1.31
91.
151
6000
00.
4919
19.8
615
.009
90.
2471
2-3
23
23
4.94
5.83
1.44
0.26
0.26
0.67
0.54
2042
2220
2033
3423
3284
.39
1.27
01.
142
6000
00.
4937
19.8
713
.967
20.
2464
3-4
34
34
4.94
5.89
1.51
0.28
0.28
0.95
0.81
2059
820
5133
568
3320
.99
1.26
71.
146
6000
00.
4937
19.8
713
.860
00.
2421
4-5
45
45
4.94
6.00
1.77
0.33
0.33
1.28
1.12
2293
2522
6835
318
3493
.13
1.22
71.
130
6000
00.
4937
19.8
713
.372
30.
2277
5-6
56
56
4.94
5.91
1.59
0.29
0.29
1.57
1.43
2417
2323
9434
698
3429
.47
1.22
41.
114
6000
00.
4937
19.8
712
.616
80.
2169
6-7
67
67
4.94
6.44
2.47
0.47
0.47
2.05
1.81
1427
2214
0516
5223
1610
.49
1.22
81.
163
6000
00.
4937
19.8
79.
6700
0.24
577-
87
87
84.
946.
151.
950.
370.
372.
412.
2323
738
2365
3087
830
47.8
51.
251
1.16
260
000
0.49
3719
.87
10.8
840
0.19
878-
98
98
94.
946.
292.
280.
440.
442.
852.
6320
9525
2070
2071
820
35.7
41.
247
1.17
560
000
0.49
3719
.87
8.21
370.
1840
9-10
910
910
4.94
6.17
2.03
0.38
0.38
3.23
3.04
2232
2322
0921
118
2073
.90
1.24
21.
159
6000
00.
4937
19.8
77.
9490
0.17
6410
-12
1012
1012
4.94
6.34
2.19
0.41
0.82
4.05
3.64
2087
1920
6815
957
1560
.60
1.28
91.
191
6000
00.
4919
19.8
66.
1917
0.15
8812
-14
1214
1214
4.94
6.38
2.31
0.44
0.88
4.93
4.49
2285
1722
6812
856
1249
.13
1.25
71.
184
6000
00.
4937
19.8
74.
5639
0.13
1314
-16
1416
1416
4.94
6.24
2.07
0.39
0.78
5.72
5.33
1689
2116
6883
87
809.
031.
243
1.16
060
000
0.49
3719
.87
4.10
150.
1474
16-1
816
1816
184.
946.
432.
330.
450.
896.
616.
1621
9017
2173
767
673
2.38
1.23
81.
166
6000
00.
4937
19.8
72.
8352
0.10
7618
-20
1820
1820
4.94
6.32
2.16
0.41
0.82
7.43
7.02
2535
2225
1378
923
732.
901.
238
1.15
960
000
0.49
3719
.87
2.46
780.
0960
20-2
520
2520
254.
946.
402.
440.
472.
349.
778.
6024
348
2426
634
859
4.05
1.25
11.
184
6000
00.
4937
19.8
72.
0289
0.08
6525
-30
2530
2530
4.94
6.61
2.66
0.51
2.56
12.3
311
.05
2520
2524
9551
38
472.
141.
231
1.17
160
000
0.49
3719
.87
1.58
590.
0767
30-3
530
3530
354.
947.
003.
250.
633.
1715
.50
13.9
257
323
550
958
79.7
61.
248
1.20
160
000
0.49
3719
.87
1.18
500.
1508
35-4
035
4035
404.
946.
772.
940.
572.
8518
.35
16.9
324
1219
2393
475
743
6.48
1.25
01.
196
6000
00.
4937
19.8
71.
4960
0.07
527-
8 D
uplic
ate
78
78
4.94
6.15
1.95
0.37
0.37
2.41
2.23
2194
2421
7027
418
2704
.24
1.20
91.
123
6000
00.
4919
19.8
610
.843
90.
2102
30-3
5 D
uplic
ate
3035
3035
4.94
7.00
3.25
0.63
3.17
15.5
013
.92
2004
1719
8746
66
433.
671.
764
1.69
760
000
0.49
1919
.86
1.25
640.
0629
Cor
e 22
1-2
12
02
4.94
5.73
1.29
0.23
0.46
0.46
0.35
2680
.022
.00
2658
4846
2347
87.9
91.
236
1.09
660
000
0.49
3119
.87
16.1
070
0.23
472-
32
32
34.
945.
811.
430.
260.
260.
720.
5918
928
1884
3553
835
20.1
91.
249
1.12
260
000
0.49
3119
.87
16.3
110
0.27
653-
43
43
44.
945.
801.
410.
260.
260.
980.
8521
2525
2100
3862
838
26.3
41.
231
1.10
560
000
0.49
3119
.87
16.1
638
0.26
284-
54
54
54.
945.
811.
430.
260.
261.
241.
1122
0121
2180
4393
743
57.1
11.
372
1.23
360
000
0.49
1919
.86
15.8
344
0.24
115-
65
65
64.
945.
831.
440.
260.
261.
501.
3718
3419
1815
3419
733
88.0
91.
235
1.11
060
000
0.49
3119
.87
16.4
752
0.28
466-
76
76
74.
945.
931.
620.
300.
301.
801.
6521
0017
2083
3774
637
40.5
61.
253
1.14
360
000
0.49
3119
.87
15.3
903
0.25
307-
87
87
84.
945.
991.
680.
310.
312.
111.
9612
0121
1180
2091
720
68.4
61.
245
1.13
960
000
0.49
3119
.87
15.0
762
0.33
388-
98
98
94.
945.
921.
590.
290.
292.
402.
2620
5717
2040
3642
636
09.1
31.
217
1.08
560
000
0.49
3119
.87
15.9
722
0.26
739-
109
109
104.
945.
961.
660.
310.
312.
712.
5519
6123
1938
3333
832
99.4
71.
271
1.16
360
000
0.49
3119
.87
14.3
487
0.25
1410
-12
1012
1012
4.94
5.97
1.67
0.31
0.62
3.32
3.02
2173
1721
5639
926
3957
.43
1.38
71.
269
6000
00.
4919
19.8
614
.131
80.
2258
12-1
412
1412
144.
945.
981.
690.
310.
633.
953.
6417
5917
1742
2758
627
29.0
61.
223
1.12
060
000
0.49
3119
.87
13.7
002
0.26
3914
-16
1416
1416
4.94
5.99
1.69
0.31
0.63
4.58
4.27
2386
2123
6536
607
3621
.85
1.24
81.
143
6000
00.
4931
19.8
713
.124
40.
2194
16-1
816
1816
194.
946.
001.
710.
320.
955.
534.
9016
3917
1622
2159
621
31.6
41.
249
1.14
660
000
0.49
3119
.87
11.2
403
0.24
5418
-20
1823
1823
4.94
5.94
1.61
0.30
1.48
876.
7034
5.96
2298
2222
7623
7023
2317
.02
1.22
11.
113
6000
00.
4931
19.8
78.
9622
0.18
9220
-25
2328
2328
4.94
5.99
1.66
0.31
1.52
518.
2286
7.47
1903
818
9516
148
1581
.04
1.23
41.
118
6000
00.
4931
19.8
77.
3139
0.18
6325
-30
2833
2833
4.94
6.02
1.74
0.32
1.61
659.
8451
9.04
2415
2523
9018
248
1784
.52
1.28
81.
183
6000
00.
4931
19.8
76.
1834
0.14
8330
-35
3338
3338
4.94
5.94
1.66
0.31
1.53
6811
.381
910
.61
2010
2319
8712
948
1259
.83
1.23
51.
130
6000
00.
4931
19.8
75.
4982
0.15
7535
-40
3843
3843
4.94
6.02
1.74
0.32
1.61
7912
.999
812
.19
1968
1919
4910
257
992.
331.
214
1.11
560
000
0.49
3119
.87
4.47
230.
1448
45-5
043
4843
484.
946.
011.
720.
321.
5994
14.5
991
13.8
022
6317
2246
1060
610
24.4
21.
262
1.15
860
000
0.49
3119
.87
3.85
830.
1230
50-5
548
5348
534.
946.
041.
750.
331.
6256
16.2
247
15.4
121
2921
2108
973
793
8.24
1.25
11.
150
6000
00.
4931
19.8
73.
7934
0.12
668-
9 D
uplic
ate
89
89
4.94
5.92
1.59
0.29
0.29
2.40
2.26
2132
821
2437
498
3713
.02
1.23
61.
102
6000
00.
4931
19.8
715
.538
40.
2565
25-3
0 D
uplic
ate
23.0
028
.00
23.0
028
.00
4.94
5.99
1.66
0.31
1.61
659.
8451
9.04
1709
2516
8414
728
1441
.82
1.25
51.
137
6000
00.
4931
19.8
77.
3800
0.19
69
33
Table 3. Activity of radium in subsections of sediment cores. Error represents 1 standard deviation.
Core
Identification Sample Interval
(cm) Ra-226 dpm/g
Ra-226 pCi/g
Error +/- (dpm/
g dry wt.) GVRD-1 14-46 0.74 0.33 0.012 GVRD-1 25-30 0.66 0.30 0.011 GVRD-1 40-45 0.63 0.29 0.011 GVRD-2 14-16 0.76 0.35 0.012 GVRD-2 25-30 0.92 0.42 0.014 GVRD-2 40-45 0.94 0.42 0.014 GVRD-3 14-16 0.63 0.28 0.011 GVRD-3 25-30 0.46 0.21 0.010 GVRD-3 40-45 0.55 0.25 0.011 GVRD-4 14-16 2.18 0.99 0.022 GVRD-4 20-25 0.86 0.39 0.014 GVRD-4 30-35 2.25 1.02 0.023 GVRD-5 147-16 0.99 0.45 0.015 GVRD-5 25-30 0.41 0.18 0.009 GVRD-5 45-50 1.17 0.53 0.016 GVRD-6 14-16 0.50 0.23 0.009 GVRD-6 25-30 0.62 0.28 0.011 GVRD-6 40-45 0.61 0.27 0.013 GVRD-7 14-16 0.50 0.010 0.010 GVRD-7 20-25 0.48 0.010 0.010 GVRD-7 40-44 1.06 0.017 0.017 GVRD-8 8-9 0.61 0.27 0.010 GVRD-8 14-16 0.66 0.30 0.010 GVRD-8 25-30 0.70 0.32 0.010 GVRD-9 8-9 1.26 0.57 0.010 GVRD-9 14-16 1.22 0.55 0.010 GVRD-9 25-30 1.19 0.54 0.010 GVRD-10 8-9 0.70 0.32 0.010 GVRD-10 14-16 0.65 0.29 0.010 GVRD-10 25-30 0.69 0.31 0.010 GVRD-11 8-9 0.86 0.39 0.010 GVRD-11 14-16 0.88 0.40 0.010 GVRD-11 25-30 0.77 0.35 0.010 GVRD-12 8-9 1.35 0.61 0.010 GVRD-12 14-16 1.38 0.62 0.010 GVRD-12 25-30 1.29 0.59 0.010 GVRD-13 8-9 1.34 0.61 0.010 GVRD-13 14-16 1.28 0.58 0.010 GVRD-13 25-30 1.69 0.76 0.010 GVRD-14 8-9 0.57 0.26 0.010 GVRD-14 14-16 0.60 0.27 0.010 GVRD-14 25-30 0.69 0.31 0.010 GVRD-15 8-9 0.49 0.22 0.010 GVRD-15 14-16 0.52 0.24 0.010 GVRD-15 25-30 0.48 0.22 0.010
34
Table 3. Continued .
Core Identification
Sample Interval (cm)
Ra-226 dpm/g
Ra-226 pCi/g
Error +/- (dpm/g)
GVRD-16 5-6 0.45 0.20 0.01 GVRD-16 10-12 0.47 0.21 0.01 GVRD-16 18-20 0.47 0.21 0.01 GVRD-17 9-10 2.30 1.04 0.02 GVRD-17 20-25 2.10 0.95 0.02 GVRD-17 40-45 2.09 0.95 0.02 GVRD-18 6-7 0.30 0.14 0.01 GVRD-18 12-13 0.44 0.20 0.01 GVRD-18 17-18 0.36 0.16 0.01 GVRD-19 4-5 0.58 0.26 0.01 GVRD-19 9-10 0.53 0.24 0.01 GVRD-19 16-18 0.57 0.26 0.01 GVRD-20 8-9 0.81 0.37 0.01 GVRD-20 14-16 0.89 0.40 0.01 GVRD-20 25-30 0.92 0.42 0.01 GVRD-21 9-10 0.48 0.22 0.01 GVRD-21 18-20 0.47 0.21 0.01 GVRD-21 30-35 0.48 0.22 0.01 GVRD-22 10-12 1.39 0.63 0.01 GVRD-22 25-30 1.35 0.61 0.01 GVRD-22 45-50 1.41 0.94 0.01
Tab
le 4
: Res
ults
of t
he A
VS
, met
als
and
lead
isot
ope
anal
ysis
. NM
cel
ls in
dica
te th
at th
is v
aria
ble
was
not
mea
sure
d in
that
inte
rval
.Sa
mpl
e D
epth
(c
m)
AVS
(µm
ol/g
p.
s.)
Al (
%)
Fe (%
)M
g (%
)C
a (%
)B
a (µ
g/g)
Mn
(µg/
g)C
d (µ
g/g)
Mo
(µg/
g)U
(µ
g/g)
Re
(ng/
g)A
s (µ
g/g)
Ag
(µg/
g)C
o (µ
g/g)
Cr
(µg/
g)N
i (µ
g/g)
Cu
(µg/
g)Zn
(µ
g/g)
Pb
(µg/
g)Pb
20
6/20
7Pb
20
6/20
8Pb
20
6/20
4H
g (n
g/g)
K (%
)N
a (%
)Ti
(µg/
g)S
(µg/
g)P
(µg/
g)Po
rosi
ty
Cor
e 1
0-1
0.16
4.56
3.40
1.70
1.61
281.
1178
7.21
0.30
1.42
2.26
10.3
08.
140.
3217
.22
56.3
837
.98
51.7
511
5.54
18.6
81.
180.
4818
.35
149.
501.
025.
4226
47.8
358
64.7
095
5.00
0.95
1-2
0.83
4.77
3.50
1.70
1.66
291.
6760
4.18
0.33
1.33
2.52
11.5
28.
290.
3217
.74
41.0
338
.41
55.1
812
0.24
19.2
31.
170.
4818
.31
134.
161.
045.
0827
77.7
259
50.6
385
2.99
0.94
2-3
1.35
4.88
3.57
1.68
1.68
297.
5756
9.29
0.33
1.44
2.63
11.9
28.
510.
3418
.15
50.2
938
.78
54.9
612
3.13
19.6
61.
170.
4818
.32
140.
601.
054.
7328
57.6
858
39.3
279
0.44
0.93
3-4
0.40
4.86
3.55
1.66
1.68
294.
9654
0.15
0.35
1.47
2.72
12.6
48.
710.
3418
.23
58.0
339
.23
55.5
112
2.49
19.8
91.
180.
4818
.36
142.
301.
044.
7328
31.2
559
94.1
880
0.00
0.93
4-5
1.13
4.95
3.60
1.65
1.79
302.
0054
3.88
0.34
1.55
2.66
12.1
48.
930.
4818
.16
58.5
938
.80
57.8
012
3.77
19.7
91.
170.
4818
.30
149.
451.
054.
5428
43.0
960
24.0
483
7.99
0.93
5-6
1.19
4.98
3.68
1.70
1.75
302.
3555
2.60
0.32
1.58
2.65
12.2
78.
800.
3317
.98
57.7
638
.65
57.4
012
5.85
19.6
31.
170.
4818
.36
148.
261.
074.
6329
17.6
763
04.0
982
8.15
0.92
6-7
0.62
5.12
3.74
1.71
1.74
312.
6156
6.65
0.34
1.79
2.83
13.3
69.
580.
3718
.91
63.3
440
.16
56.1
812
9.06
20.5
31.
180.
4818
.32
163.
471.
084.
5229
65.3
065
55.4
177
6.63
0.92
7-8
1.88
5.07
3.71
1.65
1.71
307.
7455
5.32
0.33
2.17
2.82
14.0
79.
910.
3419
.00
63.6
742
.04
59.2
112
9.01
20.7
91.
180.
4818
.45
161.
401.
064.
3929
04.7
870
22.5
777
6.31
0.92
8-9
0.18
5.10
3.77
1.66
1.72
310.
8556
3.50
0.35
1.91
2.65
14.1
810
.16
0.35
18.9
259
.61
39.9
660
.63
131.
4121
.05
1.18
0.48
18.3
915
0.24
1.06
4.34
2944
.61
7388
.53
796.
620.
929-
101.
005.
173.
871.
691.
7831
3.64
572.
300.
362.
242.
7914
.87
10.2
90.
3519
.28
53.1
940
.52
63.5
613
3.54
21.4
21.
170.
4818
.26
154.
791.
084.
3130
23.1
079
12.3
078
1.50
0.92
10-1
20.
425.
133.
831.
661.
7331
2.52
559.
670.
333.
142.
8715
.42
10.7
00.
3419
.42
51.2
640
.90
64.9
013
6.75
21.8
71.
180.
4818
.24
152.
661.
064.
1030
17.3
283
31.6
473
2.69
0.91
12-1
40.
785.
183.
861.
681.
7331
9.52
566.
630.
293.
983.
0015
.20
11.3
80.
3119
.15
59.2
041
.24
62.2
713
9.31
20.1
61.
170.
4818
.31
161.
081.
094.
0630
14.4
390
07.9
168
2.97
0.90
14-1
60.
295.
163.
831.
661.
7231
9.36
549.
830.
323.
973.
1316
.88
11.3
30.
2919
.18
50.7
640
.52
55.7
513
4.93
19.0
41.
170.
4818
.26
146.
071.
083.
9130
25.8
290
48.5
466
2.94
0.90
16-1
80.
365.
303.
901.
671.
7132
8.24
549.
910.
334.
393.
4418
.52
11.1
40.
2619
.08
54.2
441
.15
52.9
913
0.72
17.6
21.
180.
4818
.44
143.
951.
104.
0230
82.1
195
84.7
066
7.24
0.90
18-2
00.
205.
213.
831.
631.
6832
5.27
536.
740.
335.
323.
6218
.95
11.1
50.
2319
.00
56.7
342
.27
43.3
411
7.99
15.2
91.
180.
4818
.48
132.
511.
083.
8630
04.3
695
20.3
662
8.99
0.90
20-2
50.
415.
393.
951.
661.
6833
7.37
550.
930.
356.
383.
8919
.46
11.0
20.
2019
.21
65.1
844
.01
39.4
610
9.08
12.3
81.
190.
4818
.43
104.
951.
113.
8830
80.7
099
91.9
363
8.08
0.89
25-3
01.
305.
213.
851.
641.
6432
9.86
574.
280.
397.
493.
9420
.24
10.0
60.
2018
.74
61.8
942
.69
35.0
110
0.06
9.07
1.20
0.48
18.7
790
.20
1.11
3.72
3059
.82
9858
.65
616.
210.
8930
-35
0.70
5.39
3.87
1.67
1.68
335.
3057
2.40
0.42
7.01
3.65
19.0
99.
940.
1818
.42
55.3
542
.54
34.8
299
.47
7.80
1.22
0.49
19.0
568
.74
1.12
3.83
3083
.06
9637
.17
606.
760.
8935
-40
0.29
5.06
3.67
1.57
1.59
321.
8155
0.07
0.43
7.21
3.65
20.0
99.
640.
1718
.20
50.8
741
.88
34.7
796
.41
7.61
1.22
0.49
19.0
077
.09
1.06
3.65
2948
.55
9388
.29
601.
840.
8940
-45
0.29
5.06
3.71
1.59
1.61
321.
9255
5.63
0.49
5.85
3.57
20.1
910
.81
0.18
18.3
453
.50
42.6
832
.94
96.5
57.
801.
220.
4919
.04
73.6
51.
073.
7129
62.5
596
28.4
156
9.64
0.89
50-5
51.
555.
013.
641.
531.
5931
6.97
582.
790.
528.
153.
8819
.49
10.3
40.
1818
.45
57.7
641
.86
34.8
797
.14
8.23
1.21
0.49
18.9
772
.20
1.02
3.53
2853
.71
9899
.69
598.
740.
88
Cor
e 2
0-1
0.1
7.38
4.82
1.83
1.72
571.
9855
5.34
0.19
1.65
1.74
4.69
10.7
70.
4216
.35
88.7
152
.31
78.0
513
8.84
31.5
81.
180.
4818
.41
161.
991.
683.
1035
22.4
622
55.5
897
3.11
0.83
1-2
0.0
7.51
4.86
1.84
1.75
585.
1455
5.71
0.19
2.37
1.96
4.50
9.89
0.57
16.8
991
.71
53.8
180
.27
140.
5433
.47
1.18
0.48
18.3
917
6.00
1.73
2.85
3613
.31
2087
.69
914.
130.
812-
30.
97.
584.
801.
821.
7458
3.33
545.
500.
202.
282.
134.
608.
950.
4917
.05
66.2
654
.11
79.5
614
0.85
35.4
61.
180.
4818
.33
193.
581.
732.
7736
34.9
520
64.4
981
9.58
0.79
3-4
1.1
7.55
4.81
1.81
1.71
587.
1054
4.65
0.21
2.10
2.17
4.47
9.07
0.52
17.2
488
.48
55.1
186
.96
140.
6536
.12
1.17
0.48
18.2
418
5.72
1.70
2.66
3617
.58
2022
.41
855.
660.
784-
50.
17.
364.
621.
731.
7157
4.14
531.
290.
221.
942.
184.
878.
610.
4917
.01
88.6
153
.48
85.7
013
7.74
36.3
71.
180.
4818
.39
192.
591.
662.
5334
60.0
319
73.3
581
7.20
0.78
5-6
0.4
7.55
4.77
1.77
1.71
587.
5153
6.75
0.21
2.23
2.18
4.87
9.29
0.49
17.0
075
.60
53.4
687
.79
139.
7436
.41
1.17
0.48
18.3
523
5.09
1.69
2.62
3592
.23
2064
.22
799.
170.
786-
70.
57.
524.
691.
741.
6758
1.18
535.
210.
212.
112.
184.
689.
230.
4917
.25
86.5
154
.18
85.1
414
0.03
37.2
91.
180.
4818
.29
198.
301.
652.
5234
98.6
220
51.6
982
1.97
0.77
7-8
0.5
7.64
4.76
1.75
1.79
591.
1954
2.96
0.20
2.57
2.17
4.60
9.52
0.54
17.7
593
.44
56.4
786
.53
141.
6238
.05
1.18
0.48
18.3
819
7.81
1.67
2.37
3548
.89
1954
.22
821.
180.
778-
91.
07.
664.
751.
831.
6959
2.19
525.
430.
212.
012.
084.
319.
830.
5117
.40
86.8
955
.62
81.1
513
3.88
37.2
81.
170.
4818
.33
204.
121.
782.
6936
34.9
020
63.9
383
6.18
0.77
9-10
0.0
7.72
4.80
1.86
1.72
597.
3553
0.26
0.21
2.28
2.05
4.62
9.90
0.52
17.2
589
.02
55.5
084
.15
136.
7237
.03
1.18
0.48
18.3
518
7.91
1.80
2.71
3597
.43
2141
.50
847.
620.
7610
-12
0.5
7.65
4.73
1.79
1.67
592.
8052
1.28
0.20
2.31
2.02
5.11
9.72
0.51
17.1
379
.72
55.1
585
.43
133.
3237
.33
1.18
0.48
18.4
418
7.81
1.78
2.57
3584
.26
2100
.00
845.
440.
7512
-14
0.8
7.68
4.65
1.76
1.67
602.
2551
0.96
0.20
2.53
2.22
4.11
9.77
0.58
17.1
269
.97
54.8
786
.77
134.
8540
.07
1.17
0.48
18.3
621
9.98
1.76
2.57
3522
.25
2257
.57
783.
820.
7414
-16
2.1
7.85
4.81
1.82
1.80
605.
6253
5.12
0.23
2.72
2.32
4.42
11.4
80.
5118
.14
79.0
458
.27
80.8
814
3.23
44.5
11.
170.
4818
.26
237.
371.
792.
5636
62.2
427
21.0
173
6.06
0.73
16-1
82.
27.
644.
701.
801.
7059
6.55
522.
740.
282.
742.
334.
0811
.50
0.51
18.0
773
.96
57.9
471
.11
144.
3642
.40
1.17
0.48
18.2
830
6.12
1.77
2.46
3517
.80
2849
.20
740.
000.
7318
-20
4.2
7.70
4.77
1.81
1.68
600.
5452
5.27
0.27
2.68
2.41
3.97
11.2
30.
7418
.53
80.9
758
.54
58.4
614
0.82
40.8
11.
180.
4818
.34
251.
001.
782.
4835
79.4
630
45.9
571
8.74
0.73
20-2
53.
97.
894.
891.
891.
7061
7.45
547.
100.
232.
682.
534.
2411
.70
0.37
18.6
688
.45
58.0
153
.42
138.
4133
.99
1.18
0.48
18.3
721
5.49
1.88
2.52
3617
.59
3038
.45
729.
730.
7425
-30
5.9
7.83
4.74
1.82
1.61
603.
2052
8.45
0.21
2.40
2.51
3.92
12.0
70.
2018
.74
85.5
455
.61
44.9
312
5.30
25.5
11.
180.
4818
.51
195.
201.
862.
4535
07.7
827
51.8
671
6.20
0.75
30-3
50.
88.
065.
011.
931.
7362
9.86
560.
540.
202.
232.
483.
8810
.97
0.16
19.4
887
.32
57.3
941
.08
117.
9722
.25
1.19
0.49
18.6
516
7.60
1.92
2.66
3723
.64
2827
.45
753.
150.
7540
-45
0.3
7.76
4.93
1.91
1.58
617.
5254
9.26
0.23
1.89
2.19
3.22
9.17
0.12
19.8
182
.52
60.9
837
.31
111.
5916
.57
1.21
0.49
18.9
012
5.12
1.87
2.52
3640
.49
2436
.43
776.
770.
74
Cor
e 3
0-1
1.5
6.82
4.05
1.67
1.96
582.
6948
5.45
0.36
3.45
1.41
2.69
6.18
0.44
20.9
795
.08
47.9
740
.65
99.3
99.
051.
210.
4819
.17
71.6
9N
MN
MN
M27
80.7
3N
M0.
721-
20.
547.
354.
301.
762.
0161
0.98
513.
890.
363.
021.
432.
766.
030.
4621
.11
103.
1250
.27
45.1
010
5.56
13.6
41.
210.
4818
.99
58.2
3N
MN
MN
M27
82.4
0N
M0.
702-
39.
27.
494.
411.
782.
0662
3.21
522.
440.
344.
681.
452.
685.
680.
4821
.15
91.4
053
.08
46.1
310
7.16
11.9
21.
220.
4919
.07
68.2
0N
MN
MN
M27
67.6
2N
M0.
683-
426
7.13
4.19
1.67
2.00
591.
9449
0.86
0.35
4.76
1.47
2.90
8.08
0.45
21.0
598
.06
49.6
043
.69
101.
379.
951.
210.
4919
.00
64.1
0N
MN
MN
M32
51.0
9N
M0.
664-
525
7.04
4.11
1.65
2.27
579.
5548
8.20
0.38
3.62
1.67
2.95
4.92
0.56
20.1
285
.85
47.9
242
.13
99.7
511
.73
1.21
0.48
19.0
979
.97
NM
NM
NM
3090
.69
NM
0.64
5-6
327.
164.
201.
692.
0358
9.58
494.
500.
333.
591.
562.
894.
600.
4722
.41
99.3
949
.41
42.5
110
3.27
10.0
51.
210.
4819
.12
98.5
1N
MN
MN
M35
83.7
8N
M0.
646-
723
7.07
4.19
1.68
1.99
596.
6849
0.11
0.33
3.58
1.71
3.17
5.29
0.49
21.6
079
.25
50.5
042
.77
98.7
110
.44
1.21
0.48
18.8
976
.77
NM
NM
NM
3634
.16
NM
0.63
7-8
266.
773.
981.
592.
0457
5.21
481.
920.
343.
891.
953.
475.
770.
4920
.33
78.3
047
.15
37.4
994
.88
11.3
91.
210.
4819
.05
88.9
8N
MN
MN
M36
71.1
9N
M0.
608-
933
6.94
3.96
1.58
1.99
584.
8048
2.40
0.34
3.93
1.91
3.43
6.73
0.48
20.4
895
.39
47.5
535
.91
93.7
011
.22
1.22
0.49
19.0
674
.83
NM
NM
NM
3530
.83
NM
0.57
9-10
276.
993.
981.
561.
9259
3.97
487.
950.
306.
811.
662.
894.
970.
5121
.15
96.6
550
.53
36.4
890
.00
11.9
21.
200.
4819
.18
110.
87N
MN
MN
M32
53.0
3N
M0.
5410
-12
256.
533.
731.
481.
9155
1.27
458.
270.
235.
051.
542.
685.
610.
3919
.78
93.7
044
.05
33.2
486
.55
9.26
1.21
0.48
18.8
719
6.28
NM
NM
NM
3056
.73
NM
0.56
12-1
421
7.26
4.26
1.69
1.90
603.
6250
2.83
0.22
4.18
1.96
3.28
7.64
0.38
21.7
776
.28
51.3
437
.92
98.3
411
.39
1.21
0.49
18.7
484
.04
NM
NM
NM
2938
.32
NM
0.58
14-1
617
8.02
4.84
1.89
1.99
660.
2956
0.22
0.14
4.47
1.63
2.53
7.64
0.31
23.5
099
.35
57.3
942
.11
114.
9313
.84
1.20
0.48
18.9
785
.39
NM
NM
NM
2762
.84
NM
0.60
16-1
825
7.71
4.66
1.80
1.84
628.
9852
8.97
0.18
3.65
2.07
3.32
6.87
0.37
22.5
811
0.53
53.7
239
.56
108.
4315
.71
1.20
0.48
19.0
078
.26
NM
NM
NM
2810
.84
NM
0.62
18-2
023
7.56
4.72
1.81
1.85
635.
1553
8.51
0.17
4.91
1.94
3.04
2.95
0.32
22.4
481
.64
55.2
740
.12
109.
9716
.69
1.20
0.48
19.0
089
.12
NM
NM
NM
2853
.63
NM
0.63
20-2
525
7.72
4.72
1.81
1.86
640.
2154
2.78
0.18
4.92
2.13
3.25
7.53
0.32
23.0
210
8.58
56.1
741
.12
116.
2616
.07
1.20
0.48
18.9
081
.74
NM
NM
NM
2645
.49
NM
0.63
25-3
022
7.86
4.84
1.85
1.90
658.
3855
7.70
0.16
4.02
1.84
2.52
8.76
0.29
23.5
593
.07
56.3
041
.51
114.
6115
.94
1.20
0.48
19.0
183
.42
NM
NM
NM
2659
.41
NM
0.62
30-3
526
7.59
4.68
1.77
1.86
636.
8854
5.09
0.17
3.33
1.82
2.59
9.56
0.33
22.8
895
.70
54.5
840
.39
109.
4515
.20
1.20
0.48
18.8
680
.84
NM
NM
NM
2469
.30
NM
0.60
Tab
le 4
: Con
tinue
d.Sa
mpl
e D
epth
(c
m)
AVS
(µm
ol/g
p.
s.)
Al (
%)
Fe (%
)M
g (%
)C
a (%
)B
a (µ
g/g)
Mn
(µg/
g)C
d (µ
g/g)
Mo
(µg/
g)U
(µ
g/g)
Re
(ng/
g)A
s (µ
g/g)
Ag
(µg/
g)C
o (µ
g/g)
Cr
(µg/
g)N
i (µ
g/g)
Cu
(µg/
g)Zn
(µ
g/g)
Pb
(µg/
g)Pb
20
6/20
7Pb
20
6/20
8Pb
20
6/20
4H
g (n
g/g)
K (%
)N
a (%
)Ti
(µg/
g)S
(µg/
g)P
(µg/
g)Po
rosi
ty
35-4
020
7.51
4.63
1.76
1.88
617.
3653
5.40
0.19
3.24
1.95
2.91
10.2
80.
2823
.66
104.
4955
.34
39.1
510
9.42
14.3
61.
190.
4818
.96
97.9
4N
MN
MN
M27
85.2
7N
M0.
6040
-45
197.
694.
721.
791.
9264
4.36
551.
250.
033.
692.
083.
005.
680.
1123
.56
99.0
756
.91
39.1
710
9.14
15.4
71.
200.
4818
.88
97.1
5N
MN
MN
M25
19.5
2N
M0.
60
Cor
e 4
0-1
0.05
7.18
4.36
1.73
2.27
612.
1158
9.01
0.10
3.68
1.21
1.76
10.1
50.
1821
.04
71.9
549
.29
31.3
410
3.44
10.3
01.
230.
4919
.27
49.1
0N
MN
MN
M13
31.8
40.
651-
20.
126.
814.
081.
621.
9857
8.57
517.
260.
376.
651.
222.
1710
.05
1.00
20.0
974
.91
52.1
533
.24
334.
5010
.79
1.21
0.48
19.1
953
.43
NM
NM
NM
1595
.51
0.65
2-3
0.66
9.04
4.65
1.83
1.58
1035
.51
322.
220.
306.
682.
744.
0218
.69
0.36
19.5
811
9.72
50.7
431
.75
347.
4417
.80
1.23
0.48
19.5
257
.07
NM
NM
NM
1518
.27
0.64
3-4
1.5
7.23
4.37
1.73
1.99
611.
9954
0.32
0.13
5.29
1.24
1.90
6.72
0.16
21.7
467
.81
51.0
733
.05
93.2
79.
581.
220.
4819
.30
61.8
3N
MN
MN
M14
56.6
90.
634-
53.
37.
434.
521.
762.
0562
8.57
558.
050.
144.
331.
382.
415.
910.
1623
.36
96.6
151
.77
33.7
410
5.84
11.1
01.
220.
4819
.35
60.0
5N
MN
MN
M15
00.6
00.
635-
64.
26.
043.
721.
461.
6954
3.85
460.
340.
142.
821.
362.
2810
.14
0.16
19.4
362
.52
44.3
628
.16
80.1
37.
461.
230.
4919
.20
61.0
0N
MN
MN
M17
39.6
90.
626-
74.
37.
474.
551.
782.
0563
4.22
551.
800.
154.
801.
512.
390.
870.
1721
.37
106.
4152
.19
34.3
194
.63
8.14
1.22
0.48
19.3
375
.32
NM
NM
NM
1705
.79
0.61
7-8
4.3
7.39
4.49
1.76
2.09
617.
4355
2.05
0.13
3.86
1.32
2.20
6.87
0.16
21.8
911
3.30
52.5
034
.33
96.1
312
.45
1.22
0.49
19.2
062
.46
NM
NM
NM
1758
.78
0.60
8-9
6.2
7.08
4.30
1.69
2.02
595.
4753
2.63
0.16
4.56
1.44
2.48
4.56
0.16
21.3
710
6.44
49.4
432
.20
90.7
79.
691.
220.
4919
.20
62.5
2N
MN
MN
M17
43.4
50.
599-
104.
37.
454.
491.
762.
1062
1.72
554.
970.
124.
791.
352.
361.
550.
1522
.67
106.
1852
.39
32.3
911
0.68
10.5
61.
220.
4919
.29
69.0
5N
MN
MN
M17
77.5
30.
5410
-12
6.5
7.09
4.29
1.69
2.02
589.
9553
6.51
0.16
5.09
1.55
2.61
7.92
0.18
20.5
010
5.18
50.3
331
.53
89.6
38.
771.
220.
4919
.16
62.5
1N
MN
MN
M17
89.1
00.
5812
-14
7.2
7.26
4.42
1.74
2.11
603.
1955
4.30
0.13
3.32
1.41
2.38
3.17
0.17
21.0
510
4.40
51.4
832
.88
102.
0910
.82
1.22
0.49
19.1
468
.64
NM
NM
NM
1846
.86
0.58
14-1
68.
67.
534.
581.
812.
2662
8.24
569.
530.
133.
851.
402.
114.
990.
1622
.94
100.
8853
.86
34.6
397
.89
10.2
61.
220.
4919
.00
69.4
1N
MN
MN
M19
59.7
80.
5816
-18
7.8
7.29
4.49
1.76
2.09
609.
7255
0.87
0.17
4.56
1.62
2.80
6.13
0.19
22.3
711
1.28
52.4
434
.91
93.7
68.
411.
220.
4819
.26
65.9
2N
MN
MN
M18
77.5
50.
5718
-20
107.
184.
451.
722.
0760
0.36
543.
020.
154.
831.
522.
325.
250.
1822
.14
106.
3052
.09
33.6
492
.11
9.37
1.22
0.48
19.3
667
.66
NM
NM
NM
1959
.82
0.57
20-2
57.
07.
554.
611.
782.
1462
2.19
565.
740.
154.
451.
532.
412.
870.
1823
.27
90.0
553
.14
35.7
697
.67
10.3
41.
220.
4919
.17
78.3
2N
MN
MN
M20
22.5
80.
5525
-30
117.
364.
441.
762.
0961
4.41
545.
430.
164.
401.
522.
508.
230.
1823
.28
103.
4753
.93
36.0
594
.24
10.3
61.
220.
4919
.12
70.4
8N
MN
MN
M20
86.9
20.
5730
-35
167.
284.
401.
752.
1059
5.46
546.
780.
153.
931.
472.
386.
030.
1921
.04
93.0
051
.90
33.8
192
.44
9.96
1.21
0.48
19.2
864
.14
NM
NM
NM
▬0.
57
Cor
e 5
0-1
0.0
7.36
4.73
1.84
1.61
518.
9215
58.2
90.
105.
421.
243.
8512
.89
0.15
21.2
489
.24
45.7
331
.79
116.
078.
621.
210.
4818
.99
28.9
2N
MN
MN
M32
33.3
40.
861-
20.
07.
975.
091.
951.
7356
3.48
784.
100.
125.
031.
273.
1611
.17
0.15
24.2
393
.68
48.4
936
.48
122.
8814
.44
1.20
0.48
18.9
832
.42
NM
NM
NM
2986
.98
0.84
2-3
0.4
7.34
4.68
1.77
1.60
517.
4667
1.20
0.11
3.93
1.19
2.82
11.0
80.
1121
.04
87.6
745
.87
32.9
611
3.48
12.2
01.
200.
4818
.93
38.6
1N
MN
MN
M28
10.5
40.
833-
40.
47.
805.
071.
891.
6954
5.15
707.
090.
134.
681.
303.
0910
.22
0.12
22.8
596
.51
48.1
136
.62
121.
2113
.48
1.21
0.48
19.0
339
.26
NM
NM
NM
2836
.00
0.82
4-5
1.4
7.37
4.70
1.75
1.60
521.
1166
3.56
0.10
5.11
1.08
2.61
8.74
0.11
21.9
393
.35
45.7
433
.90
113.
8013
.59
1.21
0.48
18.9
436
.53
NM
NM
NM
2705
.31
0.81
5-6
2.8
7.14
4.54
1.70
1.57
515.
0065
5.68
0.10
3.25
1.08
2.51
8.13
0.11
20.7
481
.32
44.3
233
.34
112.
0811
.52
1.20
0.48
18.9
141
.69
NM
NM
NM
2600
.31
0.81
6-7
5.6
7.66
4.92
1.81
1.68
550.
5771
2.41
0.11
3.84
1.22
2.56
8.59
0.12
23.4
777
.78
47.2
536
.05
119.
6612
.27
1.20
0.48
18.9
541
.91
NM
NM
NM
2479
.30
0.80
7-8
12.8
8.09
5.15
1.90
1.77
575.
0376
5.00
0.12
4.41
1.20
2.56
6.62
0.12
23.2
596
.38
50.3
237
.23
124.
4813
.39
1.20
0.48
19.0
245
.08
NM
NM
NM
2623
.88
0.79
8-9
15.7
7.79
4.97
1.83
1.72
560.
6671
9.98
0.11
4.65
1.22
2.61
8.72
0.13
22.2
499
.14
47.6
836
.34
119.
4916
.28
1.21
0.49
18.7
143
.39
NM
NM
NM
2583
.07
0.79
9-10
11.0
7.80
4.92
1.81
1.74
543.
9371
4.09
0.12
4.56
1.24
2.52
9.12
0.12
21.9
679
.01
48.2
037
.02
119.
4813
.26
1.20
0.48
18.9
946
.32
NM
NM
NM
2613
.03
0.78
10-1
229
.19.
544.
301.
504.
2710
21.4
686
2.08
58.6
25.
962.
824.
8313
2.28
4.97
18.7
375
.51
28.5
315
8.11
498.
1716
09.0
51.
120.
4416
.54
49.0
6N
MN
MN
M56
9.81
0.77
12-1
421
.37.
594.
841.
731.
6154
1.03
667.
280.
1924
.51
1.56
2.93
37.7
60.
1525
.36
97.3
249
.16
37.4
712
2.97
17.9
51.
200.
4818
.70
48.3
2N
MN
MN
M29
94.6
80.
7814
-16
27.6
7.59
4.88
1.77
1.61
539.
0364
5.75
0.14
8.01
1.43
2.65
12.7
30.
1423
.18
78.6
847
.21
36.0
511
9.59
16.0
21.
200.
4818
.87
49.5
6N
MN
MN
M31
88.6
80.
7816
-18
39.8
7.67
4.87
1.77
1.61
542.
2163
5.03
0.13
6.71
1.40
2.62
12.4
10.
1421
.60
65.2
448
.16
36.7
812
1.72
14.4
51.
200.
4818
.91
52.4
2N
MN
MN
M32
84.9
80.
7818
-20
32.7
7.65
4.86
1.77
1.58
546.
1263
5.55
0.14
5.06
1.47
2.82
5.83
0.15
21.6
367
.04
48.1
736
.82
126.
5615
.19
1.21
0.48
18.6
752
.39
NM
NM
NM
3016
.62
0.78
20-2
537
.77.
594.
791.
761.
6154
7.45
595.
890.
175.
131.
682.
809.
260.
2322
.23
93.6
247
.16
36.7
612
3.54
14.8
21.
200.
4818
.71
52.0
1N
MN
MN
M35
37.6
60.
7725
-30
31.8
7.56
4.71
1.73
1.60
544.
8258
4.94
0.13
4.65
1.32
2.02
7.70
0.16
22.5
359
.02
46.3
736
.78
135.
9117
.59
1.20
0.48
18.8
654
.70
NM
NM
NM
3633
.50
0.77
30-3
533
.37.
494.
871.
811.
6655
7.43
620.
150.
146.
551.
632.
887.
900.
1322
.05
80.4
449
.75
38.2
813
2.13
18.7
71.
190.
4718
.99
56.0
4N
MN
MN
M33
44.2
90.
7835
-40
21.0
7.28
4.78
1.78
1.57
552.
2959
1.08
0.17
5.34
1.68
2.96
4.04
0.13
23.3
680
.03
48.4
537
.64
170.
0117
.45
1.20
0.48
18.7
563
.61
NM
NM
NM
3636
.05
0.78
40-4
539
.67.
785.
031.
851.
6857
0.31
607.
080.
165.
191.
632.
847.
070.
1724
.80
63.4
551
.48
40.5
215
1.99
18.3
11.
190.
4818
.73
69.1
2N
MN
MN
M36
96.5
90.
7745
-50
28.8
7.74
4.94
1.83
1.69
568.
1259
0.63
0.14
5.15
1.62
2.89
10.1
50.
1622
.07
55.3
351
.21
39.4
313
4.49
16.0
41.
190.
4818
.83
81.8
2N
MN
MN
M34
02.8
80.
76
Cor
e 6
0-1
0.08
6.84
3.86
1.46
1.88
425.
5948
3.80
0.22
0.75
1.56
2.20
7.46
0.11
11.5
157
.70
31.1
912
.63
85.6
512
.15
1.20
0.48
18.6
855
.33
1.36
3.91
3950
.57
2802
.66
794.
220.
841-
20.
237.
064.
001.
441.
8743
9.81
468.
920.
220.
761.
462.
477.
300.
1011
.62
49.8
831
.90
13.0
888
.35
12.4
31.
190.
4818
.68
75.2
81.
413.
4339
59.9
224
73.0
679
4.55
0.80
2-3
0.11
7.17
4.05
1.43
1.85
444.
5344
3.56
0.23
0.72
1.48
2.80
7.55
0.10
11.5
040
.24
31.5
612
.53
88.5
212
.31
1.20
0.48
18.6
456
.23
1.41
3.33
4123
.23
2334
.25
781.
330.
783-
40.
107.
404.
141.
441.
9046
3.88
439.
600.
240.
921.
532.
577.
390.
1011
.92
54.5
932
.74
13.2
090
.70
12.7
41.
190.
4818
.73
65.8
61.
443.
2242
51.9
122
61.9
480
4.53
0.77
4-5
0.59
7.36
4.11
1.42
1.90
460.
0043
0.82
0.24
0.75
1.50
2.81
6.72
0.10
11.8
555
.62
32.4
513
.27
91.4
712
.75
1.20
0.48
18.7
266
.34
1.45
3.02
4189
.89
2178
.38
764.
310.
745-
60.
547.
394.
131.
401.
8946
5.29
425.
300.
240.
741.
692.
716.
780.
1111
.84
57.4
532
.36
13.7
991
.56
12.7
51.
190.
4818
.67
67.1
81.
442.
9842
75.8
921
87.8
472
7.85
0.71
6-7
2.72
7.23
4.06
1.37
1.85
452.
7641
6.09
0.23
0.73
1.51
2.84
6.42
0.13
11.5
155
.87
31.6
713
.72
88.9
412
.73
1.19
0.48
18.6
468
.10
1.41
2.91
4153
.35
2114
.00
706.
170.
727-
81.
707.
384.
141.
411.
9046
0.44
432.
280.
240.
781.
482.
607.
060.
1111
.91
58.4
432
.45
13.7
291
.89
12.9
01.
200.
4818
.78
83.9
91.
452.
9641
61.0
021
64.9
673
5.94
0.70
8-9
2.71
7.38
4.21
1.42
1.85
459.
1843
0.40
0.25
0.79
1.63
2.72
7.16
0.11
12.2
561
.06
33.2
713
.76
93.6
913
.14
1.20
0.49
18.7
375
.10
1.43
2.93
4234
.48
2214
.34
705.
750.
709-
100.
567.
364.
201.
411.
8745
9.43
430.
780.
250.
781.
552.
826.
920.
1112
.08
56.5
033
.38
13.9
391
.33
13.2
21.
200.
4818
.57
91.0
81.
442.
9042
57.3
722
12.0
671
6.93
0.69
10-1
24.
427.
444.
201.
421.
9046
3.85
434.
110.
250.
841.
613.
087.
150.
1112
.01
57.8
933
.50
13.9
594
.55
12.9
81.
200.
4818
.68
80.5
71.
462.
8742
92.5
722
40.2
771
6.04
0.69
12-1
48.
607.
254.
091.
381.
8845
0.80
418.
260.
260.
851.
623.
077.
040.
1112
.23
56.3
133
.61
13.2
490
.78
13.3
51.
190.
4918
.74
69.8
11.
432.
7441
56.5
322
68.0
066
5.95
0.68
14-1
60.
177.
354.
111.
391.
9146
3.78
416.
540.
260.
881.
563.
166.
930.
1312
.07
60.6
032
.58
13.6
790
.67
12.8
31.
200.
4918
.79
84.0
31.
432.
7742
17.7
822
74.3
068
1.08
0.67
16-1
87.
267.
314.
111.
401.
8845
9.01
415.
030.
240.
861.
632.
726.
670.
1112
.05
56.2
532
.57
13.7
591
.25
12.8
11.
200.
4818
.80
64.5
41.
442.
7741
61.2
623
23.0
966
7.67
0.66
18-2
04.
327.
294.
131.
401.
8645
9.94
418.
630.
230.
981.
562.
756.
850.
1112
.17
65.9
233
.42
13.7
091
.59
13.1
01.
200.
4918
.85
70.3
71.
442.
7941
29.8
025
33.2
765
9.82
0.68
20-2
516
.72
7.25
4.10
1.40
1.87
457.
3641
9.79
0.25
0.90
1.59
2.86
6.88
0.12
12.1
861
.75
33.3
014
.11
92.2
813
.29
1.20
0.49
18.6
671
.15
1.45
2.71
4119
.39
2540
.28
671.
750.
67
Tab
le 4
: Con
tinue
d.Sa
mpl
e D
epth
(c
m)
AVS
(µm
ol/g
p.
s.)
Al (
%)
Fe (%
)M
g (%
)C
a (%
)B
a (µ
g/g)
Mn
(µg/
g)C
d (µ
g/g)
Mo
(µg/
g)U
(µ
g/g)
Re
(ng/
g)A
s (µ
g/g)
Ag
(µg/
g)C
o (µ
g/g)
Cr
(µg/
g)N
i (µ
g/g)
Cu
(µg/
g)Zn
(µ
g/g)
Pb
(µg/
g)Pb
20
6/20
7Pb
20
6/20
8Pb
20
6/20
4H
g (n
g/g)
K (%
)N
a (%
)Ti
(µg/
g)S
(µg/
g)P
(µg/
g)Po
rosi
ty
25-3
09.
727.
234.
031.
361.
9045
3.59
413.
650.
240.
961.
622.
916.
540.
1211
.93
60.3
232
.45
13.3
090
.44
13.2
71.
200.
4918
.66
72.2
71.
412.
7141
74.1
426
10.2
467
0.44
0.65
30-3
529
.40
7.50
4.21
1.44
1.93
467.
4342
8.12
0.23
0.85
1.44
2.58
6.84
0.12
11.8
461
.34
32.8
814
.58
94.8
513
.40
1.19
0.48
18.6
674
.70
1.48
2.87
4155
.78
2914
.86
671.
300.
6840
-45
20.2
07.
334.
041.
371.
9545
7.61
412.
400.
250.
771.
552.
746.
500.
1111
.57
57.3
930
.71
11.9
089
.63
13.5
11.
200.
4818
.67
61.5
31.
442.
8341
63.2
827
49.2
263
3.51
0.65
Cor
e 7
0-1
4.68
2.83
1.06
1.27
369.
8343
8.89
0.13
0.93
0.99
2.43
5.92
0.10
10.0
968
.05
35.5
09.
5260
.52
8.12
1.20
0.48
18.8
462
.09
0.96
1.95
2743
.23
1441
.58
548.
190.
731-
25.
263.
201.
171.
4540
7.26
471.
590.
131.
731.
213.
266.
240.
0911
.05
63.6
240
.05
11.5
769
.00
8.92
1.20
0.48
18.7
895
.62
1.07
2.18
3166
.65
1637
.49
618.
430.
692-
35.
463.
251.
201.
5042
4.50
426.
350.
180.
821.
252.
635.
710.
1111
.65
57.2
338
.60
10.9
472
.35
9.13
1.20
0.49
18.8
759
.90
1.11
2.17
3187
.79
1641
.68
584.
510.
613-
45.
993.
481.
311.
5946
8.84
450.
420.
201.
221.
693.
126.
900.
1013
.05
70.5
344
.96
13.3
978
.14
10.3
21.
210.
4918
.89
42.2
11.
242.
2735
27.3
420
80.2
756
8.09
0.59
4-5
4.90
3.14
1.04
1.30
384.
0536
1.48
0.16
1.17
1.33
2.92
6.75
0.09
10.1
657
.29
34.1
012
.57
64.0
88.
441.
200.
4818
.84
63.9
61.
001.
8427
73.1
818
50.6
450
2.76
0.62
5-6
5.08
2.93
1.12
1.32
402.
1035
7.33
0.15
1.75
1.45
3.13
6.24
0.08
10.9
362
.30
41.1
811
.89
65.1
98.
631.
210.
4918
.89
66.5
11.
061.
8829
25.8
419
84.6
851
1.85
0.62
6-7
4.85
2.82
1.05
1.24
381.
9936
2.91
0.10
2.69
1.26
2.86
6.17
0.08
10.7
772
.78
44.3
211
.32
62.0
77.
891.
210.
4918
.95
70.1
21.
011.
7926
79.2
119
26.6
044
0.42
0.61
7-8
4.52
2.66
0.98
1.22
355.
4333
6.62
0.13
1.28
1.20
2.44
5.40
0.08
9.86
59.7
235
.09
10.9
557
.86
7.46
1.21
0.49
18.9
024
0.64
0.94
1.62
2556
.07
1832
.79
451.
270.
598-
93.
802.
220.
841.
0031
7.51
278.
750.
111.
141.
112.
244.
370.
067.
8450
.00
28.8
37.
7546
.48
5.74
1.22
0.49
18.9
760
.91
0.78
1.34
2200
.96
1957
.01
350.
360.
559-
104.
002.
350.
871.
0533
2.57
289.
230.
111.
761.
232.
615.
040.
078.
3949
.38
31.1
08.
4349
.24
6.02
1.21
0.49
18.8
962
.60
0.83
1.38
2342
.86
2433
.94
352.
930.
5310
-12
6.00
3.49
1.28
1.49
472.
1742
5.44
0.14
3.60
2.03
5.34
7.42
0.08
12.6
269
.76
49.2
513
.29
75.9
69.
571.
210.
4918
.89
70.6
71.
252.
0334
45.6
342
92.9
150
3.95
0.57
12-1
44.
192.
540.
921.
0433
3.13
303.
180.
132.
601.
754.
976.
190.
078.
7040
.57
30.0
711
.25
54.4
46.
861.
210.
4919
.00
67.0
50.
881.
4424
51.2
942
43.2
135
5.90
0.59
14-1
64.
802.
971.
071.
1535
5.29
337.
630.
144.
842.
047.
228.
400.
1010
.57
37.8
642
.33
11.9
966
.84
8.27
1.21
0.49
18.9
289
.45
1.00
1.67
2848
.47
5330
.99
436.
940.
6016
-18
5.43
3.28
1.14
1.31
406.
5638
9.59
0.13
5.65
2.28
6.47
8.90
0.09
11.3
159
.30
37.7
913
.11
72.5
69.
231.
210.
4918
.90
64.2
11.
131.
8931
52.1
157
89.0
547
4.79
0.61
18-2
06.
093.
681.
361.
5046
0.35
490.
270.
115.
712.
025.
608.
940.
0913
.75
71.4
349
.11
15.2
580
.53
10.3
21.
210.
4919
.00
84.1
51.
262.
1234
67.0
367
41.3
651
8.58
0.62
20-2
55.
023.
141.
241.
3636
3.41
394.
700.
143.
321.
483.
346.
340.
0811
.60
64.7
347
.06
12.6
268
.35
8.06
1.22
0.49
18.9
953
.61
1.06
1.78
3009
.81
5519
.65
459.
090.
6125
-30
5.03
3.16
1.27
1.50
365.
3737
5.33
0.16
2.38
1.51
2.83
5.98
0.08
11.3
550
.42
42.0
114
.63
69.8
98.
071.
220.
4919
.05
59.4
41.
081.
7230
13.4
962
07.0
346
4.40
0.67
30-3
55.
873.
651.
421.
6141
5.18
414.
860.
182.
791.
573.
657.
210.
1112
.67
66.1
044
.93
16.1
878
.69
9.30
1.23
0.49
19.2
044
.46
1.29
2.01
3478
.12
7445
.56
517.
900.
6635
-40
3.35
2.13
0.83
1.08
239.
2123
3.81
0.12
1.39
1.00
2.08
4.45
0.21
6.98
36.3
623
.59
8.39
45.5
45.
111.
220.
4919
.17
47.7
40.
731.
1820
82.0
443
47.2
530
7.18
0.68
40-4
46.
333.
951.
592.
1645
2.81
441.
600.
242.
512.
003.
827.
950.
1214
.20
66.0
148
.89
17.5
786
.67
10.2
61.
220.
4919
.21
43.3
81.
372.
1737
61.9
385
38.3
357
8.85
0.68
*cor
e G
VR
D-7
sam
ples
wer
e pr
e-dr
ied
prio
r to
met
als
anal
ysis
, so
poro
sity
was
det
erm
ined
usi
ng 21
0 Pb
anal
ysis
.
38
Table 5: Results of the carbon, nitrogen and δ13C and δ15N analysis on the sediment core samples.
Sample Depth Total N (%)
Total C (%)
Total Carb C
(%)
Total Org C (%)
Org C/N δ15N vs air
δ13Corg vs PDB
Core 10-1 0.515 4.113 0.029 4.084 7.925 6.393 -21.0911-2 0.502 4.099 0.039 4.060 8.090 6.775 -21.3902-3 0.494 4.045 0.041 4.005 8.114 6.369 -21.3273-4 0.494 4.013 0.032 3.981 8.054 6.565 -21.2114-5 0.478 3.953 0.040 3.913 8.193 6.165 -21.4635-6 0.477 3.959 0.026 3.933 8.251 6.355 -21.2066-7 0.472 3.949 0.043 3.905 8.271 6.465 -21.5267-8 0.463 3.879 0.034 3.845 8.299 6.109 -21.3898-9 0.457 3.848 0.036 3.811 8.348 6.220 -21.3359-10 0.457 3.898 0.032 3.867 8.460 6.359 -21.42310-12 0.445 3.827 0.037 3.790 8.521 6.373 -21.33612-14 0.436 3.736 0.031 3.704 8.505 6.411 -21.16014-16 0.438 3.710 0.041 3.669 8.375 6.059 -21.14416-18 0.442 3.694 0.041 3.653 8.273 6.568 -20.88318-20 0.449 3.626 0.035 3.591 8.002 6.242 -20.70920-25 0.443 3.539 0.034 3.504 7.918 6.382 -20.46625-30 0.442 3.425 0.029 3.396 7.676 6.617 -20.46730-35 0.421 3.291 0.018 3.273 7.778 6.798 -20.47135-40 0.425 3.246 0.034 3.212 7.560 6.660 -20.33040-45 0.430 3.345 0.025 3.320 7.715 6.772 -20.36145-50 0.429 3.353 0.039 3.313 7.731 6.769 -20.22550-55 0.432 3.318 0.035 3.283 7.606 6.770 -20.006
Core 20-1 0.158 1.677 0.090 1.587 10.023 4.680 -23.6671-2 0.138 1.604 0.110 1.494 10.806 4.693 -24.0352-3 0.140 1.555 0.092 1.463 10.431 4.337 -24.0793-4 0.135 1.560 0.107 1.453 10.743 4.661 -23.8774-5 0.133 1.556 0.115 1.441 10.861 4.690 -24.2225-6 0.138 1.639 0.114 1.525 11.020 4.442 -24.1196-7 0.137 1.587 0.094 1.492 10.859 4.839 -23.9407-8 0.134 1.596 0.110 1.487 11.104 4.532 -23.9618-9 0.138 1.560 0.091 1.469 10.672 4.345 -23.9329-10 0.136 1.570 0.109 1.461 10.770 4.448 -24.07810-12 0.130 1.558 0.085 1.473 11.339 4.480 -24.20012-14 0.125 1.533 0.117 1.416 11.323 4.385 -24.07614-16 0.111 1.434 0.085 1.350 12.103 4.247 -24.17316-18 0.108 1.389 0.115 1.275 11.820 4.279 -24.20918-20 0.115 1.484 0.095 1.389 12.107 4.400 -24.11020-25 0.111 1.394 0.115 1.280 11.560 4.274 -24.16725-30 0.106 1.216 0.081 1.135 10.723 4.377 -23.64830-35 0.099 1.112 0.094 1.018 10.322 4.738 -23.782
39
Table 5: Continued.
Sample Depth Total N (%)
Total C (%)
Total Carb C
(%)
Total Org C (%)
Org C/N δ15N vs air
δ13Corg vs PDB
35-40 0.094 0.978 0.096 0.882 9.396 4.227 -23.55140-45 0.085 0.861 0.095 0.766 9.004 4.552 -23.379
Core 30-1 0.119 1.258 0.177 1.081 9.111 2.104 -24.4381-2 0.122 1.330 0.115 1.215 9.954 2.450 -24.4292-3 0.123 1.352 0.208 1.144 9.297 2.817 -24.1913-4 0.118 1.284 0.145 1.139 9.691 2.630 -24.3794-5 0.115 1.220 0.180 1.039 9.056 2.008 -24.3175-6 0.111 1.330 0.210 1.120 10.122 2.672 -24.3326-7 0.111 1.146 0.143 1.002 9.043 2.810 -24.6497-8 0.098 1.286 0.145 1.140 11.630 2.608 -24.5718-9 0.090 0.926 0.122 0.804 8.984 2.761 -24.5089-10 0.080 0.948 0.127 0.821 10.229 2.738 -24.49610-12 0.091 1.098 0.140 0.958 10.557 3.044 -24.52212-14 0.086 0.983 0.134 0.849 9.888 3.364 -24.61214-16 0.098 1.070 0.162 0.908 9.255 3.838 -24.56016-18 0.101 1.111 0.134 0.977 9.639 3.907 -24.42918-20 0.099 1.084 0.116 0.968 9.786 3.955 -24.36520-25 0.093 1.060 0.128 0.931 10.021 3.978 -24.61825-30 0.090 1.003 0.127 0.876 9.691 3.855 -24.43230-35 0.088 0.978 0.133 0.846 9.613 3.580 -24.57335-40 0.085 0.988 0.147 0.841 9.876 3.559 -24.55340-45 0.079 0.959 0.136 0.822 10.393 3.691 -24.543
Core 40-1 0.085 1.071 0.182 0.889 10.504 3.724 -24.9341-2 0.092 1.133 0.201 0.932 10.108 3.420 -24.7252-3 0.091 1.190 0.159 1.031 11.281 3.568 -24.5273-4 0.094 1.178 0.179 0.999 10.672 3.574 -24.7264-5 0.085 1.135 0.162 0.973 11.505 3.340 -24.5965-6 0.093 1.159 0.167 0.992 10.681 3.467 -24.6846-7 0.087 1.152 0.154 0.998 11.529 3.666 -24.4667-8 0.085 1.121 0.172 0.950 11.228 3.375 -24.7568-9 0.086 1.154 0.151 1.002 11.667 3.665 -24.5959-10 0.085 1.125 0.192 0.933 11.011 3.448 -24.63010-12 0.087 1.114 0.162 0.952 10.898 3.367 -24.75612-14 0.084 1.069 0.181 0.888 10.588 3.307 -24.65514-16 0.084 1.078 0.165 0.914 10.816 3.365 -24.64916-18 0.081 1.107 0.144 0.963 11.841 3.342 -24.58818-20 0.081 1.079 0.152 0.927 11.473 3.343 -24.69920-25 0.081 1.112 0.185 0.928 11.385 3.434 -24.68225-30 0.081 1.110 0.171 0.939 11.636 3.174 -24.93130-35 0.083 1.089 0.176 0.913 11.008 3.371 -24.774
40
Table 5: Continued.
Sample Depth Total N (%)
Total C (%)
Total Carb C
(%)
Total Org C (%)
Org C/N δ15N vs air
δ13Corg vs PDB
Core 50-1 0.195 1.737 0.083 1.654 8.492 5.993 -22.5051-2 0.190 1.720 0.082 1.638 8.609 5.911 -22.5732-3 0.196 2.004 0.078 1.926 9.837 5.656 -23.1073-4 0.196 1.756 0.087 1.669 8.523 5.815 -22.5344-5 0.194 1.759 0.094 1.665 8.596 5.635 -22.6185-6 0.192 1.804 0.111 1.694 8.800 5.641 -22.4996-7 0.189 1.748 0.082 1.667 8.836 5.699 -22.6987-8 0.192 1.748 0.091 1.657 8.630 5.743 -22.6408-9 0.192 1.733 0.082 1.651 8.589 5.644 -22.6819-10 0.185 1.722 0.096 1.626 8.807 5.753 -22.74310-12 0.182 1.694 0.078 1.616 8.873 5.597 -22.78812-14 0.184 1.711 0.084 1.627 8.828 5.576 -22.67514-16 0.191 1.756 0.098 1.658 8.699 5.669 -22.73716-18 0.190 1.736 0.086 1.650 8.685 5.957 -22.75418-20 0.183 1.718 0.083 1.635 8.956 5.510 -22.76620-25 0.180 1.714 0.101 1.613 8.967 5.537 -22.94925-30 0.175 1.687 0.085 1.601 9.129 5.576 -22.84130-35 0.173 1.647 0.103 1.544 8.928 5.337 -22.84635-40 0.169 1.606 0.089 1.517 8.953 5.428 -22.97640-45 0.160 1.844 0.102 1.741 10.862 5.159 -25.38745-50 0.156 1.776 0.091 1.685 10.826 4.988 -23.584
Core 60-1 0.161 1.434 0.100 1.333 8.288 5.735 -21.4971-2 0.158 1.383 0.082 1.301 8.240 5.776 -21.7392-3 0.157 1.420 0.090 1.330 8.447 5.749 -21.9443-4 0.175 1.458 0.089 1.370 7.823 6.002 -21.9064-5 0.146 1.311 0.092 1.219 8.361 5.636 -22.1825-6 0.149 1.327 0.090 1.237 8.296 5.638 -22.3376-7 0.153 1.375 0.098 1.277 8.323 5.897 -22.0497-8 0.152 1.361 0.090 1.271 8.381 5.424 -22.1888-9 0.152 1.385 0.099 1.286 8.445 5.462 -22.1559-10 0.156 1.381 0.096 1.285 8.248 5.518 -22.22110-12 0.154 1.347 0.097 1.249 8.133 5.511 -22.11712-14 0.149 1.333 0.092 1.241 8.321 5.691 -22.16614-16 0.145 1.286 0.099 1.187 8.159 5.751 -22.38116-18 0.142 1.274 0.088 1.186 8.354 5.660 -22.22818-20 0.145 1.323 0.104 1.219 8.398 5.516 -22.28320-25 0.143 1.307 0.100 1.207 8.442 5.541 -22.41625-30 0.144 1.264 0.107 1.157 8.043 5.620 -22.44030-35 0.146 1.361 0.097 1.265 8.656 5.633 -22.42035-40 0.143 1.350 0.115 1.235 8.664 5.627 -22.52240-45 0.126 1.185 0.101 1.084 8.603 5.538 -22.498
41
Table 5: Continued.
Sample Depth Total N (%)
Total C (%)
Total Carb C
(%)
Total Org C (%)
Org C/N δ15N vs air
δ13Corg vs PDB
Core 70-1 0.131 1.149 0.109 1.040 7.967 5.577 -22.7151-2 0.120 1.062 0.075 0.987 8.199 5.555 -22.6962-3 0.115 1.086 0.052 1.034 8.989 5.702 -22.8113-4 0.097 0.977 0.064 0.913 9.457 5.040 -23.3364-5 0.089 1.017 0.055 0.962 10.817 5.374 -23.1495-6 0.086 0.848 0.056 0.792 9.200 5.269 -23.3836-7 0.103 1.051 0.061 0.990 9.650 5.209 -23.0117-8 0.086 0.762 0.063 0.699 8.098 5.409 -22.8618-9 0.079 0.825 0.050 0.774 9.860 4.811 -22.8989-10 0.078 0.857 0.059 0.798 10.261 4.957 -23.17610-12 0.081 0.805 0.048 0.757 9.347 5.255 -22.97412-14 0.095 0.960 0.064 0.896 9.457 5.063 -22.68914-16 0.101 1.104 0.048 1.055 10.401 5.181 -23.08716-18 0.106 1.099 0.058 1.041 9.785 5.344 -23.39318-20 0.109 1.424 0.060 1.364 12.535 5.063 -23.22420-25 0.111 1.274 0.150 1.124 10.095 5.039 -23.20725-30 0.113 1.390 0.232 1.158 10.263 5.060 -23.57530-35 0.114 1.185 0.196 0.989 8.690 5.253 -23.50235-40 0.113 1.284 0.276 1.008 8.946 5.271 -23.10140-44 0.111 1.400 0.338 1.061 9.544 5.067 -23.252
Core 81-2 0.262 2.232 0.071 2.161 8.245 6.23 -22.222-3 0.249 2.129 0.060 2.068 8.290 6.25 -22.273-4 0.242 2.110 0.055 2.055 8.484 6.07 -22.444-5 0.243 2.334 0.054 2.280 9.399 6.20 -22.305-6 0.237 2.111 0.055 2.056 8.673 6.21 -22.476-7 0.234 2.087 0.059 2.028 8.682 6.39 -22.257-8 0.231 2.049 0.057 1.992 8.643 6.34 -22.298-9 0.227 2.138 0.055 2.083 9.179 6.30 -22.249-10 0.223 2.016 0.058 1.958 8.763 6.36 -22.3610-12 0.214 1.939 0.052 1.887 8.837 6.31 -22.2012-14 0.207 1.955 0.057 1.898 9.193 6.09 -22.3114-16 0.197 1.804 0.047 1.757 8.915 6.31 -22.4716-18 0.194 1.739 0.054 1.686 8.696 6.36 -22.3918-20 0.186 1.649 0.047 1.602 8.599 6.27 -22.1520-25 0.181 1.572 0.071 1.501 8.289 6.35 -22.0625-30 0.180 1.484 0.049 1.435 7.967 6.47 -21.7830-35 0.174 1.423 0.054 1.370 7.886 6.56 -21.7635-40 0.172 1.383 0.048 1.335 7.756 6.48 -21.6440-45 0.165 1.364 0.061 1.303 7.907 6.53 -21.5345-50 0.164 1.339 0.052 1.287 7.828 6.65 -21.34
42
Table 5: Continued.
Sample Depth Total N (%)
Total C (%)
Total Carb C
(%)
Total Org C (%)
Org C/N δ15N vs air
δ13Corg vs PDB
Core 90-1 0.270 2.239 0.052 2.187 8.103 7.03 -21.341-2 0.268 2.207 0.057 2.150 8.023 6.66 -21.522-3 0.261 2.177 0.057 2.120 8.119 6.82 -21.773-4 0.253 2.152 0.061 2.091 8.267 6.85 -21.704-5 0.253 2.130 0.063 2.066 8.164 6.67 -21.825-6 0.237 2.092 0.063 2.030 8.546 6.64 -21.746-7 0.247 2.162 0.068 2.094 8.465 6.60 -22.097-8 0.237 2.089 0.072 2.017 8.516 6.48 -21.908-9 0.227 2.032 0.057 1.976 8.686 6.50 -22.199-10 0.232 2.083 0.062 2.022 8.704 6.54 -22.1510-12 0.221 1.974 0.060 1.914 8.673 6.37 -22.1112-14 0.215 1.943 0.067 1.876 8.720 6.66 -21.9214-16 0.213 1.924 0.062 1.863 8.749 6.57 -22.1116-18 0.214 1.945 0.072 1.873 8.768 6.58 -21.9718-20 0.209 1.915 0.065 1.850 8.845 6.45 -21.9420-25 0.201 1.852 0.069 1.784 8.862 6.68 -22.0925-30 0.201 1.754 0.066 1.688 8.398 6.62 -21.7330-35 0.200 1.668 0.062 1.606 8.016 6.80 -20.7135-40 0.194 1.588 0.067 1.521 7.846 6.81 -20.6240-45 0.187 1.554 0.072 1.483 7.917 6.96 -21.0545-50 0.188 1.511 0.074 1.437 7.648 7.01 -20.55
Core 100-1 0.431 3.636 0.067 3.569 8.287 7.13 -19.961-2 0.432 3.679 0.048 3.631 8.408 7.08 -20.462-3 0.435 3.693 0.058 3.635 8.366 7.19 -20.043-4 0.422 3.606 0.051 3.556 8.426 7.15 -20.214-5 0.440 3.701 0.061 3.640 8.282 6.87 -19.695-6 0.423 3.674 0.054 3.620 8.551 7.02 -19.926-7 0.401 3.918 0.054 3.864 9.634 7.00 -20.077-8 0.405 3.560 0.053 3.507 8.660 6.87 -20.728-9 0.392 3.491 0.065 3.426 8.732 6.86 -19.969-10 0.387 3.448 0.048 3.401 8.792 6.90 -19.6210-12 0.390 3.417 0.045 3.372 8.645 6.96 -19.5012-14 0.381 3.216 0.035 3.180 8.346 7.09 -19.7914-16 0.380 3.134 0.032 3.101 8.159 7.31 -19.4416-18 0.382 3.090 0.036 3.054 8.004 7.23 -19.4818-20 0.374 2.945 0.034 2.911 7.793 7.13 -19.0920-25 0.369 2.949 0.041 2.908 7.874 7.32 -20.3725-30 0.359 2.843 0.033 2.810 7.826 7.40 -20.4830-35 0.366 2.875 0.042 2.833 7.740 7.36 -20.3535-40 0.342 2.726 0.037 2.689 7.856 7.15 -20.3440-45 0.342 2.726 0.037 2.689 7.856 7.15 -20.34
43
Table 5: Continued.
Sample Depth Total N (%)
Total C (%)
Total Carb C
(%)
Total Org C (%)
Org C/N δ15N vs air
δ13Corg vs PDB
Core 110-1 0.409 3.330 0.076 3.254 7.960 7.10 -21.071-2 0.411 3.349 0.061 3.288 8.009 7.49 -21.062-3 0.417 3.398 0.080 3.319 7.967 7.07 -20.913-4 0.415 3.402 0.057 3.345 8.068 6.84 -21.054-5 0.413 3.412 0.076 3.337 8.073 7.08 -21.305-6 0.406 3.359 0.062 3.297 8.127 7.19 -21.416-7 0.398 3.322 0.095 3.227 8.115 6.91 -21.157-8 0.398 3.337 0.061 3.276 8.227 6.97 -21.228-9 0.395 3.309 0.076 3.233 8.187 7.12 -21.249-10 0.394 3.337 0.074 3.263 8.286 6.96 -20.8910-12 0.375 3.231 0.074 3.157 8.410 6.96 -21.5212-14 0.364 3.135 0.066 3.069 8.434 7.08 -21.0614-16 0.357 3.112 0.084 3.028 8.487 6.60 -21.4116-18 0.360 3.122 0.079 3.043 8.447 6.81 -21.5218-20 0.352 3.113 0.105 3.008 8.550 6.96 -21.3020-25 0.352 3.081 0.072 3.009 8.557 7.06 -21.3425-30 0.359 3.026 0.047 2.979 8.306 6.94 -21.2730-35 0.356 2.940 0.034 2.905 8.159 6.97 -20.9735-40 0.346 2.819 0.039 2.780 8.032 7.13 -20.5840-45 0.335 2.771 0.029 2.741 8.181 7.31 -20.3945-50 0.343 2.703 0.052 2.651 7.723 7.13 -20.38
Core 120-1 0.340 2.738 0.062 2.676 7.876 7.18 -21.261-2 0.326 2.783 0.070 2.714 8.322 7.31 -21.262-3 0.336 2.776 0.068 2.707 8.056 7.31 -21.313-4 0.327 2.817 0.075 2.742 8.381 7.37 -21.244-5 0.341 2.784 0.071 2.712 7.943 7.21 -21.035-6 0.315 2.718 0.072 2.646 8.390 7.25 -21.416-7 0.316 2.667 0.064 2.603 8.238 7.09 -21.447-8 0.313 2.682 0.058 2.623 8.381 7.12 -21.498-9 0.304 2.612 0.059 2.553 8.392 7.35 -21.499-10 0.298 2.636 0.075 2.561 8.606 7.11 -21.5610-12 0.310 2.662 0.066 2.596 8.385 7.19 -21.5912-14 0.287 2.593 0.065 2.528 8.808 7.10 -21.3914-16 0.297 2.615 0.053 2.562 8.628 7.15 -21.2316-18 0.284 2.553 0.063 2.491 8.768 7.29 -21.2018-20 0.296 2.542 0.053 2.489 8.412 7.11 -21.2120-25 0.312 2.590 0.070 2.520 8.088 7.42 -21.4525-30 0.279 2.356 0.061 2.295 8.213 7.46 -21.0730-35 0.284 2.301 0.073 2.228 7.857 7.51 -20.6735-40 0.282 2.275 0.051 2.224 7.880 7.53 -20.5840-45 0.278 2.232 0.078 2.154 7.736 7.44 -21.0945-50 0.293 2.358 0.071 2.287 7.800 7.81 -20.67
44
Table 5: Continued.
Sample Depth Total N (%)
Total C (%)
Total Carb C
(%)
Total Org C (%)
Org C/N δ15N vs air
δ13Corg vs PDB
Core 131-2 0.312 2.560 0.061 2.499 8.020 7.01 -21.382-3 0.309 2.577 0.048 2.529 8.173 7.26 -21.583-4 0.310 2.574 0.054 2.520 8.130 7.19 -21.134-5 0.308 2.587 0.054 2.533 8.216 7.37 -21.385-6 0.303 2.609 0.057 2.553 8.421 7.29 -21.496-7 0.296 2.510 0.048 2.463 8.322 7.19 -21.667-8 0.274 2.383 0.050 2.333 8.510 7.17 -21.588-9 0.281 2.415 0.050 2.365 8.428 7.27 -21.939-10 0.270 2.332 0.046 2.285 8.453 7.15 -22.0410-12 0.264 2.307 0.054 2.253 8.525 7.32 -21.8812-14 0.257 2.271 0.049 2.222 8.644 7.35 -21.9914-16 0.257 2.305 0.056 2.249 8.733 7.34 -21.8816-18 0.257 2.243 0.056 2.187 8.521 7.23 -21.8418-20 0.258 2.218 0.074 2.144 8.317 7.42 -21.6920-25 0.262 2.200 0.071 2.130 8.142 7.44 -21.1625-30 0.255 2.181 0.096 2.085 8.164 7.55 -21.1530-35 0.291 2.527 0.114 2.414 8.280 7.37 -21.53
Core 140-1 0.208 1.837 0.063 1.773 8.529 6.48 -22.571-2 0.208 1.867 0.075 1.792 8.623 6.47 -22.402-3 0.203 1.840 0.074 1.766 8.712 6.37 -22.623-4 0.221 1.924 0.061 1.863 8.422 7.19 -22.024-5 0.203 1.862 0.070 1.792 8.830 6.30 -22.565-6 0.198 1.813 0.069 1.745 8.817 6.33 -22.966-7 0.195 1.790 0.080 1.710 8.768 6.24 -22.787-8 0.185 1.771 0.064 1.707 9.204 6.25 -22.888-9 0.182 1.708 0.067 1.640 9.018 6.30 -22.769-10 0.181 1.747 0.064 1.684 9.307 6.21 -22.5310-12 0.176 1.674 0.070 1.605 9.119 6.23 -22.8012-14 0.170 1.647 0.063 1.584 9.300 5.95 -22.8214-16 0.166 1.614 0.071 1.543 9.307 5.97 -23.1216-18 0.156 1.506 0.073 1.433 9.167 5.94 -22.9518-20 0.158 1.515 0.075 1.439 9.115 5.99 -23.0520-25 0.151 1.441 0.065 1.376 9.139 6.14 -22.6525-30 0.149 1.442 0.072 1.371 9.197 6.07 -22.7730-35 0.137 1.256 0.068 1.188 8.648 6.12 -22.7635-40 0.154 1.489 0.066 1.423 9.241 6.04 -22.99
45
Table 5: Continued.
Sample Depth Total N (%)
Total C (%)
Total Carb C
(%)
Total Org C (%)
Org C/N δ15N vs air
δ13Corg vs PDB
Core 150-1 0.166 1.546 0.076 1.470 8.879 5.85 -23.191-2 0.194 1.742 0.091 1.651 8.512 6.19 -22.602-3 0.185 1.682 0.081 1.601 8.641 5.94 -22.933-4 0.180 1.685 0.085 1.600 8.900 5.76 -22.884-5 0.181 1.687 0.075 1.612 8.884 5.99 -22.575-6 0.180 1.708 0.092 1.617 8.969 6.01 -22.886-7 0.175 1.653 0.146 1.507 8.632 5.98 -22.567-8 0.174 1.623 0.108 1.515 8.698 5.95 -22.428-9 0.170 1.607 0.082 1.525 8.958 5.98 -22.479-10 0.163 1.583 0.100 1.484 9.087 6.03 -22.5910-12 0.168 1.581 0.089 1.492 8.899 5.85 -22.5612-14 0.183 1.665 0.095 1.570 8.562 5.91 -22.5214-16 0.175 1.657 0.080 1.577 8.990 5.92 -22.5016-18 0.173 1.618 0.095 1.523 8.788 5.81 -22.8218-20 0.165 1.577 0.130 1.446 8.764 5.95 -22.6820-25 0.163 1.539 0.101 1.438 8.800 5.83 -22.5425-30 0.150 1.462 0.105 1.357 9.023 5.77 -22.78
Core 160-1 0.170 1.526 0.088 1.438 8.462 5.72 -22.241-2 0.166 1.513 0.091 1.422 8.583 5.51 -22.362-3 0.163 1.477 0.098 1.380 8.474 5.53 -22.483-4 0.165 1.569 0.116 1.453 8.830 5.40 -22.344-5 0.173 1.583 0.112 1.471 8.504 5.50 -22.315-6 0.173 1.520 0.081 1.439 8.306 5.54 -22.206-7 0.181 1.673 0.092 1.581 8.727 5.44 -22.117-8 0.177 1.620 0.097 1.523 8.599 5.59 -22.148-9 0.164 1.533 0.101 1.432 8.713 5.53 -22.349-10 0.161 1.500 0.102 1.398 8.702 5.39 -22.1710-12 0.156 1.440 0.102 1.338 8.591 5.44 -22.3612-14 0.160 1.499 0.106 1.392 8.704 5.35 -22.4014-16 0.150 1.398 0.088 1.310 8.758 5.45 -22.3216-18 0.157 1.486 0.098 1.388 8.862 5.59 -22.2118-20 0.153 1.458 0.112 1.346 8.815 5.45 -22.4120-25 0.148 1.405 0.088 1.317 8.872 5.74 -22.38
Core 170-1 0.267 2.184 0.121 2.063 7.741 6.926 -20.671-2 0.268 2.224 0.097 2.127 7.926 6.754 -20.872-3 0.281 2.408 0.165 2.243 7.993 6.422 -21.023-4 0.273 2.294 0.089 2.205 8.067 6.226 -21.084-5 0.270 2.284 0.116 2.168 8.039 6.352 -21.005-6 0.266 2.280 0.126 2.153 8.087 6.079 -20.94
46
Table 5: Continued.
Sample Depth Total N (%)
Total C (%)
Total Carb C
(%)
Total Org C (%)
Org C/N δ15N vs air
δ13Corg vs PDB
Core 17 Continued6-7 0.261 2.223 0.108 2.115 8.092 6.299 -21.187-8 0.257 2.232 0.146 2.086 8.121 6.276 -21.228-9 0.249 2.218 0.160 2.058 8.277 6.121 -21.439-10 0.249 2.210 0.181 2.029 8.151 6.211 -21.6510-12 0.248 2.213 0.137 2.076 8.385 5.875 -21.7612-14 0.245 2.153 0.130 2.023 8.249 5.964 -21.6514-16 0.229 2.025 0.122 1.903 8.308 6.312 -21.6216-18 0.233 2.086 0.150 1.935 8.307 5.894 -21.7818-20 0.232 2.124 0.180 1.944 8.366 6.161 -21.9120-25 0.227 2.043 0.144 1.899 8.371 6.186 -21.8125-30 0.219 2.052 0.164 1.888 8.627 6.092 -21.8130-35 0.225 2.052 0.168 1.884 8.374 6.227 -21.9435-40 0.210 1.903 0.129 1.774 8.439 6.054 -21.7840-45 0.206 1.808 0.132 1.676 8.138 6.26 -21.6045-50 0.200 1.712 0.111 1.601 7.993 6.605 -21.27
Core 180-1 0.081 1.318 0.635 0.682 8.478 6.454 -22.211-2 0.090 1.379 0.512 0.867 9.591 6.2 -22.702-3 0.073 1.127 0.565 0.562 7.654 6.224 -22.193-4 0.076 1.299 0.693 0.606 8.013 6.489 -22.444-5 0.073 0.929 0.366 0.563 7.732 6.152 -22.215-6 0.072 0.999 0.448 0.551 7.654 5.959 -22.346-7 0.072 1.747 1.176 0.571 7.904 6.324 -22.037-8 0.076 1.299 0.648 0.652 8.597 5.856 -22.448-9 0.071 0.919 0.313 0.606 8.477 5.92 -22.609-10 0.067 0.948 0.379 0.568 8.427 6.055 -22.5810-11 0.065 0.836 0.270 0.566 8.673 5.869 -22.6911-12 0.068 0.896 0.298 0.598 8.833 5.832 -22.8412-13 0.066 0.789 0.216 0.573 8.629 5.701 -23.0013-14 0.068 0.875 0.265 0.610 8.968 5.697 -22.8114-15 0.068 0.869 0.260 0.609 9.001 5.696 -22.7515-16 0.072 0.939 0.297 0.642 8.933 5.721 -23.0116-17 0.071 0.935 0.304 0.631 8.864 5.654 -23.0517-18 0.081 1.027 0.332 0.695 8.625 5.537 -22.5118-19 0.088 0.976 0.268 0.708 8.044 5.778 -22.25
Core 190-1 0.5 0.166 1.599 0.083 1.516 9.142 -22.851-2 1.5 0.172 1.606 0.096 1.511 8.806 -22.752-3 2.5 0.170 1.638 0.093 1.545 9.102 -21.843-4 3.5 0.175 1.672 0.106 1.566 8.970 -22.234-5 4.5 0.175 1.661 0.094 1.567 8.942 -22.55
47
Table 5: Continued.
Sample Depth Total N (%)
Total C (%)
Total Carb C
(%)
Total Org C (%)
Org C/N δ15N vs air
δ13Corg vs PDB
Core 19 Continued5-6 5.5 0.171 1.669 0.122 1.547 9.045 -22.396-7 6.5 0.170 1.605 0.097 1.508 8.869 -22.607-8 7.5 0.172 1.660 0.102 1.558 9.047 -22.508-9 8.5 0.179 1.682 0.086 1.597 8.944 -22.249-10 9.5 0.181 1.713 0.109 1.604 8.864 -22.1110-12 11.5 0.173 1.628 0.108 1.520 8.777 -22.1412-14 13 0.178 1.671 0.101 1.570 8.815 -22.1714-16 15 0.177 1.686 0.104 1.582 8.924 -22.0316-18 17 0.177 1.690 0.100 1.590 8.984 -22.6118-20 19 0.177 1.672 0.114 1.558 8.818 -22.49
Core 200-1 0.219 1.891 0.064 1.827 8.342 6.14 -21.591-2 0.219 1.916 0.069 1.847 8.437 6.01 -21.902-3 0.219 1.911 0.068 1.843 8.423 6.22 -21.653-4 0.218 1.905 0.053 1.852 8.498 6.19 -21.884-5 0.216 1.957 0.069 1.887 8.725 6.02 -22.435-6 0.215 1.884 0.058 1.826 8.480 5.78 -21.976-7 0.210 1.856 0.071 1.785 8.515 5.79 -22.027-8 0.204 1.813 0.073 1.740 8.538 5.93 -21.948-9 0.195 1.780 0.071 1.709 8.756 6.04 -22.239-10 0.191 1.946 0.059 1.887 9.875 5.83 -22.4210-12 0.188 1.741 0.086 1.655 8.818 6.15 -22.4012-14 0.183 1.705 0.061 1.645 8.978 5.92 -22.3414-16 0.181 1.666 0.075 1.591 8.807 5.74 -22.0916-18 0.180 1.600 0.068 1.531 8.522 6.14 -22.0618-20 0.173 1.556 0.081 1.475 8.521 6.26 -22.2020-25 0.173 1.498 0.063 1.434 8.310 6.36 -21.6425-30 0.167 1.443 0.072 1.371 8.201 6.29 -21.6430-35 0.163 1.374 0.062 1.312 8.036 6.44 -21.4835-40 0.165 1.352 0.067 1.285 7.796 6.48 -21.4540-45 0.163 1.380 0.066 1.314 8.083 6.58 -21.5550-55 0.185 1.687 0.072 1.616 8.720 6.06 -22.18
Core 210-1 0.461 4.480 0.070 4.410 9.566 7.00 -20.881-2 0.482 4.596 0.069 4.527 9.387 6.90 -21.532-3 0.480 5.175 0.072 5.103 10.636 7.04 -21.303-4 0.467 4.767 0.081 4.686 10.027 6.97 -21.114-5 0.444 4.574 0.127 4.447 10.015 6.90 -21.805-6 0.408 4.057 0.086 3.971 9.725 6.67 -21.246-7 0.325 3.127 0.065 3.061 9.413 6.89 -21.107-8 0.383 3.748 0.071 3.676 9.590 6.84 -21.79
48
Table 5: Continued.
Sample Depth Total N (%)
Total C (%)
Total Carb C
(%)
Total Org C (%)
Org C/N δ15N vs air
δ13Corg vs PDB
Core 21 Continued8-9 0.361 3.848 0.085 3.763 10.424 6.94 -21.879-10 0.359 3.733 0.078 3.656 10.178 6.93 -21.7310-12 0.334 3.475 0.091 3.385 10.118 6.83 -22.0612-14 0.325 3.446 0.126 3.320 10.227 6.97 -21.7214-16 0.345 3.590 0.091 3.499 10.147 6.61 -21.3516-18 0.318 3.204 0.085 3.119 9.819 6.86 -21.4818-20 0.353 3.322 0.066 3.257 9.239 7.09 -21.0720-25 0.332 3.160 0.105 3.055 9.192 7.16 -21.3825-30 0.325 2.907 0.051 2.856 8.787 7.05 -20.9330-35 0.265 2.334 0.063 2.271 8.556 7.31 -21.1435-40 0.293 2.633 0.111 2.522 8.593 7.43 -20.86
Core 220-1 0.337 2.801 0.105 2.695 8.009 6.67 -20.931-2 0.356 2.976 0.084 2.892 8.117 6.64 -20.682-3 0.359 2.997 0.134 2.863 7.982 6.68 -20.653-4 0.354 2.993 0.078 2.915 8.242 6.68 -20.854-5 0.346 2.933 0.159 2.775 8.030 6.78 -20.495-6 0.342 2.943 0.122 2.821 8.256 6.64 -20.306-7 0.340 2.943 0.178 2.765 8.143 6.62 -20.927-8 0.332 2.906 0.109 2.797 8.426 6.57 -21.228-9 0.324 2.849 0.142 2.707 8.354 6.59 -21.049-10 0.314 2.817 0.077 2.739 8.726 6.51 -21.1110-12 0.310 2.785 0.242 2.542 8.191 6.22 -21.7012-14 0.314 2.839 0.091 2.748 8.748 5.71 -21.5214-16 0.298 2.777 0.157 2.619 8.801 5.56 -21.9116-18 0.310 2.786 0.091 2.696 8.692 5.97 -21.5118-23 0.286 2.662 0.103 2.559 8.949 6.13 -22.0523-28 0.279 2.623 0.093 2.530 9.075 6.01 -21.9428-33 0.274 2.626 0.103 2.523 9.210 6.14 -21.8533-38 0.278 2.540 0.098 2.441 8.779 6.01 -21.8538-43 0.274 2.424 0.108 2.316 8.441 6.09 -21.1643-48 0.265 2.316 0.126 2.190 8.254 6.49 -21.3748-53 0.271 2.310 0.102 2.208 8.159 6.62 -21.24
Tab
le 6
: Res
ults
of t
he m
etal
s, n
itrog
en, c
arbo
n, o
pal a
nd fl
ux m
easu
rem
ents
from
the
two
GV
RD
sed
imen
t tra
ps. D
eplo
ymen
t 1 o
nly.
A
ster
isk
indi
cate
s va
lue
is a
n av
erag
e of
two
mea
sure
men
ts.
Stat
ion
Bak
er
Trap
Se
rial
No.
Cup
#W
ater
de
pth
(m)
Dis
tanc
e of
f bo
ttom
(m
)
Dep
th
from
su
rfac
e (m
)
Tim
e zo
neSt
art d
ate
yyyy
/mm
/dd
hh:m
m (U
TC)
End
date
yy
yy/m
m/d
d hh
:mm
(UTC
)
Mid
-dat
e yy
yy/m
m/d
d hh
:mm
(UTC
)
Julia
n st
art
(UTC
)Ju
lian
end
(UTC
)In
terv
al
(day
s)H
eigh
t in
tube
(cm
)Tr
ap C
up
#C
ombi
ned
sam
ple
wt (
all t
ubes
and
cu
ps) (
gram
s)
GV
RD
A1-
TOP
Tra
p31
533
199
5049
UTC
2003
/10/
13 0
0:00
2003
/11/
03 0
0:00
2003
/10/
23 1
2:00
286.
0030
7.00
21.0
05.
51
6.85
26G
VR
D A
1-TO
P31
533
299
5049
UTC
2003
/11/
03 0
0:00
2003
/11/
24 0
0:00
2003
/11/
13 1
2:00
307.
0032
8.00
21.0
03.
02
3.68
10G
VR
D A
1-TO
P31
533
399
5049
UTC
2003
/11/
24 0
0:00
2003
/12/
15 0
0:00
2003
/12/
04 1
2:00
328.
0034
9.00
21.0
06.
53
9.71
48G
VR
D A
1-TO
P31
533
499
5049
UTC
2003
/12/
15 0
0:00
2004
/01/
05 0
0:00
2003
/12/
25 1
2:00
349.
0037
0.00
21.0
04.
54
6.89
62G
VR
D A
1-TO
P31
533
599
5049
UTC
2004
/01/
05 0
0:00
2004
/01/
26 0
0:00
2004
/01/
15 1
2:00
370.
0039
1.00
21.0
04.
55
6.47
11G
VR
D A
1-TO
P31
533
699
5049
UTC
2004
/01/
26 0
0:00
2004
/02/
16 0
0:00
2004
/02/
05 1
2:00
391.
0041
2.00
21.0
04.
06
4.92
22G
VR
D A
1-TO
P31
533
799
5049
UTC
2004
/02/
16 0
0:00
2004
/03/
08 0
0:00
2004
/02/
26 1
2:00
412.
0043
3.00
21.0
012
.07
16.3
374
GV
RD
A1-
TOP
3153
38
9950
49U
TC20
04/0
3/08
00:
0020
04/0
3/29
00:
0020
04/0
3/18
12:
0043
3.00
454.
0021
.00
6.0
86.
3599
GV
RD
A1-
TOP
3153
39
9950
49U
TC20
04/0
3/29
00:
0020
04/0
4/19
00:
0020
04/0
4/08
12:
0045
4.00
475.
0021
.00
11.0
911
.007
4G
VR
D A
1-TO
P31
533
1099
5049
UTC
2004
/04/
19 0
0:00
2004
/04/
28 1
4:53
2004
/04/
23 1
9:26
475.
0048
4.62
9.62
5.0
103.
4967
GV
RD
A1-
BO
T87
302A
199
2079
UTC
2003
/10/
13 0
0:00
2003
/11/
03 0
0:00
2003
/10/
23 1
2:00
286.
0030
7.00
21.0
013
.01
16.6
260
GV
RD
A1-
BO
T87
302A
299
2079
UTC
2003
/11/
03 0
0:00
2003
/11/
24 0
0:00
2003
/11/
13 1
2:00
307.
0032
8.00
21.0
012
.52
18.0
748
GV
RD
A1-
BO
T87
302A
399
2079
UTC
2003
/11/
24 0
0:00
2003
/12/
15 0
0:00
2003
/12/
04 1
2:00
328.
0034
9.00
21.0
019
.53
29.6
836
GV
RD
A1-
BO
T87
302A
499
2079
UTC
2003
/12/
15 0
0:00
2004
/01/
05 0
0:00
2003
/12/
25 1
2:00
349.
0037
0.00
21.0
015
.04
26.6
590
GV
RD
A1-
BO
T87
302A
599
2079
UTC
2004
/01/
05 0
0:00
2004
/01/
26 0
0:00
2004
/01/
15 1
2:00
370.
0039
1.00
21.0
013
.05
19.3
953
GV
RD
A1-
BO
T87
302A
699
2079
UTC
2004
/01/
26 0
0:00
2004
/02/
16 0
0:00
2004
/02/
05 1
2:00
391.
0041
2.00
21.0
010
.56
14.4
196
GV
RD
A1-
BO
T87
302A
799
2079
UTC
2004
/02/
16 0
0:00
2004
/03/
08 0
0:00
2004
/02/
26 1
2:00
412.
0043
3.00
21.0
011
.07
16.1
178
GV
RD
A1-
BO
T87
302A
899
2079
UTC
2004
/03/
08 0
0:00
2004
/03/
29 0
0:00
2004
/03/
18 1
2:00
433.
0045
4.00
21.0
012
.58
15.6
790
GV
RD
A1-
BO
T87
302A
999
2079
UTC
2004
/03/
29 0
0:00
2004
/04/
19 0
0:00
2004
/04/
08 1
2:00
454.
0047
5.00
21.0
017
.09
18.2
221
GV
RD
A1-
BO
T87
302A
1099
2079
UTC
2004
/04/
19 0
0:00
2004
/04/
28 1
4:53
2004
/04/
23 1
9:26
475.
0048
4.62
9.62
10G
VR
D B
1-TO
P71
8105
124
050
190
UTC
2003
/10/
13 0
0:00
2003
/11/
03 0
0:00
2003
/10/
23 1
2:00
286.
0030
7.00
21.0
013
.51
25.4
672
GV
RD
B1-
TOP
7181
052
240
5019
0U
TC20
03/1
1/03
00:
0020
03/1
1/24
00:
0020
03/1
1/13
12:
0030
7.00
328.
0021
.00
5.7
26.
0079
GV
RD
B1-
TOP
7181
053
240
5019
0U
TC20
03/1
1/24
00:
0020
03/1
2/15
00:
0020
03/1
2/04
12:
0032
8.00
349.
0021
.00
9.3
311
.195
0G
VR
D B
1-TO
P71
8105
424
050
190
UTC
2003
/12/
15 0
0:00
2004
/01/
05 0
0:00
2003
/12/
25 1
2:00
349.
0037
0.00
21.0
07.
24
9.15
25G
VR
D B
1-TO
P71
8105
524
050
190
UTC
2004
/01/
05 0
0:00
2004
/01/
26 0
0:00
2004
/01/
15 1
2:00
370.
0039
1.00
21.0
015
.25
23.1
237
GV
RD
B1-
TOP
7181
056
240
5019
0U
TC20
04/0
1/26
00:
0020
04/0
2/16
00:
0020
04/0
2/05
12:
0039
1.00
412.
0021
.00
7.6
62.
9936
GV
RD
B1-
TOP
7181
057
240
5019
0U
TC20
04/0
2/16
00:
0020
04/0
3/08
00:
0020
04/0
2/26
12:
0041
2.00
433.
0021
.00
8.7
79.
9790
GV
RD
B1-
TOP
7181
058
240
5019
0U
TC20
04/0
3/08
00:
0020
04/0
3/29
00:
0020
04/0
3/18
12:
0043
3.00
454.
0021
.00
4.0
83.
0772
GV
RD
B1-
TOP
7181
059
240
5019
0U
TC20
04/0
3/29
00:
0020
04/0
4/19
00:
0020
04/0
4/08
12:
0045
4.00
475.
0021
.00
6.0
94.
3676
GV
RD
B1-
TOP
7181
0510
240
5019
0U
TC20
04/0
4/19
00:
0020
04/0
4/28
16:
4020
04/0
4/23
20:
2047
5.00
484.
699.
694.
810
3.20
33G
VR
D B
1-B
OT
7181
061
239.
820
220
UTC
2003
/10/
13 0
0:00
2003
/11/
03 0
0:00
2003
/10/
23 1
2:00
286.
0030
7.00
21.0
021
.01
36.0
649
GV
RD
B1-
BO
T71
8106
223
9.8
2022
0U
TC20
03/1
1/03
00:
0020
03/1
1/24
00:
0020
03/1
1/13
12:
0030
7.00
328.
0021
.00
13.5
25.
8098
GV
RD
B1-
BO
T71
8106
323
9.8
2022
0U
TC20
03/1
1/24
00:
0020
03/1
2/15
00:
0020
03/1
2/04
12:
0032
8.00
349.
0021
.00
20.5
327
.315
9G
VR
D B
1-B
OT
7181
064
239.
820
220
UTC
2003
/12/
15 0
0:00
2004
/01/
05 0
0:00
2003
/12/
25 1
2:00
349.
0037
0.00
21.0
018
.04
24.7
866
GV
RD
B1-
BO
T71
8106
523
9.8
2022
0U
TC20
04/0
1/05
00:
0020
04/0
1/26
00:
0020
04/0
1/15
12:
0037
0.00
391.
0021
.00
21.0
528
.504
5G
VR
D B
1-B
OT
7181
066
239.
820
220
UTC
2004
/01/
26 0
0:00
2004
/02/
16 0
0:00
2004
/02/
05 1
2:00
391.
0041
2.00
21.0
05.
06
5.66
03G
VR
D B
1-B
OT
7181
067
239.
820
220
UTC
2004
/02/
16 0
0:00
2004
/03/
08 0
0:00
2004
/02/
26 1
2:00
412.
0043
3.00
21.0
00.
57
0.97
97G
VR
D B
1-B
OT
7181
068
239.
820
220
UTC
2004
/03/
08 0
0:00
2004
/03/
29 0
0:00
2004
/03/
18 1
2:00
433.
0045
4.00
21.0
01.
08
1.76
54G
VR
D B
1-B
OT
7181
069
239.
820
220
UTC
2004
/03/
29 0
0:00
2004
/04/
19 0
0:00
2004
/04/
08 1
2:00
454.
0047
5.00
21.0
00.
29
0.30
12G
VR
D B
1-B
OT
7181
0610
239.
820
220
UTC
2004
/04/
19 0
0:00
2004
/04/
28 1
6:40
2004
/04/
23 2
0:20
475.
0048
4.69
9.69
4.8
101.
0929
Tab
le 6
: Con
tinue
d.
Stat
ion
Cup
#Fr
actio
n of
sa
mpl
e rin
sed,
dr
ied
and
wei
ghed
Frac
tion
rese
rved
for
cont
amin
ant
anal
ysis
Frac
tion
arch
ived
w
et
TDW
(g
ram
s)TD
W_s
alt_
corr
Bak
er tr
ap
colle
ctio
n ar
ea (m
2 )
TDW
flux
(g m
-2 d
-1)
TDW
_flu
x_N
aCl_
corr
ect
ed
avg
%N
_tot
al*
N_t
otal
_flu
x (m
g/m
2 /day
)av
g %
C_t
otal
*C
_tot
al_f
lux
(mg/
m2 /d
ay)
avg
%C
_ino
rg_
flux
*C
_ino
rg_f
lux
(mg/
m2 /d
ay)
%or
g C
GV
RD
A1-
TOP
10.
50.
250.
2513
.705
213
.685
00.
0320
20.3
946
20.3
646
0.17
936
.601
21.
842
375.
701
0.07
3314
.949
1.76
9G
VR
D A
1-TO
P2
0.5
0.25
0.25
7.36
207.
3532
0.03
2010
.955
310
.942
20.
154
16.9
111
1.65
418
1.17
90.
0742
8.13
11.
580
GV
RD
A1-
TOP
30.
50.
250.
2519
.429
619
.408
90.
0320
28.9
130
28.8
823
0.14
642
.230
31.
621
468.
552
0.10
98*
31.7
481.
511
GV
RD
A1-
TOP
40.
50.
250.
2513
.792
313
.775
50.
0320
20.5
243
20.4
992
0.15
531
.789
81.
635
335.
570
0.10
34*
21.2
171.
532
GV
RD
A1-
TOP
50.
50.
250.
2512
.942
212
.928
90.
0320
19.2
593
19.2
395
0.19
737
.977
41.
976
380.
559
0.10
39*
20.0
141.
872
GV
RD
A1-
TOP
60.
50.
250.
259.
8444
9.83
180.
0320
14.6
494
14.6
307
0.15
322
.401
31.
755
257.
111
0.08
7212
.771
1.66
8G
VR
D A
1-TO
P7
0.5
0.25
0.25
32.6
747
32.6
411
0.03
2048
.623
148
.573
10.
174
*84
.826
71.
733
*84
2.63
10.
1140
*55
.424
1.61
9G
VR
D A
1-TO
P8
0.5
0.25
0.25
12.7
197
12.7
033
0.03
2018
.928
218
.903
70.
171
32.3
900
1.68
931
9.65
60.
0791
14.9
681.
610
GV
RD
A1-
TOP
90.
50.
250.
2522
.014
821
.989
80.
0320
32.7
601
32.7
229
0.19
864
.970
21.
817
595.
390
0.09
48*
31.0
461.
723
GV
RD
A1-
TOP
100.
50.
250.
256.
9934
6.98
180.
0320
22.7
173
22.6
796
0.22
150
.227
72.
071
470.
493
0.06
3014
.308
2.00
8G
VR
D A
1-B
OT
10.
50.
250.
2533
.251
933
.212
50.
0320
49.4
821
49.4
233
0.19
094
.126
91.
792
886.
694
0.11
5156
.954
1.67
7G
VR
D A
1-B
OT
20.
50.
250.
2536
.149
536
.118
50.
0320
53.7
939
53.7
478
0.17
694
.833
81.
729
930.
358
0.11
55*
62.1
211.
614
GV
RD
A1-
BO
T3
0.5
0.25
0.25
59.3
672
59.3
034
0.03
2088
.344
088
.249
10.
171
*15
1.18
541.
729
*15
27.6
670.
1092
96.4
721.
620
GV
RD
A1-
BO
T4
0.5
0.25
0.25
53.3
179
53.2
698
0.03
2079
.342
179
.270
60.
153
121.
1193
1.60
612
74.3
930.
1220
96.7
971.
484
GV
RD
A1-
BO
T5
0.5
0.25
0.25
38.7
906
38.7
600
0.03
2057
.724
157
.678
60.
170
98.1
632
1.72
499
4.99
30.
1320
76.1
961.
592
GV
RD
A1-
BO
T6
0.5
0.25
0.25
28.8
392
28.8
142
0.03
2042
.915
542
.878
20.
171
73.3
371
1.74
574
8.98
60.
1156
49.6
101.
630
GV
RD
A1-
BO
T7
0.5
0.25
0.25
32.2
356
32.1
959
0.03
2047
.969
647
.910
50.
174
83.5
993
1.75
384
1.12
00.
1152
55.2
611.
638
GV
RD
A1-
BO
T8
0.5
0.25
0.25
31.3
580
31.3
160
0.03
2046
.663
746
.601
10.
194
90.5
558
1.79
983
9.39
80.
1376
64.2
091.
661
GV
RD
A1-
BO
T9
0.5
0.25
0.25
36.4
442
36.4
035
0.03
2054
.232
454
.171
80.
220
119.
5757
1.91
210
36.9
910.
1060
57.4
861.
806
GV
RD
A1-
BO
T10
00.
250.
250.
0320
GV
RD
B1-
TOP
10.
50.
250.
2550
.934
450
.880
50.
0320
75.7
952
75.7
150
0.14
110
6.74
921.
579
1196
.494
0.12
29*
93.1
521.
456
GV
RD
B1-
TOP
20.
50.
250.
2512
.015
812
.001
30.
0320
17.8
806
17.8
591
0.22
239
.775
12.
051
366.
696
0.08
2014
.653
1.96
9G
VR
D B
1-TO
P3
0.5
0.25
0.25
22.3
900
22.3
573
0.03
2033
.318
433
.269
80.
233
77.7
310
2.09
669
8.50
30.
0885
29.4
802.
008
GV
RD
B1-
TOP
40.
50.
250.
2518
.304
918
.286
70.
0320
27.2
395
27.2
123
0.18
049
.020
11.
777
484.
140
0.07
5320
.514
1.70
2G
VR
D B
1-TO
P5
0.5
0.25
0.25
46.2
474
46.1
895
0.03
2068
.820
568
.734
40.
184
126.
5932
1.72
611
87.6
240.
0798
54.9
311.
646
GV
RD
B1-
TOP
60.
50.
250.
255.
9873
5.97
830.
0320
8.90
968.
8963
0.23
821
.234
02.
202
196.
156
0.05
905.
256
2.14
3G
VR
D B
1-TO
P7
0.5
0.25
0.25
19.9
580
19.9
345
0.03
2029
.699
429
.664
40.
222
65.8
732
2.03
360
3.83
90.
0482
14.3
011.
985
GV
RD
B1-
TOP
80.
50.
250.
256.
1544
6.14
550.
0320
9.15
839.
1451
0.29
727
.225
72.
465
225.
763
0.04
834.
425
2.41
7G
VR
D B
1-TO
P9
0.5
0.25
0.25
8.73
528.
7261
0.03
2012
.998
812
.985
30.
281
*36
.584
82.
247
*29
2.07
50.
0409
*5.
314
2.20
6G
VR
D B
1-TO
P10
0.5
0.25
0.25
6.40
666.
3979
0.03
2020
.651
620
.623
60.
240
49.5
683
2.10
743
5.20
50.
0555
11.4
662.
052
GV
RD
B1-
BO
T1
0.5
0.25
0.25
72.1
299
72.0
592
0.03
2010
7.33
6110
7.23
090.
164
*17
5.78
211.
681
*18
04.3
500.
1063
*11
4.10
01.
575
GV
RD
B1-
BO
T2
0.5
0.25
0.25
11.6
195
11.6
195
0.03
2017
.291
017
.291
00.
212
36.7
397
2.01
934
9.17
00.
0898
15.5
341.
930
GV
RD
B1-
BO
T3
0.5
0.25
0.25
54.6
317
54.5
849
0.03
2081
.297
281
.227
50.
216
175.
9462
1.96
615
98.3
800.
0925
75.2
001.
874
GV
RD
B1-
BO
T4
0.5
0.25
0.25
49.5
732
49.5
305
0.03
2073
.769
673
.706
10.
212
156.
1741
1.98
214
61.9
450.
0965
71.1
881.
885
GV
RD
B1-
BO
T5
0.5
0.25
0.25
57.0
091
56.9
621
0.03
2084
.834
984
.765
00.
226
191.
3064
2.09
217
74.4
960.
0929
78.8
151.
999
GV
RD
B1-
BO
T6
0.5
0.25
0.25
11.3
206
11.3
091
0.03
2016
.846
116
.829
00.
217
36.5
003
1.98
933
5.07
10.
0558
9.39
51.
933
GV
RD
B1-
BO
T7
10
00.
9797
0.97
970.
0320
1.45
791.
4579
0.24
73.
5991
2.25
132
.815
0.04
970.
725
2.20
1G
VR
D B
1-B
OT
81
00
1.76
541.
7637
0.03
202.
6270
2.62
450.
244
6.39
922.
203
57.8
720.
0524
*1.
377
2.15
1G
VR
D B
1-B
OT
91
00
0.30
120.
3012
0.03
200.
4482
0.44
820.
253
1.13
372.
331
10.4
460.
0435
*0.
195
2.28
7G
VR
D B
1-B
OT
101
00
1.09
291.
0915
0.03
203.
5229
3.51
850.
251
8.84
192.
222
78.2
630.
0442
1.55
82.
177
Tab
le 6
: Con
tinue
d.
Stat
ion
Cup
#C
_org
anic
flu
x (m
g/m
2 /day
)
org
C/N
w
eigh
tsC
N_r
atio
_at
omic
%Si
(opa
l)*
%Si
_bio
geni
c_f
lux
(mg/
m2 /d
ay)
% O
pal
*O
pal_
flux
(mg/
m2 /d
ay)
avg
d15N
vs
air (
ppt)
*av
g d13
Cor
g v
PDB
(ppt
)*
avg
%C
l*
%N
aCl
Al (
%)
Fe (%
)M
g (%
)C
a (%
)B
a (m
g/g)
Mn
(mg/
g)C
d (m
g/g)
Mo
(mg/
g)
GV
RD
A1-
TOP
136
0.75
19.
856
11.4
942.
420
493.
479
5.80
711
84.3
493.
17*
-24.
31*
0.08
90.
147
7.92
4.88
1.77
1.69
617
553
0.32
51.
50G
VR
D A
1-TO
P2
173.
048
10.2
3311
.933
2.42
226
5.37
45.
814
636.
897
4.52
-24.
430.
073
0.12
07.
934.
881.
761.
6261
660
60.
370
1.36
GV
RD
A1-
TOP
343
6.80
410
.343
12.0
622.
394
692.
212
5.74
616
61.3
083.
88-2
4.39
0.06
40.
106
7.63
4.68
1.69
1.71
594
535
0.29
01.
19G
VR
D A
1-TO
P4
314.
353
9.88
811
.532
2.37
248
6.93
25.
694
1168
.636
4.15
-24.
180.
074
0.12
27.
514.
571.
711.
7957
850
90.
344
0.98
GV
RD
A1-
TOP
536
0.54
59.
494
11.0
712.
804
540.
041
6.73
012
96.0
974.
74-2
3.22
0.06
20.
103
7.36
4.61
1.66
1.69
555
544
0.26
81.
27G
VR
D A
1-TO
P6
244.
340
10.9
0712
.720
2.91
842
7.53
27.
004
1026
.077
3.65
-23.
710.
078
0.12
87.
764.
801.
731.
7559
760
70.
218
1.17
GV
RD
A1-
TOP
778
7.20
69.
280
10.8
222.
712
*13
18.8
016.
510
*31
65.1
223.
49-2
3.83
0.06
2*
0.10
37.
644.
751.
701.
7758
856
90.
212
1.08
GV
RD
A1-
TOP
830
4.68
89.
407
10.9
704.
234
801.
343
10.1
6119
23.2
233.
86-2
3.08
0.07
80.
129
7.18
4.41
1.65
1.68
562
500
0.25
11.
01G
VR
D A
1-TO
P9
564.
344
8.68
610
.130
3.89
312
75.3
909.
343
3060
.936
4.41
*-2
2.76
*0.
069
0.11
47.
304.
571.
671.
6557
855
00.
248
1.19
GV
RD
A1-
TOP
1045
6.18
59.
082
10.5
924.
130
938.
179
9.91
222
51.6
304.
41-2
2.65
0.10
00.
166
7.33
4.67
1.67
1.50
590
609
0.20
91.
25G
VR
D A
1-B
OT
182
9.74
08.
815
10.2
802.
373
1174
.012
5.69
428
17.6
303.
77*
-23.
87*
0.07
20.
119
7.30
4.50
1.57
1.62
610
595
0.39
21.
27G
VR
D A
1-B
OT
286
8.23
89.
155
10.6
775.
345
2875
.434
12.8
2969
01.0
423.
41-2
3.83
0.05
20.
086
7.15
4.41
1.57
1.64
593
543
0.33
01.
42G
VR
D A
1-B
OT
314
31.1
959.
466
11.0
402.
866
*25
31.7
556.
878
*60
76.2
113.
32-2
3.69
0.06
5*
0.10
77.
004.
241.
441.
6656
651
70.
326
1.12
GV
RD
A1-
BO
T4
1177
.595
9.72
311
.338
2.73
121
67.2
166.
556
5201
.318
3.57
-23.
710.
055
0.09
07.
404.
671.
551.
5156
752
10.
293
1.09
GV
RD
A1-
BO
T5
918.
797
9.36
010
.915
2.39
513
82.6
105.
748
3318
.264
4.13
-23.
510.
048
0.07
97.
594.
671.
551.
5555
851
90.
279
1.21
GV
RD
A1-
BO
T6
699.
376
9.53
611
.121
3.11
813
38.1
317.
483
3211
.514
4.00
-23.
570.
053
0.08
76.
954.
471.
531.
4056
752
80.
249
1.08
GV
RD
A1-
BO
T7
785.
859
9.40
010
.962
2.43
411
67.4
575.
841
2801
.897
3.66
-23.
460.
075
0.12
37.
004.
361.
491.
3057
753
50.
226
1.14
GV
RD
A1-
BO
T8
775.
188
8.56
09.
983
3.19
514
90.9
547.
668
3578
.289
3.99
-22.
930.
081
0.13
47.
194.
451.
561.
4257
055
10.
259
1.02
GV
RD
A1-
BO
T9
979.
504
8.19
19.
553
4.72
125
60.4
2411
.331
6145
.019
4.73
*-2
2.33
*0.
068
*0.
112
7.50
4.47
1.64
1.69
554
523
0.25
61.
10G
VR
D A
1-B
OT
104.
14G
VR
D B
1-TO
P1
1103
.341
10.3
3612
.053
2.77
821
05.7
266.
668
5053
.743
4.51
*-2
4.30
*0.
064
*0.
106
7.38
4.37
1.67
1.63
568
587
0.26
91.
12G
VR
D B
1-TO
P2
352.
043
8.85
110
.322
4.53
281
0.37
410
.877
1944
.898
6.22
-22.
510.
073
0.12
07.
524.
611.
601.
4653
190
10.
245
1.22
GV
RD
B1-
TOP
366
9.02
38.
607
10.0
374.
993
1663
.588
11.9
8339
92.6
116.
19-2
2.58
0.08
80.
146
7.30
4.50
1.57
1.62
478
592
0.23
81.
07G
VR
D B
1-TO
P4
463.
626
9.45
811
.030
4.08
111
11.5
579.
794
2667
.737
5.43
-25.
600.
061
0.10
07.
154.
411.
571.
6449
772
30.
245
0.99
GV
RD
B1-
TOP
511
32.6
938.
947
10.4
344.
221
2905
.220
10.1
3169
72.5
275.
90-2
2.59
0.07
60.
125
7.00
4.24
1.44
1.66
456
573
0.21
40.
84G
VR
D B
1-TO
P6
190.
899
8.99
010
.484
4.93
843
9.94
311
.851
1055
.864
5.98
-22.
460.
091
0.15
07.
404.
671.
551.
5147
381
70.
230
1.12
GV
RD
B1-
TOP
758
9.53
88.
950
10.4
374.
491
1333
.656
10.7
7732
00.7
745.
92-2
2.76
0.07
20.
118
7.59
4.67
1.55
1.55
470
770
0.22
01.
05G
VR
D B
1-TO
P8
221.
337
8.13
09.
481
6.70
761
4.23
216
.096
1474
.157
6.08
-22.
190.
087
0.14
46.
954.
471.
531.
4046
197
10.
228
1.04
GV
RD
B1-
TOP
928
6.76
17.
838
9.14
16.
631
*86
2.01
415
.916
*20
68.8
346.
10*
-22.
16*
0.06
3*
0.10
47.
004.
361.
491.
3047
158
30.
259
1.11
GV
RD
B1-
TOP
1042
3.73
98.
549
9.96
95.
133
1060
.124
12.3
2025
44.2
975.
75-2
2.02
0.08
20.
136
7.19
4.45
1.56
1.42
503
676
0.23
31.
00G
VR
D B
1-B
OT
116
90.2
509.
616
11.2
143.
607
*38
71.6
508.
657
*92
91.9
604.
92*
-23.
57*
0.05
9*
0.09
87.
504.
471.
641.
6954
658
30.
270
1.10
GV
RD
B1-
BO
T2
333.
636
9.08
110
.590
2.58
644
7.19
36.
207
1073
.262
5.76
-23.
047.
404.
531.
591.
5451
559
00.
267
1.07
GV
RD
B1-
BO
T3
1523
.181
8.65
710
.096
2.79
522
72.6
016.
709
5454
.242
6.24
-22.
450.
052
0.08
66.
774.
181.
411.
5143
053
10.
238
0.92
GV
RD
B1-
BO
T4
1390
.758
8.90
510
.385
3.65
926
99.5
768.
783
6478
.981
6.13
-22.
560.
052
0.08
67.
254.
511.
541.
6448
460
10.
254
0.94
GV
RD
B1-
BO
T5
1695
.681
8.86
410
.337
4.78
040
55.2
0711
.472
9732
.497
6.22
-22.
420.
050
0.08
27.
164.
461.
521.
6545
857
50.
242
0.93
GV
RD
B1-
BO
T6
325.
676
8.92
310
.405
4.22
971
2.49
210
.151
1709
.982
6.10
-22.
49*
0.06
2*
0.10
27.
324.
521.
541.
6245
473
50.
249
0.93
GV
RD
B1-
BO
T7
32.0
918.
916
10.3
984.
799
69.9
6311
.517
167.
912
6.00
*-2
2.50
7.41
4.66
1.60
1.50
456
915
0.25
81.
05G
VR
D B
1-B
OT
856
.495
8.82
910
.296
4.94
112
9.79
011
.857
311.
496
6.10
-22.
480.
058
0.09
57.
364.
601.
561.
5045
573
60.
234
0.95
GV
RD
B1-
BO
T9
10.2
519.
042
10.5
454.
626
20.7
3411
.103
49.7
627.
424.
741.
571.
4947
374
00.
358
1.27
GV
RD
B1-
BO
T10
76.7
058.
675
10.1
174.
315
152.
002
10.3
5536
4.80
46.
20-2
2.34
0.07
40.
123
7.39
4.61
1.58
1.51
456
729
0.26
31.
05
Tab
le 6
: Con
tinue
d.
Stat
ion
U
(mg/
g)C
up #
Re
(ng/
g)A
s (m
g/g)
Ag
(mg/
g)C
o (m
g/g)
Cr
(mg/
g)N
i (m
g/g)
Cu
(mg/
g)Zn
(m
g/g)
Pb
(mg/
g)K
(%)
Na
(%)
Ti
(mg/
g)S
(mg/
g)P
(mg/
g)R
atio
%
OC
/%A
lR
atio
%
OC
/%Si
(op
al)
GV
RD
A1-
TOP
1.87
12.
5710
.95
0.55
817
.875
.453
.841
.512
6.6
16.9
1.77
1.61
4067
5191
1097
0.22
0.73
GV
RD
A1-
TOP
1.87
22.
5411
.50
0.41
617
.562
.954
.235
.112
0.0
16.3
1.78
1.54
4128
1092
1138
0.20
0.65
GV
RD
A1-
TOP
1.79
32.
909.
760.
467
16.7
57.5
52.9
33.5
112.
314
.81.
661.
6242
0628
5296
30.
200.
63G
VR
D A
1-TO
P1.
844
2.61
8.24
0.43
215
.264
.648
.630
.011
0.8
14.7
1.64
1.59
4294
2875
1028
0.20
0.65
GV
RD
A1-
TOP
1.83
53.
129.
030.
407
15.6
61.5
51.1
34.0
112.
917
.01.
571.
6441
2118
0210
800.
250.
67G
VR
D A
1-TO
P1.
836
2.50
9.63
0.37
315
.768
.849
.732
.511
4.9
16.4
1.64
1.58
4392
1186
1082
0.21
0.57
GV
RD
A1-
TOP
1.80
72.
909.
640.
377
16.0
78.4
50.9
31.3
112.
416
.61.
651.
6643
8128
0310
570.
210.
60G
VR
D A
1-TO
P1.
788
2.32
8.48
0.36
815
.288
.349
.029
.910
9.7
16.3
1.58
1.40
4142
2252
1015
0.22
0.38
GV
RD
A1-
TOP
1.70
92.
728.
400.
390
15.6
86.7
51.0
30.2
112.
416
.01.
621.
5040
9547
4896
00.
240.
44G
VR
D A
1-TO
P1.
9310
2.41
10.9
40.
453
16.5
69.2
53.7
35.2
118.
916
.51.
631.
4740
2410
6912
010.
270.
49G
VR
D A
1-B
OT
1.81
12.
6910
.60
0.55
916
.967
.852
.438
.811
8.1
15.9
1.06
1.70
4119
4991
1114
0.23
0.71
GV
RD
A1-
BO
T1.
822
2.91
9.29
0.60
821
.876
.452
.338
.511
3.6
15.6
1.06
1.58
4144
5071
905
0.23
0.30
GV
RD
A1-
BO
T1.
723
2.85
8.56
0.53
520
.969
.149
.734
.810
5.9
14.6
1.08
1.55
4155
3629
902
0.23
0.57
GV
RD
A1-
BO
T1.
704
3.02
8.83
0.47
320
.668
.349
.931
.910
5.8
14.3
1.06
1.66
4193
3183
945
0.20
0.54
GV
RD
A1-
BO
T1.
935
3.09
8.48
0.45
720
.476
.949
.531
.410
3.6
14.7
1.09
1.65
4100
3941
946
0.21
0.66
GV
RD
A1-
BO
T1.
626
2.86
10.5
50.
470
20.9
86.6
51.3
32.7
107.
715
.81.
081.
6140
2032
2410
380.
230.
52G
VR
D A
1-B
OT
1.67
72.
689.
490.
401
21.1
85.2
51.1
31.1
106.
615
.41.
101.
5141
9732
9710
060.
230.
67G
VR
D A
1-B
OT
1.63
82.
819.
670.
417
20.8
94.4
49.9
31.3
110.
216
.11.
081.
5441
2136
6111
010.
230.
52G
VR
D A
1-B
OT
1.66
92.
788.
240.
449
20.7
69.6
51.5
31.0
105.
615
.11.
111.
5039
5449
2188
30.
240.
38G
VR
D A
1-B
OT
10G
VR
D B
1-TO
P1.
781
2.48
10.2
50.
269
17.0
63.2
53.8
29.8
99.9
16.9
1.63
1.61
4053
2302
880
0.20
0.52
GV
RD
B1-
TOP
1.74
22.
7712
.08
0.24
516
.155
.454
.228
.910
9.8
16.3
1.60
1.54
4100
1479
1111
0.26
0.43
GV
RD
B1-
TOP
1.71
33.
447.
930.
238
14.3
48.2
52.9
25.2
105.
914
.81.
491.
6241
4258
7784
20.
280.
40G
VR
D B
1-TO
P1.
664
2.68
9.10
0.24
514
.663
.148
.621
.810
1.0
14.7
1.46
1.59
4174
1545
965
0.24
0.42
GV
RD
B1-
TOP
1.56
53.
158.
460.
214
13.3
54.3
51.1
18.4
94.8
17.0
1.36
1.64
4237
1898
906
0.24
0.39
GV
RD
B1-
TOP
1.63
62.
8811
.60
0.23
014
.363
.649
.741
.210
8.5
16.4
1.44
1.58
4291
1717
1040
0.29
0.43
GV
RD
B1-
TOP
1.64
73.
3410
.71
0.22
014
.161
.450
.922
.711
7.2
16.6
1.44
1.66
4438
1747
994
0.26
0.44
GV
RD
B1-
TOP
1.73
82.
3810
.92
0.22
814
.167
.449
.024
.211
5.0
16.3
1.39
1.40
4005
1564
1126
0.35
0.36
GV
RD
B1-
TOP
1.72
92.
8510
.93
0.25
914
.067
.451
.022
.610
7.4
16.0
1.40
1.50
4113
2095
1093
0.32
0.33
GV
RD
B1-
TOP
1.77
102.
549.
460.
233
14.8
72.1
53.7
23.1
105.
616
.51.
461.
4740
6615
2697
90.
290.
40G
VR
D B
1-B
OT
1.75
13.
5410
.06
0.27
016
.176
.752
.426
.510
2.5
15.9
1.60
1.70
4176
2279
855
0.21
0.44
GV
RD
B1-
BO
T1.
732
3.37
11.0
10.
267
15.5
73.1
52.3
30.4
105.
715
.61.
571.
5841
7829
8394
60.
260.
75G
VR
D B
1-B
OT
1.57
33.
6010
.01
0.23
813
.568
.749
.721
.996
.814
.61.
351.
5540
2227
3593
90.
280.
67G
VR
D B
1-B
OT
1.63
43.
4710
.29
0.25
414
.469
.649
.923
.310
2.9
14.3
1.44
1.66
4295
3180
986
0.26
0.52
GV
RD
B1-
BO
T1.
585
3.71
10.2
40.
242
13.9
24.6
49.5
21.5
99.7
14.7
1.42
1.65
4337
2565
965
0.28
0.42
GV
RD
B1-
BO
T1.
636
2.50
10.7
40.
249
13.8
69.9
51.3
24.4
102.
515
.81.
401.
6143
8018
1494
80.
260.
46G
VR
D B
1-B
OT
1.75
72.
7612
.22
0.25
814
.674
.551
.126
.811
4.9
15.4
1.41
1.51
4424
1870
975
0.30
0.46
GV
RD
B1-
BO
T1.
598
2.90
11.7
40.
234
14.1
71.8
49.9
24.1
104.
916
.11.
391.
5442
8017
1198
40.
290.
44G
VR
D B
1-B
OT
1.72
93.
1211
.65
0.35
814
.690
.551
.525
.915
7.2
15.1
1.39
1.50
4443
1796
968
0.31
0.49
GV
RD
B1-
BO
T1.
7010
2.98
10.9
90.
263
14.4
69.5
51.4
22.9
114.
013
.41.
381.
5443
9617
2496
60.
290.
50
Tab
le 7
. Res
ults
of t
he P
CB
ana
lysi
s. A
ll co
ngen
ers
are
repo
rted
in p
g/g.
NQ
= d
ata
not q
uant
ifiab
le; <
= le
ss th
an d
etec
tion
limit;
ND
R =
pea
k de
tect
ed b
ut d
id n
ot m
eet q
uant
ifica
tion
crite
ria, r
esul
t rep
orte
d re
pres
ents
the
estim
ated
max
imum
pos
sibl
e co
ncen
tratio
n.Sa
mpl
e D
epth
(cm
)C
L1-P
CB
-1
CL1
-PC
B-
2C
L1-P
CB
-3
CL2
-PC
B-
4C
L2-P
CB
-5
CL2
-PC
B-
6C
L2-P
CB
-7
CL2
-PC
B-
8C
L2-P
CB
-9
CL2
-PC
B-
10C
L2-P
CB
-11
CL2
-PC
B-
12/1
3C
L2-P
CB
-14
CL2
-PC
B-
15C
L3-P
CB
-16
CL3
-PC
B-
17C
L3-P
CB
-18
/30
CL3
-PC
B-
19C
L3-P
CB
-20
/28
CL3
-PC
B-
21/3
3C
L3-P
CB
-22
Cor
e 1 0-
1N
QN
QN
QN
QN
QN
QN
QN
QN
QN
QN
QN
QN
Q22
.8N
QN
QN
QN
QN
QN
QN
Q1-
22.
953.
853.
77.
2<
0.28
92.
950.
725
14.2
0.65
30.
361
ND
R 6
.37
3.93
0.42
818
.84.
927.
8211
.92.
2255
19.5
11.4
3-4
4.33
5.5
4.79
110.
267
4.04
1.2
21.1
0.80
40.
382
8.58
6.55
0.61
128
.96.
7810
.314
.73.
5882
.229
.315
.56-
7N
QN
QN
QN
QN
QN
QN
QN
QN
QN
QN
QN
QN
Q29
.55.
57.
8810
.64.
1874
.829
.615
.49-
105.
744.
945.
2115
.40.
361
5.8
1.57
26.8
1.11
0.62
75.
357.
20.
626
308.
6414
.415
.94.
9394
.235
.617
.812
-14
5.67
4.37
5.2
21.2
0.32
57.
441.
7729
.41.
320.
779
4.13
8.17
0.72
531
.610
.117
.722
.16.
9710
642
.319
.414
-16
3.45
3.45
3.71
14.5
0.23
64.
361.
317
.10.
794
0.66
ND
R 2
.47
5.28
0.57
176.
2812
.915
4.46
60.5
23.6
11.3
18-2
0N
QN
Q2.
475.
98<
0.16
41.
530.
373
5.1
ND
R 0
.185
0.18
11.
522.
130.
605
4.62
1.99
3.37
4.09
1.63
17.2
7.29
3.43
25-3
01.
031.
921.
620.
478
< 0.
205
< 0.
190
ND
R 0
.285
0.51
1<
0.18
8<
0.20
01.
21N
DR
0.4
680.
415
0.62
0.26
70.
332
0.50
50.
212
1.41
0.61
40.
4950
-55
0.33
21.
55N
DR
0.9
030.
283
< 0.
103
ND
R 0
.203
0.37
80.
513
< 0.
0969
< 0.
0978
ND
R 1
.53
ND
R 0
.485
0.39
50.
433
0.26
0.34
60.
599
ND
R 0
.168
1.38
0.56
30.
36
Cor
e 2 0-
1 3.
98
1.2
3.34
5.
29
0.19
2.
59
0.64
7 18
.1
0.62
7 0.
144
7.99
2.
22
< 0.
0722
18
.3
6.4
8.64
14
.9
2.49
59
.2
23.6
16
1-2
9.05
2.46
8.03
10.1
0.57
65.
361.
5837
.4N
DR
1.5
00.
451
12.7
4.37
ND
R 0
.135
37.1
1115
.925
.23.
6897
.336
.427
3-4
8.32
2.37
ND
R 6
.88
10.3
ND
R 0
.335
4.65
1.36
36.9
1.13
0.28
512
.44.
36N
DR
0.1
1933
.310
.714
.723
.93.
8298
38.5
26.2
6-7
4710
.314
.520
.55.
3312
146
.934
9-10
14.9
3.53
11.3
170.
603
8.18
2.3
63.7
1.82
0.50
817
.57.
06N
DR
0.1
7865
.615
.724
.335
.25.
3416
255
.842
.212
-14
15.6
2.56
9.81
22.1
0.70
18.
352.
3364
.72.
140.
571
11.1
6.2
ND
R 0
.126
55.4
1927
.540
.76.
7414
458
.239
.714
-16
31.5
4.03
16.5
37.4
1.05
14.3
4.34
105
3.69
1.1
9.98
9.1
0.17
273
26.8
51.6
6811
.821
977
.457
.314
-16
(Dup
licat
e)31
.34.
2717
37.9
1.19
14.1
4.66
119
3.85
1.08
12.3
10.1
0.19
579
.330
.156
74.5
12.9
250
91.7
67.8
18-2
06.
4322
.147
.91.
0414
.55.
7815
93.
59N
DR
0.6
515.
6212
.1N
DR
0.2
7973
.826
.662
.866
.112
265
91.6
61.4
25-3
02.
811.
932.
643.
4N
DR
0.0
770.
449
ND
R 0
.218
3.26
0.09
1<
0.06
881.
41N
DR
0.9
43N
DR
0.1
171.
360.
733
2.08
2.06
0.98
44.
782.
121.
2335
-40
0.47
60.
946
ND
R 0
.977
0.30
1<
0.10
6<
0.10
10.
291
0.36
5<
0.10
0<
0.10
1N
DR
1.7
1N
DR
0.4
21<
0.10
50.
27N
DR
0.1
360.
252
0.29
70.
123
0.55
40.
277
0.17
2
Cor
e 3 0-
12.
711.
793.
122.
940.
177
2.14
0.67
311
.60.
542
0.10
416
.51.
780.
096
13.9
4.26
5.82
9.76
1.04
36.5
15.1
10.7
1-2
1.97
1.44
2.66
2.93
0.18
62.
140.
578
110.
58N
DR
0.1
1616
.71.
74<
0.08
5112
.63.
765.
849.
931.
1236
.514
.111
3-4
2.77
2.16
3.35
3.25
0.21
92.
390.
898
12.7
0.51
70.
1117
.82.
090.
123
14.9
5.23
6.78
11.6
1.41
40.9
16.9
12.1
3-4
(Dup
licat
e)3.
032.
293.
373.
50.
179
2.28
0.72
512
.30.
542
0.11
217
.71.
920.
114
.44.
726.
1810
1.37
39.4
1611
.36-
72.
882.
313.
353.
050.
195
2.3
0.67
912
.60.
523
0.10
315
.81.
91N
DR
0.1
1714
.14.
96.
5210
.51.
2237
.815
.811
9-10
3.4
2.43
3.78
3.1
0.19
82.
310.
754
14.6
0.54
40.
082
17.3
2.38
0.12
620
.74.
366.
739.
871.
0845
17.8
12.2
12-1
46.
422.
295.
265.
930.
359
3.63
1.06
22.8
0.91
50.
173
13.8
3.43
0.14
33.9
6.89
9.53
142.
0265
.925
.817
.914
-16
5.87
1.77
6.01
7.3
0.31
4.49
1.49
27.8
1.12
0.26
5N
DR
14.
23.
88N
DR
0.1
3246
.48.
6913
.220
.12.
6994
.433
.825
.518
-20
102.
48.
2132
.21.
4215
.23.
2383
.64.
131.
0212
.86.
780.
113
71.9
41.5
44.1
8111
.618
791
.760
.725
-30
12.3
2.94
11.9
15.5
ND
R 0
.783
10.5
2.78
59.7
2.45
0.58
615
.27.
49<
0.19
567
.223
.129
.744
.87.
3217
471
.249
.940
-45
16.5
3.5
16.8
21.1
ND
R 1
.08
12.5
3.14
71.5
2.99
0.82
7.16
9.3
< 0.
181
66.2
33.1
54.2
99.9
10.6
283
120
88.1
Cor
e 4 1-
21.
78N
DR
0.9
19N
DR
1.5
42.
37<0
.369
1.09
1.75
5.29
<0.3
47<0
.334
ND
R 8
.29
ND
R 1
.08
<0.3
576.
411.
542.
974.
770.
776
17.9
6.43
4.87
14-1
61.
781.
011.
532.
63<0
.195
1.19
0.3
6.68
0.29
6<0
.182
9.25
1.13
<0.1
966.
671.
883.
14.
51.
0418
.76.
865.
3314
-16
(Dup
licat
e)1.
590.
888
1.44
4.32
<0.5
981.
82N
DR
0.6
268.
85N
DR
0.6
60<0
.542
9.07
1.61
<0.5
789.
673.
335.
949.
451.
4429
10.9
8.16
30-3
52.
771.
352.
443.
75<0
.469
ND
R 1
.79
ND
R 0
.605
9.73
ND
R 0
.527
<0.4
2512
.92.
12<0
.453
162.
354.
817.
11.
334
.311
.78.
85
Cor
e 5 0-
13.
722.
793.
233.
79N
DR
0.2
122.
980.
792
160.
569
ND
R 0
.141
21.2
2.33
ND
R 0
.225
17.8
5.55
6.28
11.2
1.33
44.5
16.6
12.5
1-2
3.28
2.54
2.82
2.71
<0.5
961.
90.
631
11.4
ND
R 0
.757
<0.5
5018
.41.
92<0
.601
11.6
3.18
3.88
7.07
1.15
38.1
1410
.63-
44.
624.
163.
636.
890.
286
3.8
0.99
523
.30.
945
0.32
232
.23.
540.
234
30.6
9.81
10.9
212.
0278
.928
20.1
6-7
3.49
2.64
2.75
3.53
ND
R 0
.140
2.33
0.58
712
.5N
DR
0.5
95N
DR
0.1
4417
.42.
12N
DR
0.2
0115
.8N
DR
4.0
34.
447.
671.
4134
.712
.99.
729-
103.
572.
82.
914.
60.
212.
80.
647
15.3
0.58
10.
221
17.6
2.33
ND
R 0
.197
18.7
4.61
5.31
9.42
1.42
39.3
14.5
11.1
12-1
45.
022.
853.
257.
76N
DR
0.2
474.
020.
877
22.4
1.04
ND
R 0
.201
17.9
2.82
< 0.
128
24.2
11.3
11.3
21.2
3.03
58.2
25.5
18.2
14-1
65.
484.
254.
016.
05<0
.699
4.03
1.07
26.8
0.95
6<0
.646
33.4
4.27
<0.7
0531
.17.
769.
7616
.6N
DR
2.2
789
.131
.323
.618
-20
5.12
2.56
3.69
6.84
0.27
94.
070.
859
20.7
0.87
5N
DR
0.2
6716
.92.
98N
DR
0.2
2532
.37.
47.
9914
.62.
1956
.221
.316
.325
-30
9.19
2.62
5.71
9.83
0.38
25.
321.
3733
.91.
260.
498
13.9
4.15
0.17
51.1
11.3
12.6
22.4
3.13
86.9
31.6
23.3
45-5
017
.13.
019.
625
.3N
DR
0.5
117.
872.
259
.12.
211.
016.
227.
8<0
.446
43.5
20.6
25.7
41.6
9.04
175
70.9
51.2
Tab
le 7
: Con
tinue
d.Sa
mpl
e D
epth
(cm
)C
L1-P
CB
-1
CL1
-PC
B-
2C
L1-P
CB
-3
CL2
-PC
B-
4C
L2-P
CB
-5
CL2
-PC
B-
6C
L2-P
CB
-7
CL2
-PC
B-
8C
L2-P
CB
-9
CL2
-PC
B-
10C
L2-P
CB
-11
CL2
-PC
B-
12/1
3C
L2-P
CB
-14
CL2
-PC
B-
15C
L3-P
CB
-16
CL3
-PC
B-
17C
L3-P
CB
-18
/30
CL3
-PC
B-
19C
L3-P
CB
-20
/28
CL3
-PC
B-
21/3
3C
L3-P
CB
-22
Cor
e 6 0-
15.
32.
073.
044.
07N
DR
0.2
602.
520.
692
12.1
0.54
7N
DR
0.1
8916
1.85
< 0.
0771
11.5
3.66
4.08
7.3
0.86
428
.110
.77.
691-
22.
811.
752.
062.
77N
DR
0.1
191.
670.
486
9.41
ND
R 0
.368
ND
R 0
.128
13.8
1.48
< 0.
0953
10.3
2.89
3.17
6.16
ND
R 0
.830
24.1
9.17
7.07
3-4
2.76
2.05
2.21
2.92
< 0.
159
1.95
0.54
710
.70.
41<
0.14
915
.61.
77<
0.14
411
.93.
494.
217.
840.
708
29.8
11.2
8.49
6-7
2.97
2.21
2.33
3.18
< 0.
184
2.22
0.55
911
.90.
514
< 0.
172
16.3
1.95
ND
R 0
.220
13.6
3.72
4.7
8.26
ND
R 0
.835
34.3
12.6
9.62
9-10
3.15
2.41
2.42
3.91
ND
R 0
.167
2.39
0.56
912
.80.
554
0.17
317
.62.
04N
DR
0.2
1415
.54.
835.
5810
.41.
2337
.314
.610
.99-
10 (D
uplic
ate)
3.61
2.54
2.79
3.7
ND
R 0
.179
2.51
0.70
413
.70.
546
0.15
919
.32.
330.
129
15.8
4.47
5.38
9.7
1.08
39.7
14.2
1112
-14
3.34
2.7
2.39
4.57
< 0.
220
2.69
0.60
815
.6N
DR
0.5
70<
0.20
621
.92.
62<
0.20
017
.45.
486.
1711
.3N
DR
1.1
643
.616
.312
.514
-16
3.42
2.89
2.72
3.91
< 0.
167
2.55
0.69
214
.10.
511
< 0.
157
19.3
2.22
< 0.
152
17.8
4.84
5.57
10.4
0.99
842
14.6
11.3
18-2
03.
93.
043
4.75
< 0.
301
3.08
0.71
417
.5N
DR
0.6
03<
0.28
321
.42.
66<
0.27
522
.1N
DR
5.6
96.
2511
.8N
DR
1.3
150
.117
.913
.425
-30
4.97
3.69
3.69
6.66
ND
R 0
.267
3.9
ND
R 0
.996
22.4
ND
R 0
.919
< 0.
246
23.7
3.07
< 0.
239
28.9
5.85
6.34
12.3
1.51
6523
.718
.740
-45
63.
164.
66.
9N
DR
0.3
784.
391.
2527
.41.
04N
DR
0.2
5518
4.19
< 0.
166
43.4
6.85
7.66
14.5
ND
R 1
.72
81.3
28.6
21.9
Cor
e 7 0-
13.
362.
44N
DR
7.2
2<
6.52
< 3.
58<
3.16
< 3.
309.
29<
3.16
< 3.
2012
.4<
3.55
< 3.
389.
782.
55N
DR
3.0
25.
20.
857
21.6
8.29
5.96
1-2
1.52
1.33
1.12
ND
R 2
.09
<0.7
43N
DR
1.2
4<0
.683
7.55
<0.7
04<0
.686
10.9
1.52
<0.7
496.
562.
42.
855.
06N
DR
0.6
2822
.38.
365.
933-
43.
12.
25N
DR
9.2
5<
6.83
< 3.
52<
3.11
< 3.
258.
52<
3.11
< 3.
1510
.6<
3.49
< 3.
32N
DR
9.9
32.
92.
885.
550.
823
21.9
8.76
6.07
3-4
(Dup
licat
e)3.
973
ND
R 8
.82
< 6.
59<
3.86
< 3.
40<
3.55
11.5
< 3.
41<
3.45
13<
3.83
< 3.
64N
DR
13.
32.
963.
586.
56N
DR
0.8
5829
.210
.88.
026-
72.
99N
DR
2.6
0N
DR
7.3
2<
5.41
< 3.
24<
2.86
< 2.
987.
77<
2.86
< 2.
909.
93<
3.21
< 3.
06N
DR
9.0
82.
342.
765.
3N
DR
0.8
8522
.48.
256.
189-
101.
64N
DR
1.3
11.
531.
91<
0.11
0N
DR
0.9
810.
248
5.39
0.21
4<
0.10
16.
11.
01N
DR
0.1
226.
912.
052.
14.
110.
529
14.5
5.28
4.05
12-1
42.
882.
42N
DR
8.4
3<
5.61
< 2.
98<
2.63
< 2.
756.
23<
2.63
< 2.
673.
87<
2.96
< 2.
81N
DR
6.6
72.
773.
035.
31N
DR
0.9
6020
.98.
576.
0614
-16
ND
R 1
.57
1.31
ND
R 1
.79
1.91
<0.7
27N
DR
1.6
4<0
.668
6.88
<0.6
88<0
.671
ND
R 5
.45
ND
R 1
.69
<0.7
334.
442.
53.
455.
540.
848
21.9
8.76
6.04
18-2
02.
96N
DR
2.2
1N
DR
8.4
7N
DR
7.8
5<
2.87
< 2.
53<
2.64
16<
2.53
< 2.
56N
DR
4.4
2<
2.84
< 2.
7111
.77.
68.
5915
.72.
3242
.720
13.5
25-3
0N
DR
1.9
1N
DR
1.9
4N
DR
8.8
5<
6.59
< 3.
87<
3.41
< 3.
56<
3.26
< 3.
42<
3.46
< 3.
73<
3.84
< 3.
65<
5.05
< 0.
411
ND
R 0
.391
ND
R 0
.827
< 0.
572
2.64
1.11
0.40
840
-44
ND
R 0
.249
1.06
ND
R 0
.487
<0.3
17<0
.226
<0.2
13<0
.211
ND
R 0
.413
<0.2
10<0
.211
0.78
7N
DR
0.4
01<0
.227
<0.2
140.
164
0.18
70.
385
0.13
60.
626
0.4
0.22
3
Sur
face
Onl
y S
ampl
esC
ore
Num
ber/S
ampl
e D
e pth
(cm
)
CL1
-PC
B-
1C
L1-P
CB
-2
CL1
-PC
B-
3C
L2-P
CB
-4
CL2
-PC
B-
5C
L2-P
CB
-6
CL2
-PC
B-
7C
L2-P
CB
-8
CL2
-PC
B-
9C
L2-P
CB
-10
CL2
-PC
B-
11C
L2-P
CB
-12
/13
CL2
-PC
B-
14C
L2-P
CB
-15
CL3
-PC
B-
16C
L3-P
CB
-17
CL3
-PC
B-
18/3
0C
L3-P
CB
-19
CL3
-PC
B-
20/2
8C
L3-P
CB
-21
/33
CL3
-PC
B-
22
8/1-
26.
393.
945.
1711
.50.
364.
33N
DR
2.7
722
.9N
DR
1.2
90.
399
14.6
3.11
ND
R 0
.200
21.7
7.34
8.54
15.8
2.83
47.4
17.5
12.7
9/1-
2N
QN
QN
Q19
.7N
DR
0.3
434.
123.
2522
.61.
290.
408
234.
480.
358
30.1
7.4
7.92
15.6
3.24
64.7
23.2
16.7
10/0
-110
.18.
9N
DR
9.5
025
.30.
542
6.49
4.62
29.4
2.12
ND
R 0
.803
ND
R 3
4.7
6.85
ND
R 0
.456
28.3
8.76
11.4
18.8
5.04
66.7
25.3
15.6
11/0
-16
5.12
4.61
12.5
ND
R 0
.293
3.32
3.06
15.8
0.87
40.
495
12.5
3.9
< 0.
250
19.5
6.67
7.71
142.
8348
.618
.712
.312
/0-1
13.9
3.5
4.26
220.
326
3.54
ND
R 3
.20
15.9
ND
R 1
.11
0.41
6N
DR
11.
72.
91<
0.22
218
.27.
427.
0715
.23.
2841
.916
.911
.713
/0-1
8.99
2.93
3.54
14.6
ND
R 0
.239
2.7
1.42
12.3
0.75
80.
386
8.69
1.97
< 0.
102
12.9
4.42
4.66
8.87
2.03
2810
.37.
2714
/0-1
7.28
3.62
6.88
10.1
0.40
74.
41.
8825
.71.
270.
357
ND
R 2
6.3
3.77
ND
R 0
.217
29.2
6.95
9.16
16.4
2.54
63.8
23.3
16.7
15/0
-12.
31.
661.
653.
71<
0.06
941.
21.
466.
420.
35N
DR
0.1
358.
410.
997
< 0.
0649
5.41
1.87
2.39
4.34
ND
R 0
.780
13.1
5.14
3.84
16/0
-12.
891.
65N
DR
6.8
75.
65N
DR
0.1
562.
770.
6115
.40.
624
0.16
815
.22.
19<
0.10
013
.55.
847.
1612
.61.
6944
.317
.912
.517
/0-1
ND
R 1
3.1
9.53
ND
R 3
1.2
19.9
< 0.
313
5.52
1.2
25.1
1.24
0.61
726
.64.
5<
0.30
027
.39.
4910
.419
.53.
1771
.827
.818
.818
/0-1
ND
R 1
.60
0.93
ND
R 9
.58
2.11
< 0.
0689
1.06
0.31
46.
190.
259
0.07
47.
690.
988
< 0.
0661
5.45
1.98
2.47
4.36
0.48
16.5
6.25
4.2
19/0
-12.
412.
39N
DR
4.4
03.
54N
DR
0.1
232.
010.
455
12.3
0.48
50.
133
15.7
1.41
< 0.
112
10.5
3.5
4.2
7.8
0.87
31.4
11.7
8.48
20/0
-113
.32.
69N
DR
12.
515
.9N
DR
0.2
914.
31.
1126
.11.
190.
609
16.4
3.96
< 0.
146
31.3
9.28
11.1
20.5
3.24
78.5
29.5
21.1
21/0
-1N
DR
9.7
09.
53N
DR
53.
421
0.52
47.
332.
138
.41.
710.
797
27.3
7.34
< 0.
472
40.1
16.1
20.2
33.3
6.42
130
51.4
31.6
22/0
-1N
DR
7.4
4<
1.77
ND
R 3
0.8
10.9
< 0.
256
2.28
0.51
411
.60.
514
ND
R 0
.306
10.2
1.95
< 0.
245
12.8
4.58
ND
R 5
.47
9.36
1.64
31.7
11.6
8.26
A1
TOP
2.
021.
21N
DR
2.3
63.
87N
DR
0.1
872.
270.
777
10.3
0.62
5N
DR
0.1
8218
.31.
64<
0.09
9010
.73.
825.
419.
811.
0929
.812
.89.
36A
1 B
OT
2.57
1.52
2.72
6.36
0.35
83.
130.
917
15.3
0.96
70.
2320
.22.
33N
DR
0.0
9513
.65.
887.
7614
.62.
0538
.617
.513
.7B
1 TO
P3.
241.
44N
DR
2.3
48.
880.
317
3.23
0.86
515
.10.
974
0.36
112
2<
0.10
213
.87.
869.
6118
.92.
5535
.716
.112
.3B
1 B
OT
1.87
ND
R 1
.46
ND
R 1
.66
3.91
0.15
51.
770.
768
9.59
0.47
70.
155
13.1
ND
R 1
.29
< 0.
137
8.86
3.04
4.25
7.65
1.05
22.9
8.91
7.17
Sed
imen
t Tra
ps
Tab
le 7
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)C
L3-P
CB
-23
CL3
-PC
B-
24C
L3-P
CB
-25
CL3
-PC
B-
26/2
9C
L3-P
CB
-27
CL3
-PC
B-
31C
L3-P
CB
-32
CL3
-PC
B-
34C
L3-P
CB
-35
CL3
-PC
B-
36C
L3-P
CB
-37
CL3
-PC
B-
38C
L3-P
CB
-39
CL4
-PC
B-
40/4
1/71
CL4
-PC
B-
42C
L4-P
CB
-43
CL4
-PC
B-
44/4
7/65
CL4
-PC
B-
45/5
1C
L4-P
CB
-46
CL4
-PC
B-
48C
L4-P
CB
-49
/69
Cor
e 1 0-
1N
QN
QN
QN
QN
QN
QN
QN
QN
QN
Q24
.2N
QN
Q29
.216
.11.
2355
.16.
292.
116.
2637
.21-
2<
0.07
25N
DR
0.1
632.
895.
281.
9433
.310
.5N
DR
0.2
372.
680.
584
18.9
ND
R 0
.308
0.49
226
.113
.61.
2351
.36.
472.
25.
9938
.43-
4<
0.04
960.
169
4.63
7.36
2.62
46.3
12.6
0.38
74.
230.
8231
.80.
384
0.76
741
.423
.81.
6481
.310
.43.
489.
2859
6-7
< 0.
0586
0.14
4.12
6.71
2.06
43.3
10.9
0.39
64.
430.
6831
.90.
465
0.87
440
.323
1.33
75.2
8.08
2.95
7.95
50.9
9-10
ND
R 0
.067
0.21
75.
038.
53.
4453
.818
.50.
536
4.91
0.56
336
.30.
413
0.92
49.9
29.2
2.1
96.4
14.4
4.59
11.4
72.1
12-1
4<
0.05
890.
238
6.07
9.43
4.18
58.6
240.
752
6.47
0.44
845
.60.
527
1.25
65.6
39.1
2.66
123
20.4
6.34
13.6
95.9
14-1
6<
0.05
76N
DR
0.1
833.
415.
382.
8335
.218
.9N
DR
0.5
873.
550.
308
26.1
0.43
40.
837
39.6
22.5
1.53
74.4
13.9
4.78
7.92
63.4
18-2
0<
0.05
08<
0.04
691.
071.
590.
913
10.1
5.13
0.18
91.
520.
199
8.24
0.46
70.
403
13.8
8.09
0.59
724
.74.
651.
682.
7520
.225
-30
< 0.
0546
< 0.
0637
ND
R 0
.158
0.21
60.
097
0.92
1N
DR
0.3
42<
0.05
27N
DR
0.2
19N
DR
0.0
650.
638
0.35
< 0.
0511
1.1
0.60
2<
0.09
621.
890.
39N
DR
0.1
720.
255
1.33
50-5
5<
0.04
49<
0.04
490.
135
0.19
6N
DR
0.1
050.
985
0.39
9<
0.04
490.
166
ND
R 0
.045
0.53
40.
272
< 0.
0449
0.93
0.47
6<
0.04
491.
840.
421
ND
R 0
.120
0.23
21.
29
Cor
e 2 0-
1<
0.04
71N
DR
0.1
763.
556.
761.
5538
.18.
610.
202
1.39
0.21
217
.3N
DR
0.0
920.
235
25.2
11.6
1.3
44.5
6.44
2.52
7.98
26.4
1-2
ND
R 0
.065
ND
R 0
.345
5.68
10.9
3.07
63.1
16.2
0.34
72.
120.
275
33.5
ND
R 0
.095
ND
R 0
.433
43.6
17.8
2.26
75.2
114.
6412
.345
3-4
ND
R 0
.068
0.30
56.
2911
.62.
566
.115
.20.
331
2.34
0.28
829
.70.
148
0.39
242
.119
.62.
279
.29.
884.
1112
.548
.66-
7N
DR
0.0
950.
263
7.64
12.9
2.65
73.2
16.6
ND
R 0
.438
3.66
0.39
739
ND
R 0
.178
0.41
249
21.5
2.2
79.5
9.92
4.36
1346
.89-
10<
0.09
200.
505
10.3
18.1
4.31
99.7
25.3
ND
R 0
.563
3.86
0.46
458
.90.
235
0.63
361
.528
.32.
8811
014
.15.
9516
.870
.712
-14
0.1
0.56
59.
517
.64.
3894
.425
.40.
603
3.46
0.24
950
.40.
135
0.50
658
.126
.62.
7488
.314
.46.
5117
.158
.914
-16
< 0.
148
0.89
814
.827
.39.
0413
652
.71.
264.
28<
0.15
470
.50.
312
1.4
129
50.5
7.26
212
35.2
15.7
3614
014
-16
(Dup
licat
e)0.
189
1.24
15.5
29.2
9.22
155
571.
45.
29N
DR
0.1
4881
.6N
DR
0.3
001.
413
150
.66.
5519
434
.415
.436
.313
018
-20
0.13
90.
685
1729
.17.
9113
762
.21.
676.
160.
134
740.
378
1.42
168
69.8
8.02
234
39.5
18.8
50.2
154
25-3
00.
14<
0.04
860.
377
0.49
20.
265
2.93
2.16
0.15
90.
428
0.08
71.
750.
294
ND
R 0
.102
3.23
1.25
0.15
64.
350.
979
0.49
10.
781
2.89
35-4
0<
0.04
72<
0.04
72<
0.04
720.
098
< 0.
0472
0.41
0.25
1<
0.04
720.
128
< 0.
0472
0.20
40.
214
0.06
80.
378
ND
R 0
.169
< 0.
0472
0.76
6N
DR
0.2
09N
DR
0.0
66N
DR
0.1
170.
446
Cor
e 3 0-
1<
0.04
770.
131
2.63
4.83
0.88
725
.94.
010.
151
1.42
0.41
312
0.11
70.
232
14.8
7.4
0.85
326
.43.
241.
014.
9816
.51-
2<
0.04
690.
156
2.34
4.83
0.88
426
.54.
620.
164
1.25
0.39
910
.4N
DR
0.0
990.
244
14.1
6.36
0.84
325
.53.
311.
074.
6216
.23-
4<
0.04
720.
192
2.97
5.51
0.98
829
.64.
490.
148
1.53
0.47
312
.70.
108
0.24
715
.78.
080.
8727
.63.
821.
165.
4617
.53-
4 (D
uplic
ate)
< 0.
0469
0.10
42.
925.
30.
913
27.5
4.1
0.15
1.64
0.50
111
.90.
119
0.26
215
.27.
710.
932
26.3
3.51
1.07
5.06
16.9
6-7
< 0.
0473
0.10
52.
674.
850.
889
26.8
4.39
0.13
51.
460.
439
11.6
ND
R 0
.115
0.23
616
.18.
090.
887
27.2
3.56
1.18
5.51
17.5
9-10
< 0.
0466
0.13
93.
265.
310.
935
29.5
4.62
0.17
92.
770.
4314
.50.
125
0.31
317
.78.
521
28.5
3.55
1.13
5.9
1812
-14
0.05
60.
158
4.64
7.62
1.35
42.6
6.84
0.27
12.
240.
3723
.4N
DR
0.1
270.
405
26.2
13.2
1.36
425.
261.
728.
5526
.214
-16
ND
R 0
.059
0.29
45.
910
.91.
9261
.510
.90.
407
2.49
0.26
333
.2N
DR
0.1
050.
534
34.9
15.4
1.85
54.5
7.77
2.69
10.7
3518
-20
0.21
51.
0213
.426
.26.
3613
827
.80.
683
3.92
0.21
166
.70.
251
0.88
169
.933
.24.
0710
019
6.42
23.9
62.4
25-3
0N
DR
0.1
08<
0.06
1512
.922
.24.
7211
622
.10.
764.
25N
DR
0.1
6171
.6N
DR
0.2
821.
3881
.740
.95.
5712
120
.26.
9127
.376
.840
-45
0.16
81.
2917
.835
.47.
0923
045
.51.
215.
09<
0.11
482
0.44
12.
9320
383
.312
.531
853
18.8
67.1
189
Cor
e 4 1-
2<0
.052
00.
075
1.41
2.77
0.45
13.2
2.17
0.11
60.
492
0.19
34.
520.
067
ND
R 0
.143
7.98
3.44
0.59
814
.92.
310.
612.
558.
9414
-16
<0.0
494
ND
R 0
.051
1.58
2.81
0.48
413
.62.
170.
097
0.53
6N
DR
0.2
724.
7N
DR
0.0
83N
DR
0.1
417.
433.
86N
DR
0.5
2414
2.08
0.59
32.
48.
7414
-16
(Dup
licat
e)<0
.047
80.
191.
994.
240.
948
20.7
4N
DR
0.1
190.
64N
DR
0.2
447.
53<0
.047
80.
139
9.77
4.09
0.69
616
.52.
990.
818
3.25
10.3
30-3
5<0
.050
00.
154
2.34
4.58
0.76
823
.53.
930.
134
ND
R 0
.983
0.43
19.
66N
DR
0.1
05N
DR
0.2
0113
.75.
710.
954
25.3
3.56
0.94
94.
1915
.2
Cor
e 5 0-
1<
0.06
31<
0.06
053.
015.
81.
1429
.94.
75N
DR
0.1
931.
460.
768
14.8
ND
R 0
.185
0.31
215
7.76
0.93
226
2.99
14.
8116
.11-
2<0
.109
0.13
62.
494.
470.
726
3.69
0.14
91.
480.
768.
46<0
.116
<0.1
1110
.54.
940.
684
18.7
2.17
ND
R 0
.770
3.2
11.3
3-4
ND
R 0
.052
0.28
34.
829.
721.
9854
.98.
090.
285
2.19
1.6
25.4
0.19
90.
414
25.2
12.1
1.22
454.
981.
67.
7428
.26-
7<
0.06
51<
0.05
092.
414.
390.
8122
.63.
50.
123
1.22
0.72
612
.20.
110.
2512
.66.
40.
729
212.
430.
793
3.85
139-
10<
0.04
80<
0.05
182.
594.
850.
975
26.2
4.21
ND
R 0
.139
1.33
0.69
714
.3N
DR
0.1
43N
DR
0.2
7414
.47.
20.
8624
.12.
780.
983
4.37
1512
-14
< 0.
0592
< 0.
0484
3.98
8.16
2.01
428.
040.
232
1.71
0.80
219
.7N
DR
0.1
270.
377
21.1
10.5
1.49
355.
371.
97
21.3
14-1
6<0
.061
70.
299
5.43
10.2
1.73
59.4
9.15
ND
R 0
.299
3.2
1.56
22.9
0.25
5N
DR
0.3
9126
.812
.31.
6346
5.07
1.7
7.43
29.2
18-2
0<
0.07
330.
261
3.73
7.09
1.49
37.6
6.75
0.16
21.
950.
879
20N
DR
0.2
350.
4420
.510
.11.
4834
.44.
261.
696.
3521
.225
-30
0.07
6N
DR
0.3
416.
3111
.52.
5659
.110
.60.
308
2.32
0.71
131
.4N
DR
0.1
470.
541
3216
.42.
0953
.87.
322.
679.
833
.745
-50
0.09
40.
9210
.320
.14.
2212
526
.60.
622
5.17
ND
R 0
.234
57.6
0.21
51.
2281
.338
.84.
612
817
.16.
2122
.680
.7
Tab
le 7
: Con
tinue
d.Sa
mpl
e D
epth
(c
m)
CL3
-PC
B-
23C
L3-P
CB
-24
CL3
-PC
B-
25C
L3-P
CB
-26
/29
CL3
-PC
B-
27C
L3-P
CB
-31
CL3
-PC
B-
32C
L3-P
CB
-34
CL3
-PC
B-
35C
L3-P
CB
-36
CL3
-PC
B-
37C
L3-P
CB
-38
CL3
-PC
B-
39C
L4-P
CB
-40
/41/
71C
L4-P
CB
-42
CL4
-PC
B-
43C
L4-P
CB
-44
/47/
65C
L4-P
CB
-45
/51
CL4
-PC
B-
46C
L4-P
CB
-48
CL4
-PC
B-
49/6
9
Cor
e 6 0-
1<
0.05
63N
DR
0.1
031.
93.
770.
783
18.8
3.08
0.13
50.
826
0.57
28.
83N
DR
0.1
600.
199
4.55
0.52
916
1.75
0.68
33
10.1
1-2
< 0.
0466
0.07
21.
613.
050.
628
162.
550.
104
0.83
40.
558.
2N
DR
0.1
19N
DR
0.1
857.
434.
280.
425
14.5
1.6
0.59
42.
568.
93-
4<
0.06
33<
0.05
381.
983.
820.
728
203.
160.
086
0.85
90.
619
9.52
0.10
40.
173
9.81
5.01
0.58
17.2
2.07
0.74
93.
1911
.16-
7<
0.06
93N
DR
0.1
142.
164.
330.
809
22.8
3.55
0.09
31.
050.
7411
.1N
DR
0.1
600.
175
11.7
5.81
0.69
720
.52.
530.
827
3.83
13.1
9-10
< 0.
0488
ND
R 0
.186
2.48
4.94
1.03
26.6
4.22
0.15
1.07
0.73
812
.5N
DR
0.1
50N
DR
0.2
6613
.26.
50.
854
22.7
2.72
1.02
4.18
14.1
9-10
(Dup
licat
e)0.
068
ND
R 0
.148
2.91
5.65
0.89
526
.94.
140.
191
1.26
0.83
812
.50.
206
0.27
713
.46.
90.
832
24.1
2.69
0.99
24.
4615
.312
-14
< 0.
0650
0.14
33.
065.
641.
0429
.24.
49N
DR
0.1
961.
590.
968
14.2
ND
R 0
.106
ND
R 0
.436
14.5
7.36
< 0.
0469
24.5
2.81
0.98
94.
4515
.914
-16
< 0.
0472
0.17
22.
765.
060.
998
27.2
4.23
ND
R 0
.154
1.78
0.95
214
0.14
4N
DR
0.1
9914
.16.
96<
0.04
7223
.72.
841.
034.
2715
.718
-20
< 0.
0567
ND
R 0
.201
3.31
6.15
1.26
32.7
4.74
ND
R 0
.175
1.72
0.97
616
.60.
169
ND
R 0
.275
16.3
8.21
< 0.
0655
27.6
3.27
1.14
5.18
1825
-30
0.05
5N
DR
0.2
023.
998.
121.
1543
6.7
ND
R 0
.233
2.61
1.3
21.1
0.24
3N
DR
0.5
3016
.68.
51<
0.06
2428
3.19
1.14
5.21
17.2
40-4
5N
DR
0.0
830.
158
5.03
10.4
1.4
52.6
8.63
ND
R 0
.291
3.32
0.83
224
.20.
152
ND
R 0
.477
22.9
11<
0.05
1736
.44.
371.
586.
8523
.3
Cor
e 7 0-
1<
0.24
9<
0.21
91.
483.
09N
DR
0.5
9514
.42.
11<
0.24
50.
759
ND
R 0
.342
8.2
< 0.
255
< 0.
248
7.11
3.52
ND
R 0
.355
11.9
1.43
0.60
22.
328.
451-
2<0
.083
6N
DR
0.0
801.
422.
750.
512
152.
3N
DR
0.0
980.
650.
402
5.08
<0.0
890
0.21
26.
392.
970.
419
121.
39N
DR
0.4
612.
087.
643-
4<
0.35
3<
0.28
61.
332.
86N
DR
0.5
4614
.92.
1<
0.34
6N
DR
0.6
84<
0.34
68.
43<
0.36
1<
0.35
07.
713.
79N
DR
0.4
1412
.71.
46N
DR
0.5
512.
598.
13-
4 (D
uplic
ate)
< 0.
414
< 0.
292
2.12
3.77
ND
R 0
.633
19.4
2.78
< 0.
406
ND
R 1
.07
ND
R 0
.529
12.1
< 0.
424
< 0.
411
9.79
4.73
0.62
816
.32.
08N
DR
0.7
222.
9410
.46-
7<
0.32
2<
0.27
11.
442.
83N
DR
0.5
5616
2.26
< 0.
316
0.81
2<
0.31
58.
64<
0.32
9<
0.31
97.
363.
4N
DR
0.3
1713
.11.
530.
422.
428.
669-
10<
0.04
62N
DR
0.0
571.
021.
790.
439
9.48
1.52
0.06
50.
587
0.24
95.
610.
177
ND
R 0
.076
5.53
2.73
0.32
29.
411.
20.
414
1.63
5.97
12-1
4<
0.33
7<
0.21
81.
492.
750.
541
14.9
2.58
< 0.
331
ND
R 0
.610
< 0.
330
9.57
< 0.
345
< 0.
335
9.36
5.34
0.50
515
.92.
281.
23.
0610
.114
-16
<0.0
675
<0.0
537
1.45
2.61
0.49
815
.23.
23N
DR
0.1
120.
867
ND
R 0
.197
4.98
0.29
40.
169.
234.
380.
592
16.3
2.21
ND
R 0
.790
2.77
10.5
18-2
0<
0.40
7<
0.30
32.
985.
81N
DR
1.3
031
.25.
87<
0.39
9N
DR
1.2
6<
0.39
815
.5<
0.41
6<
0.40
416
.58.
31.
0126
4.09
1.52
5.55
16.4
25-3
0<
0.31
0<
0.24
9<
0.27
2<
0.30
3<
0.23
51.
49<
0.28
7<
0.30
4<
0.34
5<
0.30
40.
981
< 0.
318
< 0.
308
0.93
3N
DR
0.3
01<
0.16
71.
43N
DR
0.2
09<
0.18
2N
DR
0.2
801.
0740
-44
<0.0
500
<0.0
500
0.06
8N
DR
0.1
78<0
.050
00.
633
ND
R 0
.117
<0.0
500
0.07
1<0
.050
0N
DR
0.1
93N
DR
0.3
09<0
.050
00.
421
ND
R 0
.195
<0.0
500
0.81
10.
255
ND
R 0
.057
0.24
40.
464
Cor
e N
umbe
r/Sam
ple
De p
th (c
m)
CL3
-PC
B-
23C
L3-P
CB
-24
CL3
-PC
B-
25C
L3-P
CB
-26
/29
CL3
-PC
B-
27C
L3-P
CB
-31
CL3
-PC
B-
32C
L3-P
CB
-34
CL3
-PC
B-
35C
L3-P
CB
-36
CL3
-PC
B-
37C
L3-P
CB
-38
CL3
-PC
B-
39C
L4-P
CB
-40
/41/
71C
L4-P
CB
-42
CL4
-PC
B-
43C
L4-P
CB
-44
/47/
65C
L4-P
CB
-45
/51
CL4
-PC
B-
46C
L4-P
CB
-48
CL4
-PC
B-
49/6
9
8/1-
2<
0.08
290.
263
2.96
5.68
1.5
31.7
7.8
0.15
21.
420.
531
14.9
0.12
60.
348
16.1
7.96
0.79
528
.73.
81N
DR
1.2
84.
3117
.99/
1-2
< 0.
0843
ND
R 0
.195
3.64
7.53
1.57
40.5
6.96
0.18
22.
060.
789
23.2
ND
R 0
.174
0.45
620
.99.
540.
996
33.2
4.21
1.49
5.25
20.7
10/0
-1<
0.20
80.
283.
97.
12.
3841
.611
.40.
307
3.34
0.79
324
.8N
DR
0.2
690.
735
28.3
15.2
1.35
53.7
6.9
2.4
7.01
36.9
11/0
-1<
0.13
1N
DR
0.2
272.
925.
561.
5531
.68
0.17
81.
990.
629
17.7
ND
R 0
.271
ND
R 0
.374
18.7
10.2
1.04
34.9
4.58
1.67
5.34
22.8
12/0
-1<
0.09
450.
243
2.46
5.3
1.5
28.5
5.69
0.13
1.23
0.36
816
0.14
70.
3516
.37.
440.
935
28.3
4.25
1.57
4.37
17.2
13/0
-1<
0.07
23N
DR
0.1
411.
53.
160.
9218
.33.
710.
086
1.04
0.31
79.
770.
097
0.22
10.4
5.01
0.49
117
.62.
320.
863
2.6
10.4
14/0
-1<
0.05
35N
DR
0.2
133.
877.
091.
6840
.38.
280.
196
1.96
0.6
22.7
ND
R 0
.131
ND
R 0
.343
21.8
10.5
1.23
37.9
4.78
1.73
6.06
22.5
15/0
-1<
0.05
05N
DR
0.0
540.
853
1.67
0.42
58.
851.
61<
0.05
050.
435
0.25
3.53
< 0.
0505
ND
R 0
.070
4.08
2.1
0.3
7.69
1.06
0.36
31.
464.
6916
/0-1
< 0.
0501
0.19
32.
945.
751.
1128
.55.
070.
145
1.15
0.60
112
.40.
08N
DR
0.1
5411
.65.
650.
807
23.9
2.77
0.96
14.
1514
.117
/0-1
< 0.
159
ND
R 0
.267
4.52
8.5
1.84
45.3
8.87
ND
R 0
.250
ND
R 1
.84
ND
R 0
.802
21.2
ND
R 0
.177
0.38
124
.711
.81.
5544
.55.
771.
927.
1325
.418
/0-1
< 0.
0452
0.05
51.
052.
060.
404
10.6
1.94
0.07
10.
513
0.34
24.
45N
DR
0.0
70N
DR
0.0
835.
112.
540.
343
9.78
1.08
0.39
11.
726.
0519
/0-1
< 0.
0473
ND
R 0
.100
2.13
3.98
0.78
420
.33.
290.
097
1.02
0.56
98.
19N
DR
0.0
900.
176
9.1
4.65
0.58
116
.81.
940.
653
3.07
10.5
20/0
-1<
0.06
420.
265
4.83
9.33
2.13
51.2
9.88
0.24
12.
560.
714
26.1
0.14
5N
DR
0.4
7029
.514
1.57
51.9
6.2
2.19
7.86
29.5
21/0
-1<
0.26
7N
DR
0.4
627.
7613
.74.
482
.124
ND
R 0
.540
5.01
1.2
40.9
ND
R 0
.387
< 0.
267
54.3
28.7
ND
R 3
.58
118
15.1
5.17
15.8
75.5
22/0
-1<
0.13
0<
0.13
01.
943.
71.
120
5.3
< 0.
130
1.05
ND
R 0
.244
10.3
< 0.
130
< 0.
130
125.
94N
DR
0.8
0323
.22.
981.
043.
413
.5
A1
TOP
<
0.04
910.
208
2.02
4.41
0.78
523
.74.
03N
DR
0.1
350.
972
0.52
48.
01N
DR
0.0
94N
DR
0.2
8912
.25.
630.
782
22.6
3.23
0.91
64.
1614
.1A
1 B
OT
< 0.
0486
ND
R 0
.207
2.41
5.45
1.13
30.3
5.81
ND
R 0
.147
1.14
ND
R 0
.518
10.6
ND
R 0
.074
0.26
113
.76.
150.
821
23.3
3.65
1.28
4.57
14.5
B1
TOP
0.05
90.
333
2.14
5.46
1.42
28.7
6.65
0.16
20.
829
0.33
99.
92N
DR
0.0
630.
207
11.9
5.06
0.82
819
.23.
761.
284.
1611
.9B
1 B
OT
< 0.
0492
ND
R 0
.134
1.38
3.04
0.65
216
.43.
18N
DR
0.1
120.
719
ND
R 0
.417
6.38
ND
R 0
.078
0.11
7.3
3.36
0.39
513
.11.
860.
597
2.22
8.17
Sed
imen
t Tra
ps
Tab
le 7
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)C
L4-P
CB
-50
/53
CL4
-PC
B-
52C
L4-P
CB
-54
CL4
-PC
B-
55C
L4-P
CB
-56
CL4
-PC
B-
57C
L4-P
CB
-58
CL4
-PC
B-
59/6
2/75
CL4
-PC
B-
60C
L4-P
CB
-61
/70/
74/7
6C
L4-P
CB
-63
CL4
-PC
B-
64C
L4-P
CB
-66
CL4
-PC
B-
67C
L4-P
CB
-68
CL4
-PC
B-
72C
L4-P
CB
-73
CL4
-PC
B-
77C
L4-P
CB
-78
CL4
-PC
B-
79C
L4-P
CB
-80
Cor
e 1 0-
15.
3961
.7<
0.11
3N
DR
0.4
7537
.50.
28<
0.26
64.
7819
.713
12.
9918
.892
.51.
731.
010.
949
0.12
916
.5<
0.26
21.
88<
0.23
51-
25.
2459
.9N
DR
0.1
07N
DR
1.2
428
.9<
0.49
1<
0.48
74.
4814
.810
82.
2717
.978
.31.
240.
571
0.69
7<
0.07
2512
.2<
0.51
51.
63<
0.47
13-
49.
2490
.70.
127
0.90
646
.60.
363
0.41
87.
224
.917
14.
0625
.912
62.
41.
281.
410.
296
22.8
< 0.
113
2.23
< 0.
102
6-7
6.97
76.1
0.14
60.
986
52.8
ND
R 0
.432
ND
R 0
.578
6.5
25.5
178
3.77
23.9
133
2.24
1.4
1.34
0.29
122
.3<
0.21
02.
35<
0.18
89-
1011
.910
30.
197
0.98
552
.20.
357
0.44
28.
4826
.418
54.
1529
.214
32.
451.
491.
66N
DR
0.3
3125
.3<
0.12
32.
68<
0.11
012
-14
16.5
132
0.25
21.
1563
.90.
449
0.97
710
.729
.722
44.
8434
.117
52.
982.
212.
530.
567
31.8
ND
R 0
.110
3.49
ND
R 0
.135
14-1
611
84.5
0.15
2N
DR
1.5
636
.80.
291
0.61
66.
2516
.112
72.
8321
101
1.6
1.32
1.73
0.48
317
.1<
0.13
82.
310.
1418
-20
3.95
27.4
ND
R 0
.095
0.23
311
.50.
165
ND
R 0
.244
2.13
5.37
41.7
0.96
26.
8132
.20.
606
0.69
30.
678
0.16
66.
64N
DR
0.1
000.
916
< 0.
0893
25-3
00.
288
2.13
< 0.
0858
< 0.
162
0.89
< 0.
154
< 0.
160
0.20
80.
456
3.23
< 0.
148
0.62
62.
02<
0.13
6N
DR
0.1
66<
0.15
1<
0.06
590.
408
< 0.
154
< 0.
133
< 0.
141
50-5
50.
304
1.84
< 0.
0449
< 0.
0449
0.73
3<
0.04
49<
0.04
490.
160.
363
2.36
ND
R 0
.074
0.56
71.
78N
DR
0.0
610.
08<
0.04
49<
0.04
49N
DR
0.3
52<
0.04
490.
053
< 0.
0449
Cor
e 2 0-
15.
2356
0.11
1N
DR
1.0
027
.60.
223
ND
R 0
.169
4.09
16.6
105
2.18
18.9
62.2
1.82
ND
R 0
.348
0.42
20.
127.
4<
0.08
280.
897
0.62
91-
29.
710
00.
144
2.74
42.4
< 0.
324
0.34
77.
6523
.816
93.
2132
.610
12.
490.
537
0.71
< 0.
0474
14.4
< 0.
338
3.04
< 0.
316
3-4
9.36
120
ND
R 0
.151
1.4
42.9
0.34
40.
364
6.64
2519
03.
6234
104
2.99
0.55
0.71
30.
142
13.3
< 0.
118
2.34
< 0.
107
6-7
8.34
93.1
0.21
21.
7855
.2<
0.44
70.
485
7.62
3220
84.
5235
.212
93.
380.
678
0.86
70.
203
16.1
< 0.
449
2<
0.40
89-
1013
.615
60.
173
2.11
64.7
0.54
90.
679.
9837
.928
45.
2147
.616
04.
420.
927
1.2
0.28
923
.7<
0.19
62.
691.
3112
-14
1396
.80.
238
1.67
50.7
0.46
80.
429
9.36
30.6
193
4.15
39.5
126
3.8
0.88
41.
11N
DR
0.2
9620
.2<
0.15
8<
0.13
3<
0.14
414
-16
33.7
287
0.57
27.
0410
10.
758
1.06
20.5
56.7
407
8.28
87.9
249
6.6
1.92
2.46
< 0.
0476
30.3
< 0.
523
8.42
< 0.
489
14-1
6 (D
uplic
ate)
32.2
232
0.49
17.
1410
70.
886
1.28
2161
.340
28.
8483
.726
57.
452.
152.
67<
0.04
8334
.9<
0.34
26.
29<
0.32
018
-20
36.2
244
ND
R 0
.489
3.42
123
0.91
41.
5623
78.1
458
10.9
103
317
9.65
2.97
3.41
0.81
739
.8<
0.26
54.
9<
0.24
125
-30
0.94
63.
89N
DR
0.2
050.
088
1.67
< 0.
0486
< 0.
0486
0.36
61.
165.
950.
136
1.57
5.13
0.12
8N
DR
0.0
85N
DR
0.0
95<
0.04
861.
05<
0.04
86<
0.04
86<
0.04
8635
-40
ND
R 0
.147
0.63
1<
0.04
72<
0.04
720.
265
< 0.
0472
< 0.
0472
0.06
70.
134
0.80
2<
0.04
720.
223
0.63
< 0.
0472
ND
R 0
.083
< 0.
0472
< 0.
0472
ND
R 0
.137
< 0.
0472
< 0.
0472
< 0.
0472
Cor
e 3 0-
12.
5728
.60.
060.
497
17.3
0.23
8N
DR
0.0
922.
259.
3962
1.37
11.6
35.2
1.12
0.52
50.
308
< 0.
0477
4.44
< 0.
0794
0.50
6<
0.07
081-
22.
5730
.1N
DR
0.0
610.
743
15.6
< 0.
198
< 0.
203
2.26
8.38
59.7
1.29
11.3
34.4
0.94
0.24
40.
281
< 0.
0469
3.95
< 0.
206
0.82
2<
0.19
33-
42.
930
.1<
0.04
720.
561
17.7
0.16
80.
094
2.55
1064
.71.
4912
.838
1.13
0.29
80.
331
< 0.
0472
4.73
< 0.
0884
0.57
5<
0.07
873-
4 (D
uplic
ate)
2.64
29.5
ND
R 0
.058
0.47
717
.10.
140.
082.
489.
8164
.51.
4612
.236
.71.
110.
304
0.29
1<
0.04
694.
5<
0.06
420.
612
< 0.
0572
6-7
2.84
30.7
0.05
70.
639
18.2
0.18
0.08
22.
5510
.667
.71.
5712
.938
.81.
160.
269
0.29
2<
0.04
734.
52<
0.07
140.
654
< 0.
0636
9-10
3.14
29.4
ND
R 0
.064
0.57
518
.90.
150.
132
2.71
10.8
68.8
1.61
13.2
40.9
1.26
0.31
20.
392
< 0.
0466
5.19
< 0.
0905
0.69
6<
0.08
0612
-14
4.28
43.8
0.08
60.
8829
.90.
265
0.19
4.06
17.2
105
2.44
19.5
62.9
1.85
0.47
60.
5<
0.04
748.
46<
0.10
00.
963
< 0.
0892
14-1
66.
150
.60.
106
1.96
39.6
0.36
8N
DR
0.2
925.
8121
.513
03.
0425
.288
2.46
0.54
80.
713
< 0.
0475
11.5
< 0.
162
1.43
< 0.
152
18-2
013
.886
.50.
312.
5269
.50.
727
0.37
411
40.2
220
5.15
47.8
138
4.77
0.74
20.
984
< 0.
0473
17.8
< 0.
172
1.22
< 0.
153
25-3
014
.810
10.
312
3.51
91.6
0.74
90.
607
13.9
53.6
288
7.36
57.9
189
7.07
1.04
1.45
< 0.
0505
25.4
< 0.
350
ND
R 2
.50
< 0.
306
40-4
541
.433
80.
5910
.218
71.
161
27.3
106
620
1414
238
09.
011.
22.
23<
0.04
7035
.9<
0.55
36.
18<
0.52
5
Cor
e 4 1-
2N
DR
1.4
416
.1<0
.052
0<0
.153
8.19
<0.1
61<0
.158
1.3
3.84
290.
746.
1217
.90.
463
ND
R 0
.201
0.14
9<0
.052
01.
7<0
.162
0.27
5<0
.147
14-1
61.
4614
0.07
9<0
.080
08.
7<0
.075
9<0
.076
31.
274.
7831
.40.
799
6.12
19.1
0.55
80.
182
0.19
1<0
.049
41.
88<0
.080
80.
271
<0.0
745
14-1
6 (D
uplic
ate)
1.92
17.7
0.11
2<0
.106
10.4
<0.1
11<0
.109
1.61
5.28
350.
915
7.17
22.6
0.64
80.
184
0.20
40.
272.
21<0
.111
0.31
7<0
.101
30-3
52.
5530
.90.
141
<0.1
2815
.6<0
.135
<0.1
322.
238.
2958
.61.
3710
.835
.30.
967
0.29
60.
286
<0.0
500
3.6
<0.1
350.
597
<0.1
23
Cor
e 5 0-
12.
5227
.90.
067
< 0.
135
20.6
0.20
2<
0.14
82.
6112
.669
.21.
5611
.743
.51.
240.
288
0.32
7<
0.04
866.
5<
0.13
5N
DR
0.5
78<
0.11
81-
21.
6418
.7<0
.052
1<0
.113
15.9
ND
R 0
.133
<0.1
081.
839.
8656
.71.
168.
3836
.70.
902
0.26
60.
288
<0.0
521
3.79
<0.1
160.
733
<0.1
083-
44.
2246
.90.
096
1.42
34.1
0.26
5<
0.19
54.
1719
126
2.67
19.7
76.9
1.95
0.54
80.
607
< 0.
0488
10.5
< 0.
183
0.76
1<
0.17
16-
7N
DR
1.8
421
.5N
DR
0.0
56<
0.07
4417
.10.
156
0.13
62.
0510
.258
.51.
399.
436
.91.
090.
287
0.30
1<
0.05
095.
02<
0.07
44N
DR
0.5
56<
0.06
519-
102.
2824
.40.
068
< 0.
0803
20.5
0.13
6N
DR
0.1
272.
312
.267
.81.
6610
.742
.91.
260.
311
0.34
3<
0.04
806.
16<
0.08
02N
DR
0.6
79<
0.07
0212
-14
4.05
34.5
ND
R 0
.114
< 0.
167
25.4
0.19
< 0.
183
3.44
15.8
84.4
2.02
15.5
53.1
1.81
0.35
50.
44<
0.04
847.
33<
0.16
70.
688
< 0.
146
14-1
64
45.8
0.07
2<0
.117
37.1
ND
R 0
.295
<0.1
114.
4923
133
3.07
20.3
87.3
2.38
ND
R 0
.565
0.72
6<0
.046
410
.2<0
.120
1.28
<0.1
1218
-20
3.55
33.2
0.10
51.
1726
.50.
238
0.24
53.
4716
.188
.22.
0315
.156
.91.
790.
392
0.51
7<
0.04
808.
48<
0.17
21.
14<
0.15
925
-30
6.03
53.3
0.11
41.
9641
.60.
408
0.28
95.
4225
.313
93.
2623
.390
.12.
940.
470.
745
< 0.
0478
13.2
< 0.
172
1.19
< 0.
159
45-5
013
.111
7N
DR
0.2
90<0
.235
101
ND
R 0
.710
ND
R 0
.510
11.5
59.3
335
7.18
52.8
230
5.42
ND
R 0
.961
1.45
<0.0
529
24.6
<0.2
372.
99<0
.219
Tab
le 7
: Con
tinue
d.Sa
mpl
e D
epth
(c
m)
CL4
-PC
B-
50/5
3C
L4-P
CB
-52
CL4
-PC
B-
54C
L4-P
CB
-55
CL4
-PC
B-
56C
L4-P
CB
-57
CL4
-PC
B-
58C
L4-P
CB
-59
/62/
75C
L4-P
CB
-60
CL4
-PC
B-
61/7
0/74
/76
CL4
-PC
B-
63C
L4-P
CB
-64
CL4
-PC
B-
66C
L4-P
CB
-67
CL4
-PC
B-
68C
L4-P
CB
-72
CL4
-PC
B-
73C
L4-P
CB
-77
CL4
-PC
B-
78C
L4-P
CB
-79
CL4
-PC
B-
80
Cor
e 6 0-
11.
5816
.7N
DR
0.0
540.
573
11.8
< 0.
135
< 0.
165
1.57
7.35
41.3
0.95
97.
1924
.60.
739
0.22
10.
219
< 0.
0469
3.66
< 0.
139
0.38
5<
0.12
91-
2N
DR
1.3
214
.7<
0.04
660.
444
11.5
0.10
7<
0.09
551.
347.
0338
.40.
928
6.45
23.7
0.80
60.
228
0.24
9<
0.04
663.
45<
0.08
070.
322
< 0.
0746
3-4
ND
R 1
.63
17.8
< 0.
0473
0.65
212
.90.
168
< 0.
189
1.75
8.06
44.4
0.96
47.
4927
.60.
787
0.24
10.
211
< 0.
0473
3.85
< 0.
159
0.46
5<
0.14
76-
71.
9821
.2<
0.04
680.
858
15<
0.12
4<
0.15
22.
049.
4652
.71.
198.
9931
.81.
060.
232
0.29
1<
0.04
684.
58<
0.12
8N
DR
0.4
45<
0.11
89-
102.
5424
.8<
0.04
880.
671
16.8
0.17
3<
0.20
42.
0510
.158
.31.
3610
.135
.21.
120.
280.
291
< 0.
0488
5.36
< 0.
173
0.53
7<
0.16
09-
10 (D
uplic
ate)
2.43
26.5
ND
R 0
.079
0.62
817
.5N
DR
0.1
61<
0.11
62.
2711
60.4
1.48
10.6
36.5
1.24
0.24
50.
393
< 0.
0488
5.59
< 0.
0977
ND
R 0
.582
< 0.
0903
12-1
42.
4724
.8<
0.04
69<
0.14
318
.5N
DR
0.2
32<
0.14
12.
2811
.467
.11.
5811
39.7
1.17
ND
R 0
.287
0.35
0.48
6.02
< 0.
134
ND
R 0
.581
< 0.
123
14-1
62.
3725
.20.
053
< 0.
171
17.9
< 0.
159
< 0.
168
2.41
1163
.51.
5310
.438
.31.
080.
252
ND
R 0
.351
0.46
95.
97<
0.16
0N
DR
0.5
32<
0.14
718
-20
2.54
28.1
ND
R 0
.048
< 0.
249
21.1
< 0.
231
< 0.
245
2.76
13.3
74.7
1.75
12.3
45.6
1.21
0.30
90.
37N
DR
0.5
586.
63<
0.23
30.
705
< 0.
214
25-3
02.
5927
.8<
0.05
32<
0.21
126
.70.
272
< 0.
208
2.67
16.9
93.2
2.17
12.1
57.7
1.64
ND
R 0
.489
0.49
50.
542
8.08
< 0.
197
0.77
6<
0.18
240
-45
3.59
36.4
0.06
1<
0.31
633
0.30
3<
0.31
13.
7420
.211
42.
8115
.870
.22.
220.
425
0.66
50.
777
9.21
< 0.
295
1.04
< 0.
272
Cor
e 7 0-
11.
1212
.6<
0.12
3<
0.30
89.
33<
0.27
8<
0.29
11.
236.
0133
.80.
726
5.17
19.5
0.59
4<
0.26
3<
0.26
4<
0.09
91N
DR
2.9
0<
0.30
7N
DR
0.4
41<
0.26
61-
21.
1413
.6<0
.047
4<0
.201
9.01
<0.1
92<0
.192
1.1
5.38
32.7
ND
R 0
.714
5.26
200.
421
<0.1
79<0
.179
<0.0
474
2.1
<0.2
060.
345
<0.1
923-
41.
2512
.3<
0.15
8<
0.31
510
.7<
0.28
5<
0.29
9N
DR
1.1
36.
6237
0.84
95.
6923
.50.
535
< 0.
270
< 0.
271
< 0.
116
3.18
< 0.
315
< 0.
259
< 0.
273
3-4
(Dup
licat
e)1.
7116
< 0.
120
< 0.
402
13.8
< 0.
363
< 0.
381
1.6
8.53
44.8
1.12
7.14
26.8
0.89
3<
0.34
4<
0.34
5<
0.08
574.
86<
0.40
20.
478
< 0.
348
6-7
ND
R 1
.42
15.6
< 0.
0932
< 0.
339
9.9
< 0.
306
< 0.
321
1.16
5.7
37.3
0.88
35.
4321
.8N
DR
0.7
99<
0.29
0<
0.29
1<
0.07
363.
11<
0.33
80.
512
< 0.
293
9-10
1.09
9.25
< 0.
0462
< 0.
0831
7.01
< 0.
0809
< 0.
0856
0.87
34.
2924
.30.
565
4.16
14.5
0.45
2<
0.07
83N
DR
0.1
08<
0.04
622.
36<
0.07
890.
255
< 0.
0738
12-1
41.
814
.9<
0.21
3<
0.21
011
.7<
0.19
0<
0.19
91.
477.
3940
.11.
126.
4125
.60.
653
0.28
9N
DR
0.2
01<
0.14
73.
81<
0.21
00.
389
< 0.
182
14-1
61.
8316
.3<0
.050
1<0
.083
811
0.09
9N
DR
0.1
071.
496.
2538
.20.
865
6.57
23.9
0.71
90.
217
0.32
8<0
.050
12.
42<0
.086
0N
DR
0.5
96<0
.080
118
-20
3.3
250.
167
< 0.
413
20.6
< 0.
373
< 0.
391
2.88
12.3
66.5
1.39
1241
.3N
DR
1.1
0<
0.35
4<
0.35
4<
0.12
45.
37<
0.41
2N
DR
0.6
10<
0.35
725
-30
< 0.
155
1.73
< 0.
194
< 0.
137
0.87
5<
0.12
4<
0.13
00.
181
0.62
13.
53<
0.12
20.
562.
04<
0.11
2<
0.11
8<
0.11
8<
0.12
4N
DR
0.3
35<
0.13
7<
0.11
3<
0.11
940
-44
ND
R 0
.160
0.76
7<0
.050
0<0
.050
00.
58<0
.050
0<0
.050
00.
072
0.30
71.
79<0
.050
0N
DR
0.2
901.
04N
DR
0.0
55<0
.050
0<0
.050
0<0
.050
0N
DR
0.1
77<0
.050
0<0
.050
0<0
.050
0
Cor
e N
umbe
r/Sam
ple
De p
th (c
m)
CL4
-PC
B-
50/5
3C
L4-P
CB
-52
CL4
-PC
B-
54C
L4-P
CB
-55
CL4
-PC
B-
56C
L4-P
CB
-57
CL4
-PC
B-
58C
L4-P
CB
-59
/62/
75C
L4-P
CB
-60
CL4
-PC
B-
61/7
0/74
/76
CL4
-PC
B-
63C
L4-P
CB
-64
CL4
-PC
B-
66C
L4-P
CB
-67
CL4
-PC
B-
68C
L4-P
CB
-72
CL4
-PC
B-
73C
L4-P
CB
-77
CL4
-PC
B-
78C
L4-P
CB
-79
CL4
-PC
B-
80
8/1-
23.
235
.7N
DR
0.0
840.
6718
.8<
0.15
9<
0.16
42.
4711
.572
.71.
3111
.644
.21.
030.
272
0.29
1<
0.08
296.
05<
0.17
40.
749
< 0.
149
9/1-
23.
736
0.08
60.
912
27.5
0.22
70.
266
3.16
17.6
98.5
1.99
1468
.61.
610.
474
0.49
1<
0.08
439.
52<
0.17
90.
937
< 0.
154
10/0
-15.
860
.6<
0.20
8<
0.40
633
.7<
0.37
50.
451
4.71
18.8
124
2.61
17.5
88.9
1.69
0.93
10.
862
< 0.
208
14.9
< 0.
410
1.82
< 0.
352
11/0
-14.
0537
.6<
0.13
1<
0.21
121
.8<
0.19
5N
DR
0.2
043.
2813
.582
1.9
12.3
57.8
1.24
0.51
90.
499
< 0.
131
9.63
< 0.
214
0.89
8<
0.18
312
/0-1
4.07
38.8
ND
R 0
.124
< 0.
143
19N
DR
0.1
40N
DR
0.1
412.
7511
.973
1.44
11.2
50.4
1.15
0.29
80.
387
< 0.
0945
7.18
< 0.
145
0.78
< 0.
124
13/0
-12.
1318
.8<
0.07
230.
444
12.1
0.09
< 0.
0896
1.59
7.72
43.7
1.03
6.82
32.1
0.68
10.
199
0.24
< 0.
0723
4.3
< 0.
0949
0.42
7<
0.08
1514
/0-1
3.83
39.6
0.08
41.
1227
.20.
201
< 0.
125
3.49
16.3
96.5
1.99
16.7
62.1
1.49
0.42
20.
435
< 0.
0535
8.9
< 0.
128
0.71
9<
0.11
115
/0-1
0.83
88.
48<
0.05
050.
177
4.4
< 0.
0878
< 0.
0900
0.70
32.
7316
.50.
407
3.18
9.31
0.27
5<
0.08
31<
0.08
30<
0.05
051.
18<
0.09
19N
DR
0.1
64<
0.07
9516
/0-1
2.26
29N
DR
0.0
58<
0.12
613
.1<
0.12
1<
0.11
91.
938.
6253
.41.
29.
2529
.60.
789
0.21
30.
259
< 0.
0501
3.81
< 0.
129
0.30
9<
0.11
017
/0-1
4.87
47.2
< 0.
130
< 0.
324
24.2
< 0.
311
< 0.
307
3.95
15.4
93.9
1.66
17.8
63.7
1.19
0.42
4N
DR
0.4
26<
0.13
08.
31<
0.33
3N
DR
0.6
30<
0.28
418
/0-1
0.91
811
< 0.
0452
< 0.
131
5.59
< 0.
126
< 0.
124
0.87
63.
5220
.30.
443.
9511
.40.
331
< 0.
135
< 0.
127
< 0.
0452
1.72
< 0.
135
0.17
8<
0.11
519
/0-1
1.61
180.
051
< 0.
246
9.79
< 0.
236
< 0.
233
1.52
6.14
37.4
0.86
57.
1322
.50.
631
< 0.
253
< 0.
238
< 0.
0473
3.05
< 0.
253
ND
R 0
.260
< 0.
216
20/0
-15.
3453
.1N
DR
0.0
941.
6532
< 0.
209
< 0.
207
4.54
21.3
120
2.52
19.4
76.7
1.71
0.50
30.
543
< 0.
0611
9.91
< 0.
225
0.51
7<
0.19
221
/0-1
1315
2<
0.26
7<
0.86
752
.4<
0.83
2<
0.82
19.
6531
.819
54.
2237
.511
92.
41.
771.
4<
0.26
722
.2<
0.89
2N
DR
1.8
7<
0.76
122
/0-1
2.7
26.5
< 0.
130
< 0.
206
13.1
< 0.
197
< 0.
195
1.95
8.65
48.4
1.25
8.32
33.6
ND
R 0
.688
0.25
7N
DR
0.2
56<
0.13
04.
41<
0.21
2N
DR
0.4
17<
0.18
0
A1
TOP
2.
3827
.3N
DR
0.0
630.
618
12.9
< 0.
305
< 0.
306
2.06
6.53
47.9
1.11
9.52
28.4
0.79
7<
0.26
7<
0.29
6<
0.04
913.
04<
0.30
80.
586
< 0.
292
A1
BO
T2.
6426
.60.
068
0.59
114
.9<
0.16
1<
0.16
22.
098.
0850
.51.
1310
.531
.20.
817
ND
R 0
.224
0.25
2<
0.04
863.
35<
0.16
30.
496
< 0.
154
B1
TOP
2.63
20.8
0.06
70.
633
11.8
< 0.
128
< 0.
128
1.97
6.87
39.1
0.93
78.
8524
.20.
732
ND
R 0
.123
ND
R 0
.154
< 0.
0489
2.84
< 0.
129
0.35
5<
0.12
2B
1 B
OT
1.36
15.2
< 0.
0492
0.54
98.
94N
DR
0.0
74<
0.06
421.
225.
0830
.10.
702
5.58
19.5
0.55
2N
DR
0.1
780.
152
0.06
62.
54<
0.06
450.
294
< 0.
0612
Sed
imen
t Tra
ps
Tab
le 7
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)C
L4-P
CB
-81
CL5
-PC
B-
82C
L5-P
CB
-83
/99
CL5
-PC
B-
84C
L5-P
CB
-85
/116
/117
CB
-86
/87/
97/1
08/1
19/1
25
CL5
-PC
B-
88/9
1C
L5-P
CB
-89
CL5
-PC
B-
90/1
01/1
13C
L5-P
CB
-92
CL5
-PC
B-
93/9
5/98
/100
/102
CL5
-PC
B-9
4C
L5-P
CB
-96
CL5
-PC
B-
103
CL5
-PC
B-
104
CL5
-PC
B-
105
CL5
-PC
B-
106
CL5
-PC
B-
107/
124
Cor
e 1 0-
1N
DR
0.4
8015
.293
.824
.827
.678
.915
.11.
2611
320
.778
.70.
563
ND
R 0
.536
1.02
ND
R 0
.098
63.3
< 0.
184
4.91
1-2
< 0.
470
12.1
7021
.621
.763
.711
.91.
2593
.616
.467
.60.
456
0.48
ND
R 0
.848
< 0.
0725
52.3
< 0.
336
3.84
3-4
0.53
318
.512
430
.935
.494
20.3
1.84
143
25.1
105
0.74
30.
842
1.47
< 0.
0496
76.8
< 0.
139
5.69
6-7
ND
R 0
.583
1711
527
3389
.417
.31.
6813
122
.386
.90.
680.
591
1.2
< 0.
0482
72<
0.06
476.
339-
100.
584
19.2
131
3434
.495
22.7
1.92
148
26.4
109
0.79
40.
928
1.82
< 0.
0497
74.9
< 0.
141
5.7
12-1
40.
749
20.8
161
42.2
38.5
110
29.8
2.27
175
31.6
136
1.06
1.22
2.61
ND
R 0
.055
85.7
< 0.
173
6.37
14-1
60.
458
13.3
99.2
31.5
23.8
72.2
20.6
1.61
120
22.4
950.
813
0.84
1.91
< 0.
0576
54.3
< 0.
180
4.16
18-2
0N
DR
0.1
814.
1135
.59.
197.
3422
.47.
090.
515
386.
7731
.30.
306
0.29
90.
852
< 0.
0469
17<
0.08
391.
2425
-30
< 0.
152
0.38
72.
3N
DR
0.9
280.
622.
480.
537
< 0.
0748
3.29
0.57
22.
86<
0.07
76<
0.04
61N
DR
0.0
69<
0.04
611.
35<
0.08
310.
198
50-5
5<
0.04
490.
295
1.74
0.63
50.
492
1.44
ND
R 0
.398
< 0.
0722
2.08
0.41
1.86
< 0.
0703
< 0.
0449
< 0.
0616
< 0.
0449
0.88
4<
0.12
0<
0.12
4
Cor
e 2 0-
10.
278
14.5
6930
.522
.679
.414
.41.
6912
322
.291
.50.
498
0.60
71.
01<
0.04
7147
.2<
0.16
04.
441-
2N
DR
0.5
7229
.212
564
.642
.315
528
.83.
2423
041
.620
4N
DR
0.9
511.
281.
93<
0.04
7410
4<
0.50
79.
493-
4N
DR
0.5
6233
.615
080
.548
.919
436
.33.
8731
754
.727
31.
341.
332.
36N
DR
0.0
5612
5<
1.44
9.36
6-7
0.69
230
.314
161
.246
.515
729
.13.
5322
539
.717
40.
959
1.1
2.27
< 0.
0478
97.9
< 0.
254
8.67
9-10
0.83
348
.324
711
176
.527
453
.86
446
77.3
357
1.82
2.12
3.62
< 0.
0491
192
< 0.
994
13.1
12-1
40.
676
30.8
182
7549
.616
436
.55.
4128
050
.323
41.
331.
433.
51<
0.04
6211
5<
0.57
37.
7414
-16
ND
R 1
.43
77.9
366
188
117
425
89.2
11.5
638
123
580
3.3
4.05
7.74
ND
R 0
.086
253
< 0.
338
23.5
14-1
6 (D
uplic
ate)
ND
R 1
.66
66.7
310
152
97.5
346
73.1
10.9
554
103
512
2.77
3.49
7.55
0.07
421
3<
0.32
719
.318
-20
1.52
73.1
353
164
112
342
82.3
13.7
546
103
473
3.33
3.63
8.35
ND
R 0
.109
209
< 0.
718
17.5
25-3
0N
DR
0.0
871.
456.
683.
872.
596.
7N
DR
2.0
70.
434
6.95
1.35
11.1
ND
R 0
.101
0.11
20.
290.
068
4.56
< 0.
0848
ND
R 0
.243
35-4
0<
0.04
72N
DR
0.1
250.
730.
312
0.20
10.
567
0.17
6<
0.06
750.
877
0.17
40.
979
< 0.
0657
< 0.
0472
< 0.
0576
< 0.
0472
0.30
2<
0.10
8<
0.11
2
Cor
e 3 0-
10.
165
6.15
31.9
10.2
9.99
33.2
5.88
0.56
646
.78.
4632
0.25
10.
275
0.43
2<
0.04
7723
.2<
0.12
51.
91-
2N
DR
0.3
127.
5637
.512
.912
.645
.16.
960.
709
62.4
10.9
37.7
0.27
7N
DR
0.2
860.
395
< 0.
0469
32.4
< 0.
171
2.93
3-4
0.13
86.
1632
.410
.410
34.6
5.92
0.61
48.3
8.65
33.4
0.24
0.31
20.
407
< 0.
0472
24<
0.09
022.
043-
4 (D
uplic
ate)
0.14
66.
4234
10.6
10.2
34.9
6.35
0.6
48.4
8.64
34.6
0.27
40.
312
0.38
7<
0.04
6924
.5<
0.06
391.
96-
70.
185
6.92
35.7
11.6
10.9
38.1
6.8
0.66
252
.99.
3936
.80.
290.
307
0.41
4<
0.04
7325
.9<
0.10
32.
149-
100.
204
7.13
37.5
1211
.638
6.87
0.67
252
.89.
6137
.60.
288
0.35
10.
482
< 0.
0466
26.1
< 0.
0868
2.23
12-1
40.
347
10.7
53.4
17.7
16.9
55.4
10.2
1.13
72.6
1353
.30.
374
0.47
90.
682
< 0.
0474
39.4
< 0.
127
3.23
14-1
6N
DR
0.5
7611
.355
.418
.618
.156
.310
.31.
1975
.913
.855
.1<
1.04
0.54
4<
0.91
4<
0.06
6443
.6<
0.28
83.
4818
-20
0.66
316
.677
.727
.324
.776
.915
.72.
0898
17.9
77.7
0.64
20.
833
1.2
< 0.
0473
57.2
< 0.
0721
4.42
25-3
01.
2724
.519
537
.938
.110
724
< 0.
175
137
25.9
105
0.99
71.
341.
89<
0.05
8583
.9<
0.15
36.
5340
-45
ND
R 1
.59
66.3
279
133
98.7
320
68.2
9.44
404
74.2
330
2.64
3.98
ND
R 3
.43
ND
R 0
.055
191
< 0.
722
16.6
Cor
e 4 1-
2<0
.144
2.32
13.4
4.42
4.18
11.8
2.71
<0.1
7417
3.48
12.8
<0.1
64N
DR
0.1
560.
163
<0.0
768
8.23
<0.2
25N
DR
0.7
5714
-16
0.06
82.
5713
4.55
4.43
13.1
2.82
<0.0
823
18.6
3.56
13.2
ND
R 0
.118
ND
R 0
.176
ND
R 0
.170
<0.0
494
8.66
<0.0
898
0.78
514
-16
(Dup
licat
e)0.
112
2.84
13.8
4.61
4.63
13.3
2.7
0.27
918
.13.
3713
.6<0
.139
ND
R 0
.154
ND
R 0
.190
<0.0
499
9.71
<0.1
880.
802
30-3
50.
128
5.37
27.7
9.89
8.77
28.3
5.71
0.60
440
.87.
5630
.2N
DR
0.2
760.
270.
367
<0.0
519
20<0
.217
2.05
Cor
e 5 0-
1N
DR
0.2
795.
3749
.47.
589.
626
.44.
56<
0.09
4036
.56.
6922
.60.
194
ND
R 0
.196
0.28
3<
0.05
3224
.2<
0.09
671.
71-
20.
136
4.27
20.5
5.59
6.94
203.
280.
316
30.3
5.29
19N
DR
0.1
450.
142
ND
R 0
.176
<0.0
521
15.7
<0.1
701.
543-
4N
DR
0.3
686.
7441
.711
13.9
38.7
6.74
0.63
555
.59.
5234
.60.
23N
DR
0.2
940.
402
< 0.
0488
37.5
< 0.
116
2.5
6-7
ND
R 0
.168
4.35
41.2
6.19
8.08
22.1
3.8
< 0.
0786
29.5
5.23
18.4
ND
R 0
.126
0.15
90.
238
< 0.
0542
20.5
< 0.
164
1.54
9-10
0.13
25.
0550
7.67
9.83
26.8
4.48
< 0.
0904
36.5
6.43
22.4
ND
R 0
.195
ND
R 0
.233
0.29
9<
0.04
8925
.3<
0.13
31.
8512
-14
0.29
56.
557
.59.
4711
.131
.85.
48<
0.08
5742
.67.
627
.1N
DR
0.1
770.
297
ND
R 0
.329
< 0.
0534
30.8
< 0.
107
2.11
14-1
60.
247
1154
.215
.219
.253
.18.
280.
874
73.9
13.1
44.7
0.33
9N
DR
0.4
040.
524
<0.0
464
39.3
<0.2
993.
5718
-20
ND
R 0
.384
7.06
35.8
9.83
12.4
33.3
5.63
0.58
644
.97.
9828
.60.
261
0.28
30.
396
ND
R 0
.067
31.3
< 0.
122
2.54
25-3
0N
DR
0.5
3011
.154
.315
.618
.752
.19.
530.
994
69.3
12.8
48.5
0.34
70.
408
0.56
3<
0.05
6247
.6<
0.11
13.
3245
-50
0.88
627
107
39.3
38.9
111
21.1
2.94
144
27.2
103
0.75
31.
191.
31<0
.052
987
.8<0
.643
5.81
Tab
le 7
: Con
tinue
d.Sa
mpl
e D
epth
(c
m)
CL4
-PC
B-
81C
L5-P
CB
-82
CL5
-PC
B-
83/9
9C
L5-P
CB
-84
CL5
-PC
B-
85/1
16/1
17C
B-
86/8
7/97
/108
/119
/125
CL5
-PC
B-
88/9
1C
L5-P
CB
-89
CL5
-PC
B-
90/1
01/1
13C
L5-P
CB
-92
CL5
-PC
B-
93/9
5/98
/100
/102
CL5
-PC
B-9
4C
L5-P
CB
-96
CL5
-PC
B-
103
CL5
-PC
B-
104
CL5
-PC
B-
105
CL5
-PC
B-
106
CL5
-PC
B-
107/
124
Cor
e 6 0-
1N
DR
0.1
522.
9816
.34.
25.
6315
.62.
550.
2621
.63.
813
.2N
DR
0.1
20N
DR
0.1
130.
213
< 0.
0469
14<
0.12
71.
051-
2N
DR
0.1
983.
1315
.54.
065.
1314
.52.
530.
2520
.33.
3412
.20.
110.
091
0.18
4<
0.04
6613
.5<
0.11
41.
033-
4<
0.17
23.
3817
.34.
385.
6316
.12.
780.
301
22.9
3.73
13.6
< 0.
0923
ND
R 0
.098
0.16
9<
0.05
1215
.1<
0.15
30.
999
6-7
ND
R 0
.170
3.77
19.9
5.27
6.83
18.8
3.01
ND
R 0
.292
25.9
4.53
16.8
ND
R 0
.124
0.16
7N
DR
0.2
11<
0.04
7717
.8<
0.13
61.
249-
10N
DR
0.2
184.
726
.17.
438.
6925
.54.
39N
DR
0.4
3034
.95.
9121
.50.
141
0.23
5N
DR
0.2
50<
0.04
8821
.3<
0.11
11.
659-
10 (D
uplic
ate)
ND
R 0
.174
4.78
26.3
7.16
8.45
254.
41N
DR
0.4
3435
.36.
0521
.30.
155
ND
R 0
.169
0.25
4<
0.04
8821
.9<
0.08
771.
712
-14
ND
R 0
.240
4.89
25.4
6.68
8.54
254.
27<
0.07
8133
.86.
1421
.1N
DR
0.1
740.
189
0.27
6<
0.04
6922
.6<
0.10
61.
9314
-16
0.23
34.
8224
.26.
578.
4324
.34.
18<
0.05
0334
.85.
7720
.9N
DR
0.1
68N
DR
0.2
050.
337
< 0.
0472
22.6
< 0.
148
1.78
18-2
0N
DR
0.4
095.
2528
.97.
299.
8228
4.73
0.54
838
.46.
3922
.70.
246
0.18
8N
DR
0.2
92<
0.04
8826
.7<
0.22
21.
7625
-30
0.28
44.
9724
.16.
759.
0424
.54.
09<
0.07
1133
.56.
0920
.7N
DR
0.1
490.
216
ND
R 0
.225
< 0.
0521
29<
0.16
62.
3140
-45
< 0.
311
6.26
30.8
8.54
1131
.35.
03<
0.05
4042
.37.
7126
.3N
DR
0.2
210.
249
0.38
8<
0.04
8132
.8<
0.17
3N
DR
2.5
4
Cor
e 7 0-
1<
0.33
4N
DR
2.1
311
3.43
ND
R 4
.19
10.8
1.9
< 0.
361
16.3
ND
R 2
.56
10.7
< 0.
352
< 0.
168
< 0.
292
< 0.
197
12.1
< 0.
233
0.72
31-
2<0
.156
2.81
13.9
4.43
4.7
14.2
2.46
0.23
320
.93.
7413
.30.
084
0.12
ND
R 0
.151
<0.0
474
9.81
<0.0
818
1.01
3-4
< 0.
333
ND
R 2
.62
11.9
3.54
ND
R 4
.56
11.9
1.82
< 0.
329
16.5
2.54
9.87
< 0.
321
< 0.
130
< 0.
267
< 0.
158
12.2
< 0.
247
0.84
3-4
(Dup
licat
e)<
0.42
73.
3117
.14.
545.
917
.42.
86<
0.26
323
.13.
9514
.1<
0.25
7<
0.16
5<
0.21
3<
0.21
718
.3<
0.48
0N
DR
1.0
36-
7<
0.36
52.
8216
.54.
715.
4817
.82.
77<
0.20
325
.54.
815
.6<
0.19
8<
0.16
7<
0.16
4<
0.20
216
< 0.
288
ND
R 1
.29
9-10
ND
R 0
.107
1.86
10.1
2.64
3.31
9.48
1.61
< 0.
0462
12.8
2.29
8.47
ND
R 0
.088
0.08
50.
155
< 0.
0462
8.22
< 0.
0734
0.7
12-1
4<
0.21
82.
6613
4.78
4.16
12.5
2.64
< 0.
226
16.1
3.34
12.4
< 0.
221
< 0.
150
< 0.
183
< 0.
193
11.4
< 0.
287
0.84
14-1
60.
126
3.19
16.8
5.58
4.93
14.8
3.22
0.29
822
.24.
4916
.20.
168
ND
R 0
.175
0.34
<0.0
501
9.61
<0.1
530.
849
18-2
0<
0.42
93.
5817
.36.
426.
4817
.23.
64<
0.32
622
.83.
8115
.9<
0.31
8N
DR
0.2
22N
DR
0.2
67<
0.13
817
.7<
0.34
7N
DR
1.1
325
-30
< 0.
142
< 0.
256
1.37
< 0.
251
ND
R 0
.978
1.19
< 0.
225
< 0.
235
1.69
ND
R 0
.398
ND
R 1
.23
< 0.
230
< 0.
181
< 0.
191
< 0.
259
ND
R 1
.24
< 0.
147
< 0.
164
40-4
4<0
.050
0N
DR
0.1
310.
546
ND
R 0
.193
0.15
60.
617
0.14
1<0
.050
00.
825
0.16
50.
746
<0.0
500
0.05
<0.0
500
<0.0
500
0.40
2<0
.050
0<0
.050
0
Cor
e N
umbe
r/Sam
ple
De p
th (c
m)
CL4
-PC
B-
81C
L5-P
CB
-82
CL5
-PC
B-
83/9
9C
L5-P
CB
-84
CL5
-PC
B-
85/1
16/1
17C
B-
86/8
7/97
/108
/119
/125
CL5
-PC
B-
88/9
1C
L5-P
CB
-89
CL5
-PC
B-
90/1
01/1
13C
L5-P
CB
-92
CL5
-PC
B-
93/9
5/98
/100
/102
CL5
-PC
B-9
4C
L5-P
CB
-96
CL5
-PC
B-
103
CL5
-PC
B-
104
CL5
-PC
B-
105
CL5
-PC
B-
106
CL5
-PC
B-
107/
124
8/1-
20.
294
7.63
38.6
13.6
13.2
41.3
7.41
0.72
654
.59.
5443
.3N
DR
0.2
180.
296
0.41
1<
0.08
2928
.6<
0.13
42.
39/
1-2
0.33
27.
9142
1114
.238
.36.
350.
6550
.89.
0733
.70.
227
0.28
30.
462
< 0.
0843
33.9
< 0.
117
2.61
10/0
-1N
DR
0.4
5013
.581
.421
.325
.868
.613
.31.
1598
.517
.868
.9N
DR
0.5
840.
525
0.93
8<
0.20
855
.1<
0.32
54.
4111
/0-1
ND
R 0
.363
7.88
47.1
11.8
1539
.27.
540.
828
55.9
1039
.5N
DR
0.3
44N
DR
0.2
840.
457
< 0.
131
33.5
< 0.
239
2.42
12/0
-10.
218
7.83
3813
.312
.940
6.83
0.66
453
.410
41.2
ND
R 0
.229
0.29
50.
384
< 0.
0945
30<
0.13
82.
4313
/0-1
0.15
34.
2120
.86.
247.
5920
.13.
680.
324
26.2
4.71
19.3
ND
R 0
.132
0.15
20.
225
< 0.
0723
17<
0.11
91.
2514
/0-1
0.36
59.
0345
.514
.415
468.
270.
864
59.6
10.4
46.8
ND
R 0
.444
0.34
6N
DR
0.6
52<
0.05
3536
.7<
0.10
92.
6315
/0-1
< 0.
0823
1.51
7.98
2.35
2.59
7.69
1.4
ND
R 0
.148
111.
857.
84<
0.08
54N
DR
0.0
63<
0.06
98<
0.05
055.
68<
0.05
860.
482
16/0
-1<
0.12
35.
3124
.98.
458.
4526
.54.
570.
415
376.
3325
.40.
137
0.18
60.
255
< 0.
0501
19.6
< 0.
173
1.52
17/0
-1<
0.32
69.
6245
.313
.817
.446
.28.
440.
715
59.8
10.9
43.4
0.27
60.
272
ND
R 0
.541
< 0.
130
35.5
< 0.
451
ND
R 2
.30
18/0
-1<
0.12
51.
779.
512.
473.
078.
791.
48N
DR
0.1
4112
.62.
27.
93<
0.04
520.
070.
104
< 0.
0452
7.28
< 0.
0827
0.53
19/0
-1<
0.23
63.
4317
.24.
636.
028.
852.
98N
DR
0.2
8423
.84
13.4
0.12
6N
DR
0.1
01N
DR
0.2
09<
0.04
7314
.1<
0.16
10.
998
20/0
-1N
DR
0.3
6310
.953
.316
.418
.952
.99.
42N
DR
1.0
071
.312
.151
0.30
90.
308
0.71
9<
0.06
1141
.2<
0.33
13.
0921
/0-1
< 0.
818
29.1
165
49.6
51.3
149
292.
6123
338
.816
60.
956
1.04
1.98
< 0.
267
105
< 1.
127.
9822
/0-1
< 0.
201
5.07
26.4
7.5
8.76
24.4
4.48
0.48
933
.16.
1424
.3N
DR
0.1
860.
190.
319
< 0.
130
19.5
< 0.
243
1.42
A1
TOP
<
0.31
04.
2527
.18.
997.
8328
.25.
020.
455
41.7
7.71
28.3
0.20
50.
252
ND
R 0
.302
< 0.
0491
17.9
< 0.
174
1.81
A1
BO
TN
DR
0.1
654.
7826
.19.
448.
4228
.14.
84N
DR
0.4
5538
.57
26.9
ND
R 0
.185
0.26
20.
289
< 0.
0486
18.6
< 0.
111
1.81
B1
TOP
ND
R 0
.145
2.5
13.2
5.02
4.27
13.9
2.6
0.30
919
.23.
2713
.8<
0.19
4N
DR
0.1
810.
172
< 0.
0489
10.9
< 0.
109
0.89
5B
1 B
OT
ND
R 0
.073
2.74
15.7
5.11
4.87
15.5
2.72
0.26
222
.44.
0614
.60.
111
ND
R 0
.132
0.15
6<
0.04
9211
.7<
0.16
11.
01
Sed
imen
t Tra
ps
Tab
le 7
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)C
L5-P
CB
-10
9C
L5-P
CB
-11
0/11
5C
L5-P
CB
-11
1C
L5-P
CB
-11
2C
L5-P
CB
-11
4C
L5-P
CB
-11
8C
L5-P
CB
-12
0C
L5-P
CB
-12
1C
L5-P
CB
-12
2C
L5-P
CB
-12
3C
L5-P
CB
-12
6C
L5-P
CB
-12
7C
L6-P
CB
-12
8/16
6C
L6-P
CB
-12
9/13
8/16
0/16
3
CL6
-PC
B-
130
CL6
-PC
B-
131
CL6
-PC
B-
132
CL6
-PC
B-
133
Cor
e 1 0-
112
.713
0N
DR
0.2
14<
0.06
192.
4914
20.
831
ND
R 0
.087
1.54
2.43
0.88
4<
0.18
027
.817
510
.71.
5343
.32.
661-
29.
1399
.20.
107
< 0.
0735
1.95
118
0.53
8N
DR
0.0
781.
362.
260.
575
< 0.
369
20.8
129
7.97
1.11
31.6
1.85
3-4
14.2
152
ND
R 0
.257
< 0.
0496
2.59
174
1.02
0.09
81.
723.
041.
21<
0.13
633
.921
612
.91.
651
.83.
576-
714
.614
70.
263
< 0.
0482
2.59
165
1.13
0.11
11.
852.
831.
08N
DR
0.2
3931
.220
511
.91.
4346
.13.
069-
1015
.215
40.
309
< 0.
0497
2.6
174
1.19
ND
R 0
.126
1.78
2.94
1.15
0.25
631
194
11.5
1.66
48.3
3.25
12-1
417
185
0.40
4<
0.04
702.
7519
81.
690.
172
2.11
3.44
1.44
0.23
732
.220
912
.31.
6551
.73.
5914
-16
11.2
118
ND
R 0
.245
< 0.
0576
1.71
132
1.12
ND
R 0
.157
1.64
2.07
0.89
70.
249
18.9
116
8.28
1.06
29.3
2.03
18-2
03.
6339
.30.
198
< 0.
0469
0.60
440
.50.
529
0.07
40.
486
0.76
70.
547
ND
R 0
.096
6.38
43.3
2.9
0.40
110
.30.
971
25-3
00.
326
3.42
< 0.
0540
< 0.
0502
ND
R 0
.213
3.18
ND
R 0
.054
< 0.
0545
< 0.
0928
ND
R 0
.102
< 0.
0920
< 0.
0844
ND
R 0
.645
3.99
ND
R 0
.227
< 0.
113
1.2
< 0.
111
50-5
50.
204
2.15
< 0.
0532
< 0.
0517
< 0.
111
2.09
< 0.
0526
< 0.
0524
< 0.
129
< 0.
114
< 0.
125
< 0.
124
0.36
52.
150.
19<
0.04
490.
525
ND
R 0
.070
Cor
e 2 0-
18.
214
2N
DR
0.0
58<
0.04
712.
2510
90.
36<
0.04
711.
381.
92N
DR
0.4
070.
201
32.4
205
12.3
2.41
63.9
2.75
1-2
17.1
275
ND
R 0
.079
< 0.
0700
4.88
250
ND
R 0
.649
< 0.
0700
3.53
4.88
0.89
41.
1177
.647
631
.76.
2315
96.
013-
417
.334
8<
0.16
4<
0.18
05.
7331
3N
DR
0.7
52<
0.16
8N
DR
2.6
34.
86<
2.06
< 1.
4172
.246
728
.15.
8515
56.
46-
717
.328
7N
DR
0.1
35<
0.08
294.
4522
80.
926
0.08
62.
783.
710.
895
0.53
666
.739
325
.14.
6712
95.
589-
1026
.150
2N
DR
0.1
41<
0.05
819.
0246
80.
952
ND
R 0
.164
4.75
7.61
1.55
< 0.
978
110
685
41.5
8.05
215
9.26
12-1
416
.329
80.
132
< 0.
0489
4.92
272
0.93
5N
DR
0.1
672.
954.
911.
08<
0.56
470
.244
227
.84.
9214
16.
4414
-16
44.5
759
ND
R 0
.302
< 0.
160
1261
22.
20.
278
8.65
11.4
1.79
1.78
168
1070
71.6
14.1
383
15.3
14-1
6 (D
uplic
ate)
39.7
645
ND
R 0
.340
< 0.
176
9.96
524
2.36
0.27
47.
488.
971.
981.
3914
810
2067
.812
.736
515
.218
-20
37.7
649
ND
R 0
.409
< 0.
118
9.01
473
2.68
ND
R 0
.277
6.39
8.85
1.83
< 0.
740
138
884
56.1
10.1
301
12.9
25-3
00.
614
.10.
082
< 0.
0486
ND
R 0
.230
11.1
0.11
6<
0.04
86N
DR
0.1
610.
265
ND
R 0
.212
< 0.
0835
3.63
19.2
1.45
ND
R 0
.225
6.12
ND
R 0
.366
35-4
0<
0.10
11.
01<
0.04
97<
0.04
83<
0.09
690.
691
< 0.
0491
< 0.
0489
< 0.
116
< 0.
101
< 0.
112
< 0.
112
0.19
71.
27N
DR
0.1
26<
0.04
720.
445
< 0.
0472
Cor
e 3 0-
13.
6453
.4<
0.04
77<
0.04
771.
1651
.70.
17<
0.04
770.
606
1.3
0.31
7<
0.13
110
.765
.84.
140.
669
18.9
1.05
1-2
5.42
71.1
< 0.
0519
< 0.
0522
1.71
75.1
ND
R 0
.162
< 0.
0521
0.98
1.95
0.43
< 0.
177
16.4
946.
241.
2527
.91.
363-
43.
7354
.6<
0.04
92<
0.04
921.
2753
.6N
DR
0.1
93<
0.04
920.
628
1.58
0.37
3<
0.09
4612
.587
.54.
920.
844
24.8
1.3
3-4
(Dup
licat
e)3.
8856
.7<
0.04
69<
0.04
691.
2754
.8N
DR
0.1
70<
0.04
690.
651
1.34
0.26
1<
0.06
7011
.974
.44.
690.
822
20.6
1.07
6-7
4.05
60.5
< 0.
0555
< 0.
0556
1.38
57.9
0.19
6N
DR
0.0
580.
687
1.4
0.27
1<
0.10
912
.276
.14.
64N
DR
0.8
4822
.31.
059-
104.
563
.10.
058
< 0.
0466
1.32
58.5
0.28
2<
0.04
660.
682
1.24
0.34
5<
0.09
1012
.776
.14.
860.
784
22.1
1.1
12-1
46.
2790
.30.
069
< 0.
0474
2.03
86.7
0.33
< 0.
0474
1.1
1.71
0.45
5<
0.13
316
.710
16.
31.
0430
.11.
4514
-16
891
.7<
0.77
3<
0.77
72.
0196
.8<
0.75
8<
0.77
7N
DR
1.3
81.
970.
562
< 0.
299
19.1
117
8.04
1.26
36.4
1.89
18-2
08.
6212
40.
097
< 0.
0473
2.93
123
0.51
6<
0.04
731.
722.
450.
609
0.29
2414
49.
591.
5344
.92.
1725
-30
12.8
173
< 0.
120
< 0.
118
4.33
174
0.85
8<
0.12
32.
524.
160.
856
< 0.
157
31.5
191
13.3
2.41
62.8
3.35
40-4
530
.745
7N
DR
0.1
26<
0.10
911
.339
40.
818
< 0.
118
7.35
8.96
1.23
0.80
574
.245
032
6.53
160
5.95
Cor
e 4 1-
21.
5319
.6<0
.124
<0.1
130.
449
18.2
<0.1
21<0
.121
0.30
40.
54<0
.256
<0.2
473.
7823
.31.
54N
DR
0.2
446.
12N
DR
0.4
0014
-16
1.78
21.2
<0.0
575
<0.0
578
0.45
819
.2N
DR
0.1
26<0
.058
70.
34N
DR
0.4
140.
111
<0.0
932
4.72
27.3
1.99
0.27
57.
440.
474
14-1
6 (D
uplic
ate)
ND
R 1
.71
21.3
<0.1
05<0
.095
8N
DR
0.4
7821
.3<0
.103
<0.1
03N
DR
0.3
030.
651
<0.2
19<0
.206
4.31
251.
760.
251
6.88
0.41
330
-35
3.56
46.3
<0.1
31<0
.119
0.90
545
.6N
DR
0.1
55<0
.128
ND
R 0
.614
0.98
1<0
.245
<0.2
389.
7454
.23.
930.
646
15.8
ND
R 0
.821
Cor
e 5 0-
13.
7242
< 0.
0647
< 0.
0637
ND
R 1
.09
50.5
ND
R 0
.235
< 0.
0664
0.51
41.
02N
DR
0.2
68<
0.09
938.
3752
.93.
490.
479
12.6
ND
R 0
.836
1-2
3.19
33.8
<0.0
709
<0.0
688
0.68
733
.90.
245
<0.0
685
ND
R 0
.556
0.86
3N
DR
0.2
46<0
.176
8.98
60.3
3.91
0.43
515
.10.
893-
46.
360
.2N
DR
0.1
01<
0.04
881.
677
0.35
ND
R 0
.052
1.05
1.6
0.54
80.
126
1286
.74.
8N
DR
1.7
519
.11.
166-
73.
2434
.7<
0.05
41<
0.05
320.
942
42.8
ND
R 0
.206
< 0.
0554
ND
R 0
.464
0.99
9N
DR
0.2
85<
0.16
97.
3245
.62.
870.
3111
0.69
49-
103.
7641
.3N
DR
0.0
65<
0.06
131.
1951
.7N
DR
0.2
63<
0.06
380.
80.
998
0.29
< 0.
136
9.3
55.6
3.77
0.43
913
.70.
796
12-1
44.
6650
.3<
0.05
89<
0.05
81N
DR
1.4
063
.2N
DR
0.2
90<
0.06
05N
DR
0.7
341.
230.
305
< 0.
110
15.2
79.6
5.05
0.73
718
.61.
0714
-16
7.55
84.8
ND
R 0
.071
<0.0
505
1.52
86.2
0.49
5N
DR
0.0
511.
161.
790.
589
<0.3
1120
.211
77.
820.
9428
.11.
7418
-20
4.61
51.4
0.10
5<
0.06
451.
4765
.80.
363
< 0.
0703
0.87
11.
660.
553
< 0.
126
11.3
70.9
4.32
0.66
817
.91.
1625
-30
6.82
77.6
ND
R 0
.142
< 0.
0495
2.3
96.8
ND
R 0
.445
0.08
91.
322.
160.
557
< 0.
115
16.9
102
6.93
0.85
727
.11.
6845
-50
15.9
167
ND
R 0
.154
<0.0
603
4.05
178
0.78
2N
DR
0.0
712.
743.
370.
756
<0.6
6836
190
13.5
1.78
54.8
3
Tab
le 7
: Con
tinue
d.Sa
mpl
e D
epth
(c
m)
CL5
-PC
B-
109
CL5
-PC
B-
110/
115
CL5
-PC
B-
111
CL5
-PC
B-
112
CL5
-PC
B-
114
CL5
-PC
B-
118
CL5
-PC
B-
120
CL5
-PC
B-
121
CL5
-PC
B-
122
CL5
-PC
B-
123
CL5
-PC
B-
126
CL5
-PC
B-
127
CL6
-PC
B-
128/
166
CL6
-PC
B-
129/
138/
160/
163
CL6
-PC
B-
130
CL6
-PC
B-
131
CL6
-PC
B-
132
CL6
-PC
B-
133
Cor
e 6 0-
12.
3123
.6<
0.04
69<
0.04
690.
699
29.9
0.18
7<
0.04
690.
396
0.65
8N
DR
0.1
72<
0.13
14.
8330
.12.
060.
227.
090.
413
1-2
2.09
22.8
< 0.
0466
< 0.
0466
0.62
927
.90.
158
< 0.
0466
0.39
70.
523
ND
R 0
.195
< 0.
119
4.59
291.
860.
246.
80.
512
3-4
2.19
24.9
ND
R 0
.066
< 0.
0582
0.65
31N
DR
0.1
63<
0.06
340.
377
0.66
5N
DR
0.1
88<
0.15
94.
7231
.61.
980.
348
7.53
ND
R 0
.536
6-7
2.6
28.7
< 0.
0502
< 0.
0477
0.75
235
.2N
DR
0.1
72<
0.05
200.
435
0.87
40.
277
< 0.
141
5.73
37.3
2.63
ND
R 0
.279
8.55
0.52
59-
103.
1636
.9<
0.04
88<
0.04
881.
1744
.10.
176
< 0.
0494
0.68
60.
872
ND
R 0
.277
< 0.
115
7.26
44.8
2.91
0.37
11.4
0.68
69-
10 (D
uplic
ate)
3.35
38.1
ND
R 0
.050
< 0.
0488
1.03
46N
DR
0.1
67<
0.04
880.
602
1.11
0.37
< 0.
0908
7.53
47.1
3.31
ND
R 0
.443
120.
771
12-1
43.
8138
< 0.
0534
< 0.
0533
1.1
47N
DR
0.2
43<
0.05
550.
628
0.98
6N
DR
0.3
26<
0.10
97.
648
3.11
0.37
211
.30.
782
14-1
63.
7237
.7<
0.04
72<
0.04
721.
0946
.90.
291
< 0.
0472
ND
R 0
.544
0.96
4N
DR
0.4
68<
0.15
27.
6855
.73.
120.
4413
.50.
724
18-2
04.
4742
.3<
0.06
88<
0.06
871.
253
.90.
336
< 0.
0715
0.63
8N
DR
1.2
2N
DR
0.3
97<
0.22
98.
8154
.73.
65N
DR
0.4
2712
.60.
857
25-3
05.
0937
.2<
0.04
86<
0.04
851.
1959
.80.
23<
0.05
050.
814
ND
R 1
.17
0.44
9<
0.17
19.
5959
.94.
080.
454
14.9
0.95
640
-45
5.77
46.3
< 0.
0481
< 0.
0481
1.43
68.2
ND
R 0
.272
< 0.
0481
ND
R 0
.787
ND
R 1
.17
ND
R 0
.529
< 0.
179
11.2
70.4
4.74
ND
R 0
.667
18.1
1.11
Cor
e 7 0-
11.
7619
.2<
0.26
3<
0.25
2N
DR
0.6
9725
.3<
0.24
9<
0.25
90.
40.
578
< 0.
338
< 0.
253
3.88
25.8
1.53
< 0.
217
6.14
0.42
61-
21.
7522
.5<0
.054
9<0
.053
40.
483
20.8
ND
R 0
.131
<0.0
532
0.34
9N
DR
0.6
12N
DR
0.1
16<0
.085
15.
0528
.32.
220.
287.
190.
431
3-4
1.73
19.5
< 0.
240
< 0.
230
ND
R 0
.910
26.6
< 0.
227
< 0.
236
ND
R 0
.427
0.81
< 0.
371
< 0.
268
3.89
26.8
1.55
< 0.
196
5.91
ND
R 0
.427
3-4
(Dup
licat
e)2.
7528
.2<
0.19
1<
0.18
40.
721
38.4
ND
R 0
.206
< 0.
188
< 0.
555
ND
R 0
.621
< 0.
675
< 0.
522
5.74
35.1
2.15
< 0.
211
8.62
0.54
66-
72.
4227
.2<
0.14
8<
0.14
2N
DR
0.8
8434
.9<
0.14
0<
0.14
50.
450.
82<
0.46
0<
0.31
36.
1938
.62.
91N
DR
0.4
289.
820.
756
9-10
1.38
13.8
< 0.
0462
< 0.
0462
0.46
917
.4N
DR
0.0
76<
0.04
62N
DR
0.2
350.
319
ND
R 0
.116
< 0.
0732
2.99
18.8
1.38
0.18
95.
120.
331
12-1
4N
DR
1.7
519
.2<
0.16
5<
0.15
8N
DR
0.5
3924
.2N
DR
0.1
81<
0.16
2<
0.33
2N
DR
0.5
42<
0.40
2<
0.31
23.
220
.61.
43<
0.19
75.
46N
DR
0.3
0614
-16
1.86
24.1
<0.0
501
<0.0
501
0.41
320
.60.
209
<0.0
501
0.33
20.
502
ND
R 0
.193
<0.1
594.
4226
.32.
05N
DR
0.2
627.
48N
DR
0.4
7618
-20
2.26
28.7
< 0.
237
< 0.
228
0.80
135
.7<
0.22
4<
0.23
4N
DR
0.4
070.
758
< 0.
506
< 0.
377
4.43
28.3
1.77
< 0.
207
7.57
0.51
925
-30
0.25
51.
94<
0.17
1<
0.16
5<
0.17
72.
87<
0.16
2<
0.16
9<
0.17
0<
0.18
6<
0.19
8<
0.16
0N
DR
0.4
282.
580.
193
< 0.
110
0.86
8<
0.10
940
-44
0.09
30.
689
<0.0
500
<0.0
500
ND
R 0
.053
0.69
6<0
.050
0<0
.050
0<0
.050
0<0
.050
0<0
.050
0<0
.050
00.
078
ND
R 0
.526
<0.0
500
<0.0
500
0.19
8<0
.050
0
Cor
e N
umbe
r/Sam
ple
De p
th (c
m)
CL5
-PC
B-
109
CL5
-PC
B-
110/
115
CL5
-PC
B-
111
CL5
-PC
B-
112
CL5
-PC
B-
114
CL5
-PC
B-
118
CL5
-PC
B-
120
CL5
-PC
B-
121
CL5
-PC
B-
122
CL5
-PC
B-
123
CL5
-PC
B-
126
CL5
-PC
B-
127
CL6
-PC
B-
128/
166
CL6
-PC
B-
129/
138/
160/
163
CL6
-PC
B-
130
CL6
-PC
B-
131
CL6
-PC
B-
132
CL6
-PC
B-
133
8/1-
24.
7667
.3<
0.08
29<
0.08
291.
3564
0.25
8<
0.08
29N
DR
0.7
701.
110.
382
< 0.
140
14.1
78.9
4.92
0.82
621
.10.
959
9/1-
25.
8360
.5<
0.08
43<
0.08
431.
5271
.40.
381
< 0.
0843
0.90
81.
410.
457
< 0.
122
14.9
84.7
5.1
0.57
919
.51.
2410
/0-1
9.92
114
< 0.
208
< 0.
208
2.14
123
0.65
6<
0.20
81.
452.
450.
626
< 0.
339
32.3
170
10.1
ND
R 1
.37
40.2
2.31
11/0
-15.
5461
.6<
0.13
1<
0.13
11.
2871
.70.
412
< 0.
131
ND
R 0
.905
1.56
0.55
8<
0.24
914
.883
.64.
980.
588
18.2
1.32
12/0
-14.
9562
.5<
0.09
45<
0.09
451.
2466
.50.
227
< 0.
0945
0.75
11.
250.
352
< 0.
145
1481
.35.
030.
755
22.2
1.14
13/0
-12.
6733
.2<
0.07
23<
0.07
230.
701
36.1
0.16
8<
0.07
230.
426
0.83
40.
21<
0.12
47.
6743
.12.
540.
355
10.4
0.64
314
/0-1
5.61
80.1
< 0.
239
< 0.
222
1.63
78.8
0.29
9<
0.23
90.
967
1.58
0.51
8<
0.11
516
.797
.45.
95N
DR
0.9
0125
.91.
3415
/0-1
0.97
813
< 0.
0582
< 0.
0541
0.25
712
.3<
0.05
45<
0.05
83N
DR
0.1
040.
270.
102
< 0.
0620
2.97
16.3
1.04
0.15
44.
23N
DR
0.2
3416
/0-1
3.15
43.3
< 0.
0501
< 0.
0501
0.76
341
.10.
181
< 0.
0501
0.43
20.
708
< 0.
192
< 0.
191
8.49
50.3
3.03
0.45
912
.30.
663
17/0
-15.
8172
.2<
0.13
0<
0.13
01.
471
.7N
DR
0.3
54<
0.13
00.
979
ND
R 1
.20
< 0.
486
< 0.
496
15.6
99.6
5.34
0.63
222
.11.
2518
/0-1
1.29
14<
0.04
52<
0.04
520.
344
14.8
0.06
6<
0.04
520.
192
0.28
8N
DR
0.1
07<
0.09
102.
9418
.41.
1N
DR
0.1
574.
070.
264
19/0
-12.
427
.1N
DR
0.0
68<
0.04
730.
491
29.2
0.12
3N
DR
0.1
260.
304
0.64
4<
0.16
8<
0.17
76.
4737
.12.
270.
284
7.83
0.55
320
/0-1
6.92
83.1
ND
R 0
.130
< 0.
0611
1.54
87.3
ND
R 0
.399
< 0.
0613
1.09
1.86
ND
R 0
.438
< 0.
364
17.9
112
6.58
0.93
427
.91.
5521
/0-1
1924
5<
0.26
7<
0.26
73.
8423
30.
865
< 0.
267
3.02
3.92
1.16
< 1.
2355
.134
019
.12.
5783
4.89
22/0
-13.
3539
.1<
0.13
0<
0.13
00.
906
41.4
0.21
3<
0.13
0N
DR
0.4
940.
782
< 0.
271
< 0.
267
8.83
55.6
3.24
0.36
612
.40.
767
A1
TOP
3.
3941
.8<
0.04
95<
0.04
910.
923
42.3
ND
R 0
.187
< 0.
0507
ND
R 0
.450
1.03
0.27
8<
0.18
08.
4761
.63.
880.
636
16.4
0.98
3A
1 B
OT
3.76
42.4
< 0.
114
< 0.
108
1.01
42.1
ND
R 0
.199
< 0.
116
0.58
90.
958
ND
R 0
.265
< 0.
115
9.1
59.8
3.94
ND
R 0
.662
17.3
0.90
8B
1 TO
P2.
0419
.9<
0.13
7<
0.13
00.
523
.1<
0.13
1<
0.14
0N
DR
0.2
970.
526
0.15
4<
0.11
24.
3628
.51.
850.
324
7.67
ND
R 0
.415
B1
BO
T2.
1223
< 0.
0525
< 0.
0501
0.54
725
.80.
132
< 0.
0538
ND
R 0
.350
0.47
5N
DR
0.1
71<
0.16
55.
2233
.62.
230.
299
8.6
ND
R 0
.441
Sed
imen
t Tra
ps
Tab
le 7
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)C
L6-P
CB
-13
4/14
3C
L6-P
CB
-13
5/15
1/15
4C
L6-P
CB
-13
6C
L6-P
CB
-13
7C
L6-P
CB
-13
9/14
0C
L6-P
CB
-14
1C
L6-P
CB
-14
2C
L6-P
CB
-14
4C
L6-P
CB
-14
5C
L6-P
CB
-14
6C
L6-P
CB
-14
7/14
9C
L6-P
CB
-14
8C
L6-P
CB
-15
0C
L6-P
CB
-15
2C
L6-P
CB
-15
3/16
8C
L6-P
CB
-15
5C
L6-P
CB
-15
6/15
7C
L6-P
CB
-15
8
Cor
e 1 0-
16.
2341
.313
.35.
611.
4913
.1<
0.16
23.
67<
0.04
6825
.810
40.
35N
DR
0.2
46N
DR
0.0
9115
7N
DR
0.0
8313
.78.
391-
25.
330
.410
.24.
081.
5810
.5<
0.19
91.
46<
0.07
2519
.480
.4N
DR
0.2
390.
137
ND
R 0
.089
111
< 0.
0725
11.4
7.24
3-4
7.32
54.1
17.4
6.21
2.63
13<
0.20
24.
93<
0.04
9633
.413
80.
514
0.32
40.
145
200
< 0.
0496
14.9
8.53
6-7
6.65
45.7
14.3
5.97
2.32
12.7
< 0.
193
4.43
ND
R 0
.064
3012
2N
DR
0.3
55N
DR
0.2
890.
106
178
ND
R 0
.053
14.8
8.94
9-10
7.45
52.9
16.6
5.56
2.84
12.7
< 0.
152
5.03
< 0.
0497
32.3
131
0.50
40.
364
0.13
418
9N
DR
0.0
5315
9.08
12-1
48.
3560
.219
.95.
743.
1213
.6<
0.10
95.
36N
DR
0.0
7835
.714
80.
566
0.56
5N
DR
0.1
5220
1N
DR
0.0
4716
.610
.314
-16
5.18
36.1
11.7
3.58
1.89
9.45
< 0.
199
2.25
< 0.
0576
2284
.5N
DR
0.4
060.
365
ND
R 0
.109
113
0.05
910
.67.
0518
-20
1.73
15.1
4.43
1.27
0.74
22.
92<
0.13
0N
DR
1.3
4<
0.04
698.
9134
.80.
355
0.23
1<
0.04
6946
.2N
DR
0.0
563.
622.
5325
-30
0.20
11.
170.
455
ND
R 0
.253
< 0.
103
0.58
6<
0.11
9N
DR
0.1
59<
0.04
610.
742
2.62
< 0.
0461
< 0.
0461
< 0.
0461
3.06
ND
R 0
.057
0.57
4N
DR
0.4
4450
-55
0.1
0.69
70.
22<
0.04
49<
0.04
49N
DR
0.2
14<
0.04
490.
087
< 0.
0449
0.40
61.
54<
0.04
49<
0.04
49<
0.04
492.
07<
0.04
490.
219
0.09
5
Cor
e 2 0-
19.
6164
20.2
7.12
3.37
29.7
< 0.
209
9.14
0.06
727
.115
1N
DR
0.2
630.
255
ND
R 0
.122
159
< 0.
0471
22.7
191-
223
.313
349
.217
.87.
4172
< 0.
556
200.
168
65.7
327
0.49
90.
502
0.25
136
2N
DR
0.0
5663
.948
.23-
423
.614
839
.416
.86.
8280
.3<
0.53
221
.4N
DR
0.0
9763
.936
10.
516
0.23
7<
0.04
7836
1<
0.04
7851
.646
.66-
719
.312
641
.511
.86.
5651
.6<
0.20
518
.30.
1651
.930
20.
540.
593
0.25
330
1<
0.04
7844
.436
.99-
1032
.720
457
.622
.910
.410
6<
0.54
529
.70.
144
89.4
512
0.71
80.
312
< 0.
0491
526
< 0.
0491
78.8
66.9
12-1
420
.814
640
.410
.66.
6659
.8<
0.30
720
.80.
106
62.5
354
0.64
2N
DR
0.1
87<
0.04
6235
1N
DR
0.0
4847
.542
.214
-16
57.8
349
126
36.8
18.9
160
< 0.
734
53.5
0.38
315
784
91.
461.
850.
658
856
ND
R 0
.075
124
108
14-1
6 (D
uplic
ate)
55.9
362
125
26.6
16.3
156
< 0.
678
53.1
0.29
415
686
31.
521.
760.
545
850
0.09
210
910
018
-20
295
317
111
23.7
14.2
135
< 0.
753
44.9
ND
R 0
.263
132
740
1.63
1.88
0.53
471
0N
DR
0.0
9096
8525
-30
0.99
95.
812.
040.
562
0.46
61.
4<
0.07
030.
612
< 0.
0486
2.31
14.6
0.15
6<
0.04
86<
0.04
8611
.2<
0.04
861.
81.
6135
-40
ND
R 0
.067
0.53
0.15
9N
DR
0.0
97<
0.04
72N
DR
0.1
49<
0.04
72N
DR
0.0
48<
0.04
720.
243
1.07
< 0.
0472
< 0.
0472
< 0.
0472
ND
R 1
.21
< 0.
0472
0.16
ND
R 0
.095
Cor
e 3 0-
12.
6916
.75.
883.
031.
068.
59<
0.08
942.
35<
0.04
779.
3143
.3N
DR
0.1
390.
091
ND
R 0
.050
55.3
0.09
97.
935.
511-
24.
1722
7.6
4.54
1.62
12.8
< 0.
201
3.32
< 0.
0469
1357
.70.
141
ND
R 0
.102
ND
R 0
.060
75.3
0.09
912
.99.
233-
43.
3626
.28.
883.
271.
1814
.4<
0.09
203.
71<
0.04
7212
.162
.60.
169
0.14
70.
048
76.9
0.10
69.
467.
153-
4 (D
uplic
ate)
2.86
18.9
6.56
3.01
1.15
9.84
< 0.
0856
2.68
< 0.
0469
10.1
48.8
0.14
80.
114
0.06
61.5
0.12
98.
515.
996-
72.
9119
.96.
953.
671.
2510
.2<
0.08
602.
87<
0.04
7310
.247
.8N
DR
0.1
27N
DR
0.0
90N
DR
0.0
5162
.60.
086
8.93
6.41
9-10
3.15
19.3
6.57
2.92
1.26
9<
0.06
162.
69<
0.04
6610
.349
.5N
DR
0.1
45N
DR
0.1
090.
055
61.6
0.04
88.
76.
1812
-14
4.13
25.3
8.9
3.56
1.55
9.81
< 0.
144
3.53
< 0.
0474
13.5
65.1
0.15
ND
R 0
.123
0.05
580
< 0.
0474
117.
8214
-16
5.45
3310
.52.
871.
8810
.7<
0.13
34.
27<
0.04
7517
.983
.7N
DR
0.2
290.
144
ND
R 0
.091
97.2
< 0.
0475
11.4
8.87
18-2
06.
2837
.512
.74.
622.
1613
.6<
0.14
85.
01N
DR
0.0
7319
.794
.80.
246
ND
R 0
.184
0.08
811
4<
0.04
7315
10.6
25-3
09.
8860
.120
6.39
3.57
18.6
< 0.
162
7.84
0.06
829
.913
4N
DR
0.4
790.
356
0.14
915
9<
0.05
0521
14.6
40-4
525
126
50.7
208.
3654
.6<
0.54
117
.60.
2659
.431
10.
528
0.42
90.
441
339
< 0.
0470
50.6
40.8
Cor
e 4 1-
20.
955.
951.
990.
995
ND
R 0
.395
3.06
<0.1
26N
DR
0.9
44<0
.052
03.
9415
.6N
DR
0.0
68<0
.052
0<0
.052
020
.9<0
.052
02.
261.
8614
-16
1.2
7.48
2.32
10.
393
3.19
<0.0
995
0.96
5<0
.049
44.
8620
.3N
DR
0.0
60<0
.049
4<0
.049
423
.9<0
.049
42.
742.
2614
-16
(Dup
licat
e)1.
146.
862.
21N
DR
1.0
3N
DR
0.4
322.
96<0
.063
90.
926
<0.0
478
4.07
17.6
0.07
6N
DR
0.0
73<0
.047
822
.7<0
.047
82.
662.
2330
-35
2.47
13.9
4.67
2.37
0.93
6.49
<0.1
241.
88<0
.050
08.
3936
.6<0
.050
00.
089
ND
R 0
.052
43.5
<0.0
500
5.57
4.73
Cor
e 5 0-
11.
9212
.23.
62.
010.
726
4.93
< 0.
133
1.44
< 0.
0486
8.39
28.9
0.25
ND
R 0
.055
< 0.
0486
44.4
ND
R 0
.051
5.93
3.43
1-2
2.37
14.8
4.25
<0.1
210.
607
8.21
<0.1
192.
24<0
.052
19.
9438
.5<0
.052
1<0
.052
1<0
.052
154
.6<0
.052
15.
734.
363-
42.
5519
5.86
2.73
1.36
6.88
< 0.
651
2.07
< 0.
0488
1348
.20.
308
0.09
8<
0.04
8872
.3<
0.04
888.
735.
056-
71.
6410
.43.
141.
460.
585
3.94
< 0.
116
1.36
< 0.
0509
725
.40.
145
< 0.
0509
< 0.
0509
38.2
< 0.
0509
5.04
2.94
9-10
2.01
13.2
3.84
1.94
0.73
64.
97<
0.17
31.
58<
0.04
808.
6632
.3N
DR
0.1
85N
DR
0.0
65<
0.04
8047
.5N
DR
0.0
596.
013.
6412
-14
2.51
164.
873.
951.
27.
81<
0.17
62.
07<
0.04
8410
.438
ND
R 0
.237
ND
R 0
.056
< 0.
0484
58.8
< 0.
0484
13.4
6.42
14-1
64.
2726
.48.
023.
751.
4410
.6<0
.196
3.46
<0.0
464
1965
.3N
DR
0.2
60N
DR
0.1
19N
DR
0.0
7199
.2<0
.046
411
.47.
8118
-20
2.69
16.3
5.07
2.18
0.89
35.
82<
0.20
32.
01<
0.04
8010
.739
.5N
DR
0.1
890.
090.
064
57.7
ND
R 0
.059
7.19
4.64
25-3
03.
8624
.78.
23.
05N
DR
1.4
79.
49<
0.15
13.
32<
0.05
7715
.658
.80.
211
ND
R 0
.116
ND
R 0
.073
83.6
< 0.
0483
10.9
7.21
45-5
08.
4551
.416
.36.
372.
518
.7<0
.263
5.87
ND
R 0
.078
32.2
125
0.32
60.
182
ND
R 0
.135
157
<0.0
529
19.3
14.3
Tab
le 7
: Con
tinue
d.Sa
mpl
e D
epth
(c
m)
CL6
-PC
B-
134/
143
CL6
-PC
B-
135/
151/
154
CL6
-PC
B-
136
CL6
-PC
B-
137
CL6
-PC
B-
139/
140
CL6
-PC
B-
141
CL6
-PC
B-
142
CL6
-PC
B-
144
CL6
-PC
B-
145
CL6
-PC
B-
146
CL6
-PC
B-
147/
149
CL6
-PC
B-
148
CL6
-PC
B-
150
CL6
-PC
B-
152
CL6
-PC
B-
153/
168
CL6
-PC
B-
155
CL6
-PC
B-
156/
157
CL6
-PC
B-
158
Cor
e 6 0-
10.
986
6.65
2.02
1.13
0.40
13.
01<
0.14
40.
893
< 0.
0469
4.7
160.
193
0.07
6<
0.04
6924
.8<
0.04
693.
42.
261-
20.
954
6.87
1.97
1.15
0.32
92.
92<
0.11
80.
863
< 0.
0466
4.32
15.6
0.15
8<
0.04
66<
0.04
6624
.3<
0.04
663.
42.
173-
4N
DR
0.9
556.
942.
081.
170.
329
2.77
< 0.
0893
0.83
8<
0.04
734.
6416
.9<
0.05
14<
0.04
73<
0.04
7325
.5<
0.04
733.
452.
36-
71.
148.
422.
551.
610.
476
3.28
< 0.
110
0.90
1<
0.04
685.
6520
0.25
80.
052
< 0.
0468
31<
0.04
684.
322.
689-
101.
6410
.43.
441.
990.
628
4.46
< 0.
102
1.36
< 0.
0488
6.8
25.2
0.20
40.
059
< 0.
0488
36.3
< 0.
0488
5.03
3.43
9-10
(Dup
licat
e)1.
7210
.73.
451.
950.
721
4.14
< 0.
104
1.46
< 0.
0488
7.39
26.1
0.21
9N
DR
0.0
74<
0.04
8838
.8<
0.04
885.
53.
812
-14
1.77
11.1
3.37
1.84
ND
R 0
.337
4.38
< 0.
0849
ND
R 1
.44
< 0.
0469
7.2
26.2
ND
R 0
.309
< 0.
0469
< 0.
0469
38.6
< 0.
0469
5.19
3.37
14-1
61.
8214
.54.
261.
760.
694
7.24
< 0.
140
1.92
< 0.
0472
831
.9N
DR
0.1
88N
DR
0.0
49<
0.04
7248
.7<
0.04
726.
184.
3318
-20
1.87
123.
431.
780.
734.
54<
0.12
3N
DR
1.6
3<
0.05
027.
9928
.3N
DR
0.1
690.
081
< 0.
0479
44.4
< 0.
0479
5.75
3.76
25-3
02.
1212
.93.
752.
030.
785.
97<
0.10
61.
68<
0.04
818.
632
0.08
2N
DR
0.0
790.
058
49.2
< 0.
0481
6.72
4.47
40-4
52.
8217
.15.
042.
521.
057.
67<
0.14
4N
DR
2.1
8<
0.04
8111
420.
127
0.07
3<
0.04
8160
.5<
0.04
817.
175.
57
Cor
e 7 0-
10.
985
5.6
ND
R 1
.64
ND
R 0
.994
< 0.
196
2.72
< 0.
228
0.75
1<
0.15
73.
8714
.1<
0.20
2<
0.15
0<
0.14
321
.6<
0.13
72.
911.
791-
21.
076.
732.
021.
07N
DR
0.4
263.
03<0
.109
1.07
<0.0
474
4.61
16.3
ND
R 0
.255
<0.0
474
<0.0
474
23.7
<0.0
474
3.28
2.19
3-4
ND
R 0
.956
6.31
ND
R 1
.66
0.92
8N
DR
0.4
312.
66<
0.20
60.
557
< 0.
126
3.76
15.2
< 0.
162
< 0.
120
< 0.
115
23.9
< 0.
112
ND
R 2
.79
2.02
3-4
(Dup
licat
e)1.
097.
062.
221.
260.
453
3.07
< 0.
221
ND
R 1
.05
< 0.
133
5.13
20.4
< 0.
171
< 0.
127
< 0.
121
30.4
< 0.
122
4.29
2.62
6-7
1.34
8.33
2.78
1.94
ND
R 0
.559
ND
R 4
.48
< 0.
159
ND
R 1
.22
< 0.
111
5.42
22.6
< 0.
143
< 0.
106
< 0.
102
30.3
< 0.
0919
5.98
3.45
9-10
0.75
34.
281.
370.
670.
147
1.81
< 0.
0462
0.50
4<
0.04
623.
0811
.3N
DR
0.0
79<
0.04
62<
0.04
6215
.9<
0.04
621.
921.
3412
-14
ND
R 0
.963
6.59
1.78
0.79
2N
DR
0.6
58N
DR
1.5
6<
0.20
70.
726
< 0.
0970
3.58
14.7
< 0.
125
ND
R 0
.103
< 0.
0887
18.5
< 0.
0914
2.22
1.35
14-1
61.
188.
022.
660.
846
0.49
22.
52<0
.138
1.09
<0.0
501
5.49
18.6
0.18
5N
DR
0.1
04<0
.050
124
.1<0
.050
12.
692.
1218
-20
ND
R 1
.32
7.59
ND
R 2
.28
1.14
0.44
4N
DR
2.6
2<
0.21
7N
DR
0.9
24<
0.12
9N
DR
4.6
217
.4<
0.16
6N
DR
0.1
68<
0.11
824
.4<
0.12
22.
872.
2625
-30
ND
R 0
.230
ND
R 0
.780
ND
R 0
.254
< 0.
112
< 0.
0990
ND
R 0
.124
< 0.
115
< 0.
116
< 0.
0932
ND
R 0
.443
ND
R 1
.82
< 0.
120
< 0.
0891
< 0.
0852
ND
R 2
.27
< 0.
0978
ND
R 0
.339
ND
R 0
.293
40-4
4<0
.050
0N
DR
0.2
73N
DR
0.1
39<0
.050
0<0
.050
0N
DR
0.1
45<0
.050
00.
058
<0.0
500
0.15
90.
677
<0.0
500
<0.0
500
<0.0
500
0.64
6<0
.050
00.
091
<0.0
500
Cor
e N
umbe
r/Sam
ple
De p
th (c
m)
CL6
-PC
B-
134/
143
CL6
-PC
B-
135/
151/
154
CL6
-PC
B-
136
CL6
-PC
B-
137
CL6
-PC
B-
139/
140
CL6
-PC
B-
141
CL6
-PC
B-
142
CL6
-PC
B-
144
CL6
-PC
B-
145
CL6
-PC
B-
146
CL6
-PC
B-
147/
149
CL6
-PC
B-
148
CL6
-PC
B-
150
CL6
-PC
B-
152
CL6
-PC
B-
153/
168
CL6
-PC
B-
155
CL6
-PC
B-
156/
157
CL6
-PC
B-
158
8/1-
23.
3317
.46.
443.
041.
047.
97<
0.22
12.
11<
0.08
299.
9745
.9N
DR
0.1
470.
121
< 0.
0829
59.3
< 0.
0829
8.19
5.41
9/1-
22.
9518
5.99
2.28
0.97
6.3
< 0.
214
1.77
< 0.
0843
11.4
47N
DR
0.1
51<
0.08
43<
0.08
4368
.3<
0.08
437.
864.
5510
/0-1
6.26
35.1
125.
982.
1613
.7<
0.41
93.
98<
0.20
822
.491
.80.
265
ND
R 0
.271
< 0.
208
131
< 0.
208
19.2
1011
/0-1
3.02
18.9
6.17
2.85
0.98
56.
08<
0.21
91.
95<
0.13
111
.949
.1N
DR
0.2
26<
0.13
1<
0.13
171
.8<
0.13
17.
224.
0212
/0-1
ND
R 3
.25
186.
023.
041.
057.
25<
0.15
12.
1<
0.09
4510
.548
.10.
137
< 0.
0945
< 0.
0945
62.9
< 0.
0945
7.91
5.02
13/0
-11.
399.
082.
991.
250.
491
3.6
< 0.
126
1.02
< 0.
0723
5.6
23.8
ND
R 0
.108
< 0.
0723
< 0.
0723
34.2
< 0.
0723
3.8
2.39
14/0
-13.
7621
.47.
52.
81.
348.
58<
0.20
52.
35<
0.05
3513
.158
.3N
DR
0.1
81N
DR
0.1
20N
DR
0.0
5975
.7<
0.05
3510
.55.
9915
/0-1
0.57
13.
561.
110.
62N
DR
0.2
191.
76<
0.08
780.
468
< 0.
0505
2.36
9.2
0.08
3<
0.05
05<
0.05
0513
.2<
0.05
051.
91.
2416
/0-1
1.99
10.3
3.4
2.08
0.66
55.
24<
0.16
01.
34<
0.05
017.
0126
0.22
50.
072
< 0.
0501
37.2
< 0.
0501
5.53
3.76
17/0
-13.
3519
.86.
332.
831.
078.
39<
0.32
82.
24<
0.13
013
.852
.1N
DR
0.2
83<
0.13
0<
0.13
074
.4<
0.13
08.
485.
9418
/0-1
0.60
73.
91.
10.
711
0.27
41.
82<
0.07
830.
524
< 0.
0452
2.7
9.44
0.14
8<
0.04
52<
0.04
5214
.7<
0.04
521.
751.
2719
/0-1
1.22
7.45
2.2
ND
R 1
.21
0.50
13.
08<
0.10
10.
942
< 0.
0473
5.23
18.6
ND
R 0
.219
ND
R 0
.056
< 0.
0473
28.9
< 0.
0473
3.52
2.45
20/0
-14.
1226
.77.
843.
231.
5110
< 0.
137
2.91
< 0.
0611
15.4
65.4
ND
R 0
.209
ND
R 0
.175
< 0.
0611
90.2
< 0.
0611
10.1
6.99
21/0
-113
.582
.725
.78.
894.
2327
.5<
0.51
18.
28<
0.26
749
.220
3N
DR
0.8
54N
DR
0.4
49<
0.26
728
7<
0.26
726
.317
.222
/0-1
1.94
12.5
3.63
1.68
0.60
54.
33<
0.30
51.
3<
0.13
07.
9231
.4<
0.13
0<
0.13
0<
0.13
044
.8<
0.13
04.
742.
86
A1
TOP
2.
7116
.45.
652.
881.
038.
25<
0.21
4N
DR
2.3
5<
0.04
919.
1940
.5N
DR
0.1
50N
DR
0.0
93<
0.04
9154
ND
R 0
.115
6.3
5.32
A1
BO
T2.
6816
.35.
42N
DR
2.9
3N
DR
1.0
27.
44<
0.19
52.
33<
0.04
868.
9241
.2N
DR
0.1
240.
099
ND
R 0
.050
51.7
ND
R 0
.093
6.55
5.11
B1
TOP
1.24
7.14
2.31
1.22
ND
R 0
.481
3.36
< 0.
0954
1.04
< 0.
0489
4.3
20N
DR
0.0
82<
0.04
89<
0.04
8924
.5<
0.04
892.
812.
29B
1 B
OT
1.36
7.95
2.83
1.63
0.51
3.91
< 0.
114
1.19
< 0.
0492
4.84
20.7
ND
R 0
.077
0.05
8<
0.04
9227
.9<
0.04
923.
542.
62
Sed
imen
t Tra
ps
Tab
le 7
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)C
L6-P
CB
-15
9C
L6-P
CB
-16
1C
L6-P
CB
-16
2C
L6-P
CB
-16
4C
L6-P
CB
-16
5C
L6-P
CB
-16
7C
L6-P
CB
-16
9C
L7-P
CB
-17
0C
L7-P
CB
-17
1/17
3C
L7-P
CB
-17
2C
L7-P
CB
-17
4C
L7-P
CB
-17
5C
L7-P
CB
-17
6C
L7-P
CB
-17
7C
L7-P
CB
-17
8C
L7-P
CB
-17
9C
L7-P
CB
-18
0/19
3C
L7-P
CB
-18
1
Cor
e 1 0-
1N
DR
0.8
76<
0.10
90.
724
9.88
0.28
96.
08<
0.18
215
5.91
2.47
20.1
0.98
3.42
18.6
8.79
12.5
36.2
ND
R 0
.246
1-2
0.66
6<
0.13
60.
447
7.07
< 0.
155
4.62
< 0.
234
12.4
4.63
2.06
14.3
ND
R 0
.654
2.31
13.4
6.03
8.33
26.4
ND
R 0
.187
3-4
1.07
< 0.
136
0.71
310
.90.
323
7.23
< 0.
205
16.6
7.74
3.33
25.1
1.22
4.76
25.7
12.1
17.6
42.9
ND
R 0
.284
6-7
ND
R 1
.09
< 0.
130
0.71
510
.60.
405
6.76
< 0.
184
16.7
6.83
2.96
221.
113.
7521
.19.
6813
.740
.60.
274
9-10
0.84
5<
0.10
20.
841
10.3
0.49
56.
95<
0.21
517
.57.
263.
2122
.41.
263.
9121
.79.
9114
.941
.2N
DR
0.2
2812
-14
1.11
< 0.
0731
0.91
611
.10.
563
7.58
< 0.
209
18.2
8.29
3.68
24.3
1.58
4.48
22.8
11.2
16.4
45.3
ND
R 0
.256
14-1
60.
759
< 0.
136
0.51
96.
41<
0.15
54.
51<
0.22
113
.15.
12.
5815
0.91
12.
2613
.66.
649.
0630
.9N
DR
0.1
5418
-20
0.27
7<
0.08
760.
287
2.23
ND
R 0
.201
1.8
< 0.
173
5.08
2.17
1.22
6.28
0.58
11.
25.
533.
64.
2813
.70.
121
25-3
0<
0.07
53<
0.08
01<
0.07
55N
DR
0.1
80<
0.08
81N
DR
0.1
56<
0.08
81N
DR
0.5
58N
DR
0.2
69N
DR
0.1
83N
DR
0.6
43<
0.04
610.
174
0.34
3N
DR
0.2
30N
DR
0.4
071.
15<
0.04
6150
-55
< 0.
0449
< 0.
0449
< 0.
0449
ND
R 0
.176
< 0.
0449
0.09
2<
0.07
410.
371
ND
R 0
.113
ND
R 0
.077
ND
R 0
.334
< 0.
0449
0.06
60.
263
ND
R 0
.102
ND
R 0
.177
0.74
6<
0.04
49
Cor
e 2 0-
11.
66<
0.15
10.
634
13.5
< 0.
164
7.95
< 0.
223
43.4
16.6
8.24
48.2
2.47
6.66
34.3
11.7
24.7
92.2
0.44
91-
26.
66<
0.37
21.
4933
.2<
0.42
121
.4<
1.05
124
40.2
19.7
104
5.37
14.9
75.1
23.9
45.2
214
1.33
3-4
3.35
< 0.
386
1.45
33<
0.41
817
.9<
0.36
410
638
.819
.811
55.
5116
76.8
26.1
53.6
217
0.90
76-
73.
01<
0.14
91.
2226
.90.
362
15.9
< 0.
365
80.5
3214
.288
.14.
612
.565
.421
.844
.715
20.
805
9-10
4.41
< 0.
396
2.2
48.7
< 0.
428
26.8
< 0.
409
155
55.9
25.4
157
8.07
22.3
108
36.8
76.6
283
1.41
12-1
43.
32<
0.22
31.
332
.40.
486
17.2
< 0.
263
100
40.4
17.4
108
6.07
15.4
78.4
28.3
5319
00.
889
14-1
613
.8<
0.49
12.
8476
.60.
985
42.4
< 1.
7725
185
.641
.223
012
.134
.616
454
.910
545
62.
3514
-16
(Dup
licat
e)14
.7<
0.45
4N
DR
2.2
575
.30.
915
40.1
< 1.
7226
993
44.8
248
13.5
37.5
176
60.8
115
493
2.2
18-2
06.
9<
0.54
72.
7964
.11.
0935
.2N
DR
0.6
2122
878
.441
228
12.3
31.4
160
54.1
106
442
1.76
25-3
00.
187
< 0.
0511
0.07
71.
080.
072
0.70
5<
0.07
508.
313.
331.
18.
79N
DR
0.6
161.
37.
322.
585.
2113
.5N
DR
0.0
6535
-40
< 0.
0472
< 0.
0472
< 0.
0472
ND
R 0
.088
< 0.
0472
ND
R 0
.072
< 0.
0581
0.42
3N
DR
0.1
45N
DR
0.0
770.
354
< 0.
0472
< 0.
0472
ND
R 0
.324
0.1
ND
R 0
.176
0.78
6<
0.04
72
Cor
e 3 0-
10.
606
< 0.
0615
0.19
3.94
< 0.
0687
2.75
< 0.
0721
13.7
4.36
2.37
13.4
0.71
1.88
9.36
3.67
6.56
290.
172
1-2
ND
R 0
.963
< 0.
135
0.37
65.
76<
0.15
34.
06<
0.15
718
.55.
562.
9915
.80.
748
2.22
11.4
4.25
7.01
37.5
ND
R 0
.233
3-4
1.23
< 0.
0633
< 0.
0651
5.51
ND
R 0
.084
3.43
< 0.
166
28.3
9.41
4.97
29.9
1.41
4.24
18.7
6.86
13.4
62.5
ND
R 0
.224
3-4
(Dup
licat
e)0.
73<
0.05
89N
DR
0.2
374.
36<
0.06
582.
95<
0.08
2118
.85.
683.
2717
0.87
32.
2512
4.47
7.89
39.6
0.16
66-
70.
645
< 0.
0592
0.30
34.
6<
0.06
612.
97<
0.07
9115
.44.
872.
715
.20.
714
2.09
10.5
4.13
7.44
31.9
0.16
19-
100.
581
< 0.
0466
ND
R 0
.265
4.85
< 0.
0473
3.08
< 0.
0781
13.7
4.83
2.39
14.5
0.78
12.
1410
.64.
137.
2228
.30.
1512
-14
< 0.
0994
< 0.
0994
< 0.
102
6.39
< 0.
111
4.01
< 0.
107
15.1
6.21
2.54
17.1
0.96
12.
6914
.15.
39.
228
.20.
202
14-1
61.
19<
0.08
920.
383
7.62
0.11
44.
49<
0.17
819
7.93
3.18
21.8
1.16
3.48
18.3
6.68
11.8
38.1
ND
R 0
.255
18-2
01.
18<
0.10
20.
466
9.53
< 0.
114
5.76
< 0.
123
23.6
9.62
4.12
27.5
1.55
4.45
22.7
7.99
14.2
46N
DR
0.3
4825
-30
1.96
< 0.
109
ND
R 0
.601
13.3
< 0.
127
7.66
< 0.
281
34.7
14.5
6.45
42.5
2.41
7.63
32.5
13.9
24.7
68.1
0.35
140
-45
3.96
< 0.
360
1.19
29.8
< 0.
409
16.2
< 0.
528
63.2
23.4
1167
.73.
7112
.146
.518
.937
.312
30.
809
Cor
e 4 1-
2N
DR
0.3
53<0
.084
1<0
.085
61.
25<0
.097
00.
812
<0.0
881
4.52
1.44
0.91
64.
720.
238
ND
R 0
.675
3.53
1.53
2.38
10.4
<0.0
520
14-1
6N
DR
0.3
02<0
.068
8N
DR
0.0
811.
62<0
.083
10.
953
<0.0
771
4.86
1.8
0.88
15.
050.
262
0.67
43.
93N
DR
1.5
52.
5210
.2<0
.049
414
-16
(Dup
licat
e)0.
267
<0.0
478
<0.0
478
1.46
<0.0
494
0.98
6<0
.086
14.
361.
660.
801
4.08
0.24
10.
673.
761.
312.
138.
55N
DR
0.0
5830
-35
ND
R 0
.630
<0.0
830
0.17
92.
96<0
.095
71.
86<0
.091
18.
193.
051.
558.
280.
504
1.3
7.2
2.62
4.16
16.3
ND
R 0
.071
Cor
e 5 0-
1N
DR
0.3
66<
0.08
960.
192.
97<
0.10
42.
24<
0.09
308.
782.
871.
477.
980.
366
1.16
7.36
2.93
4.32
17N
DR
0.1
041-
20.
691
<0.0
868
0.17
5N
DR
4.4
9<0
.098
62.
36<0
.116
11.7
3.79
2.34
10.5
0.53
31.
429.
143.
294.
6922
.9N
DR
0.0
903-
40.
572
< 0.
452
< 0.
480
4.12
< 0.
514
3.38
< 0.
530
13.7
4.87
2.17
12.8
0.68
21.
9413
.24.
997.
3126
.90.
078
6-7
0.35
7<
0.07
80N
DR
0.1
562.
49<
0.09
071.
84<
0.08
037.
232.
651.
366.
630.
292
1.06
6.87
2.56
3.93
14.2
0.07
29-
100.
377
< 0.
117
< 0.
118
3.1
< 0.
136
2.35
< 0.
123
8.88
3.06
1.39
8.51
ND
R 0
.484
ND
R 1
.39
8.37
3.25
516
.6N
DR
0.1
0512
-14
0.53
5<
0.11
90.
277
4.3
< 0.
138
3.93
< 0.
127
14.3
4.77
2.08
11.1
0.48
21.
6710
3.77
5.94
24.6
ND
R 0
.225
14-1
60.
883
<0.1
43N
DR
0.4
136.
31N
DR
0.1
934.
550.
206
15.6
5.83
2.68
15.2
0.78
72.
5516
.76.
258.
8731
.3N
DR
0.1
8918
-20
0.54
1<
0.13
6N
DR
0.3
043.
84<
0.15
72.
9<
0.14
511
.84.
282.
0411
.50.
563
1.91
10.9
4.51
6.43
23.1
ND
R 0
.140
25-3
00.
719
< 0.
102
0.34
86.
22N
DR
0.1
704.
29<
0.15
617
.16.
533.
0716
.90.
835
2.73
15.9
6.49
9.58
33.6
ND
R 0
.163
45-5
01.
35<0
.182
0.93
510
.7N
DR
0.3
296.
7<0
.166
25.8
8.92
4.64
27.4
1.42
4.25
24.1
9.72
14.9
51.1
ND
R 0
.251
Tab
le 7
: Con
tinue
d.Sa
mpl
e D
epth
(c
m)
CL6
-PC
B-
159
CL6
-PC
B-
161
CL6
-PC
B-
162
CL6
-PC
B-
164
CL6
-PC
B-
165
CL6
-PC
B-
167
CL6
-PC
B-
169
CL7
-PC
B-
170
CL7
-PC
B-
171/
173
CL7
-PC
B-
172
CL7
-PC
B-
174
CL7
-PC
B-
175
CL7
-PC
B-
176
CL7
-PC
B-
177
CL7
-PC
B-
178
CL7
-PC
B-
179
CL7
-PC
B-
180/
193
CL7
-PC
B-
181
Cor
e 6 0-
10.
186
< 0.
0969
ND
R 0
.129
1.71
< 0.
111
1.25
< 0.
102
5.92
1.97
1.05
4.86
0.25
20.
667
4.33
1.6
2.31
10.8
0.06
61-
20.
19<
0.07
95<
0.07
881.
58<
0.09
131.
26<
0.08
345.
861.
821.
044.
72N
DR
0.2
900.
724
4.47
1.52
2.27
10.8
< 0.
0466
3-4
ND
R 0
.265
< 0.
0601
ND
R 0
.175
1.83
< 0.
0690
1.25
< 0.
0711
5.88
2.04
1.03
4.66
ND
R 0
.312
0.67
94.
22N
DR
1.6
72.
3510
.60.
112
6-7
ND
R 0
.245
< 0.
0743
0.16
11.
94<
0.08
531.
64<
0.08
016.
332.
21.
225.
42N
DR
0.3
620.
822
5.11
2.06
2.9
12.1
< 0.
0577
9-10
ND
R 0
.320
< 0.
0684
ND
R 0
.174
2.35
< 0.
0786
1.83
< 0.
0739
8.28
31.
577.
65N
DR
0.3
651.
066.
282.
363.
7516
.2N
DR
0.1
399-
10 (D
uplic
ate)
0.35
5<
0.07
000.
183
2.82
< 0.
0804
2.1
< 0.
0747
8.11
2.76
1.61
7.24
0.42
51.
126.
612.
563.
4815
.2<
0.04
8812
-14
0.34
4<
0.05
770.
185
2.59
< 0.
0651
1.99
< 0.
0761
7.92
3.2
1.59
7.22
0.42
11.
076.
972.
633.
7815
.4N
DR
0.0
5214
-16
0.68
< 0.
0949
< 0.
0947
3.09
< 0.
107
2.29
< 0.
140
17.1
5.33
3.07
15.4
0.70
62.
0511
.64.
196.
237
.7<
0.04
7218
-20
ND
R 0
.326
< 0.
0835
0.17
92.
89<
0.09
432.
22<
0.08
709.
493.
271.
568.
38N
DR
0.5
461.
227.
823.
284.
517
.4N
DR
0.1
0425
-30
ND
R 0
.392
< 0.
0719
0.26
73.
13<
0.08
122.
52<
0.08
619.
73.
51.
728.
040.
461.
37.
582.
784.
1317
.90.
109
40-4
50.
588
< 0.
0979
ND
R 0
.286
3.86
< 0.
111
2.76
< 0.
118
12.1
4.51
2.07
11.5
0.53
51.
710
.43.
615.
6124
.1<
0.04
81
Cor
e 7 0-
10.
268
< 0.
156
< 0.
162
1.52
< 0.
173
ND
R 1
.16
< 0.
188
4.68
ND
R 1
.43
0.80
64.
19N
DR
0.2
71N
DR
0.5
823.
74N
DR
1.5
72.
239.
43<
0.16
81-
20.
255
<0.0
799
ND
R 0
.130
1.65
<0.0
907
1.19
<0.0
921
4.15
1.55
ND
R 0
.789
3.7
ND
R 0
.229
0.59
4.16
1.38
1.89
8.57
ND
R 0
.075
3-4
ND
R 0
.225
< 0.
141
0.16
8N
DR
1.5
4<
0.15
7N
DR
1.2
4<
0.17
45.
451.
680.
865.
35N
DR
0.1
780.
697
4.05
1.83
2.46
14.1
< 0.
132
3-4
(Dup
licat
e)N
DR
0.2
72<
0.15
1<
0.15
72.
12<
0.16
81.
7<
0.18
15.
592
ND
R 1
.04
4.72
ND
R 0
.356
ND
R 0
.813
4.84
1.96
2.61
10.2
0.15
46-
70.
267
< 0.
109
ND
R 0
.146
2.43
< 0.
121
1.87
< 0.
146
5.24
1.67
1.05
4.24
ND
R 0
.206
0.60
13.
551.
352.
149.
23<
0.13
29-
100.
158
< 0.
0462
0.08
1.08
< 0.
0462
0.72
9<
0.04
712.
960.
99N
DR
0.5
182.
770.
153
0.45
2.8
1.13
1.83
5.69
< 0.
0462
12-1
40.
232
< 0.
141
< 0.
147
0.98
2<
0.15
7N
DR
1.0
3<
0.16
83.
371.
5N
DR
0.7
623.
250.
3N
DR
0.5
80N
DR
3.0
11.
432.
097.
07<
0.14
014
-16
ND
R 0
.204
<0.1
01N
DR
0.1
391.
64<0
.115
1.03
<0.1
074.
741.
841.
064.
830.
338
0.77
44.
62N
DR
1.7
02.
810
.8<0
.050
118
-20
ND
R 0
.163
< 0.
148
0.27
61.
67<
0.16
5N
DR
1.3
0<
0.17
6N
DR
4.8
81.
83N
DR
0.9
764.
7N
DR
0.2
740.
684
3.96
1.54
2.28
10.4
< 0.
127
25-3
0<
0.08
01<
0.07
86<
0.08
17N
DR
0.2
36<
0.08
74N
DR
0.1
39<
0.09
32N
DR
0.5
080.
212
< 0.
115
0.36
8<
0.10
0<
0.07
570.
507
0.13
90.
125
ND
R 1
.15
< 0.
105
40-4
4<0
.050
0<0
.050
0<0
.050
0<0
.050
0<0
.050
0N
DR
0.0
51<0
.063
10.
114
<0.0
500
<0.0
500
0.15
<0.0
500
<0.0
500
0.08
1<0
.050
00.
102
ND
R 0
.293
<0.0
500
Cor
e N
umbe
r/Sam
ple
De p
th (c
m)
CL6
-PC
B-
159
CL6
-PC
B-
161
CL6
-PC
B-
162
CL6
-PC
B-
164
CL6
-PC
B-
165
CL6
-PC
B-
167
CL6
-PC
B-
169
CL7
-PC
B-
170
CL7
-PC
B-
171/
173
CL7
-PC
B-
172
CL7
-PC
B-
174
CL7
-PC
B-
175
CL7
-PC
B-
176
CL7
-PC
B-
177
CL7
-PC
B-
178
CL7
-PC
B-
179
CL7
-PC
B-
180/
193
CL7
-PC
B-
181
8/1-
20.
57<
0.15
3N
DR
0.3
214.
23<
0.17
23.
09<
0.17
29.
443.
651.
6210
.60.
516
1.71
9.49
3.67
6.04
19.8
ND
R 0
.156
9/1-
20.
52<
0.14
80.
291
4.29
< 0.
167
3.19
< 0.
168
9.24
3.68
1.53
10.7
0.51
41.
9311
.64.
767.
0319
.1N
DR
0.1
6110
/0-1
0.95
7<
0.29
1N
DR
0.6
788.
63<
0.32
86.
98<
0.33
020
.97.
493.
2519
.50.
979
3.18
18.9
7.93
11.1
38.9
ND
R 0
.394
11/0
-10.
54<
0.15
20.
332
4.18
< 0.
171
3.18
< 0.
166
8.41
3.33
1.42
10.1
ND
R 0
.605
1.62
11.1
4.57
6.95
19.2
0.21
312
/0-1
0.49
2<
0.10
50.
329
4.37
< 0.
118
3.04
< 0.
115
8.12
3.14
1.33
8.86
0.43
81.
488.
533.
545.
6316
.6N
DR
0.2
1913
/0-1
ND
R 0
.259
< 0.
0877
0.19
82.
14<
0.09
871.
67<
0.09
385.
182.
050.
807
5.77
ND
R 0
.257
0.93
25.
912.
223.
510
.9<
0.07
2314
/0-1
0.68
2<
0.14
30.
284
5.5
< 0.
166
3.94
< 0.
156
15.3
5.39
2.41
16.3
0.70
12.
5515
.75.
548.
8630
.60.
183
15/0
-10.
116
< 0.
0612
< 0.
0640
0.89
9<
0.07
110.
659
< 0.
0694
2.75
0.95
10.
458
2.57
ND
R 0
.117
0.37
12.
120.
825
1.21
5.67
< 0.
0505
16/0
-10.
244
< 0.
119
0.12
72.
69<
0.13
51.
86<
0.12
07.
232.
461.
296.
410.
421
0.96
15.
582.
23.
2814
.6N
DR
0.0
9117
/0-1
0.53
5<
0.24
4<
0.24
74.
83<
0.27
53.
37<
0.24
212
.54.
822.
1212
.40.
722
2.1
12.1
5.41
7.85
25.3
< 0.
130
18/0
-1N
DR
0.0
72<
0.05
83<
0.05
890.
916
< 0.
0657
0.61
6<
0.05
793.
121.
040.
551
2.78
ND
R 0
.192
ND
R 0
.401
2.35
ND
R 1
.04
1.5
6.5
< 0.
0452
19/0
-1N
DR
0.1
49<
0.07
53N
DR
0.1
241.
84<
0.08
481.
45<
0.07
345.
191.
930.
899
4.72
ND
R 0
.241
0.69
74.
561.
972.
469.
880.
061
20/0
-10.
594
< 0.
102
ND
R 0
.347
5.65
ND
R 0
.213
3.89
< 0.
0980
13.8
5.27
2.38
15.9
0.77
12.
6114
.25.
9710
.230
.2N
DR
0.1
3321
/0-1
1.56
< 0.
380
ND
R 0
.978
18.3
< 0.
428
11.2
< 0.
370
31.9
12.5
5.55
43.8
1.81
7.69
40.3
17.6
29.1
75.7
ND
R 0
.496
22/0
-1<
0.22
7<
0.22
7<
0.22
92.
84<
0.25
6N
DR
2.1
0<
0.22
85.
612.
320.
908
6.65
0.36
8N
DR
1.1
96.
773
4.66
13.1
< 0.
130
A1
TOP
N
DR
0.5
83<
0.14
2<
0.12
43.
34<
0.16
22.
2<
0.16
911
.33.
282.
2210
.60.
622
1.71
6.95
3.48
5.9
25.4
ND
R 0
.112
A1
BO
T0.
568
< 0.
130
0.17
63.
27<
0.14
72.
23<
0.13
112
.23.
652.
2610
.90.
631.
787.
413.
375.
7926
.40.
128
B1
TOP
0.27
3<
0.06
35N
DR
0.0
881.
65<
0.07
221.
04<
0.07
105.
391.
721.
024.
980.
288
0.76
53.
581.
622.
7111
.6N
DR
0.0
54B
1 B
OT
0.33
2<
0.07
580.
137
1.71
< 0.
0861
1.29
< 0.
0881
7.16
21.
235.
88N
DR
0.3
240.
847
4.67
1.76
2.77
15.9
ND
R 0
.057
Sed
imen
t Tra
ps
Tab
le 7
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)C
L7-P
CB
-18
2C
L7-P
CB
-18
3/18
5C
L7-P
CB
-18
4C
L7-P
CB
-18
6C
L7-P
CB
-18
7C
L7-P
CB
-18
8C
L7-P
CB
-18
9C
L7-P
CB
-19
0C
L7-P
CB
-19
1C
L7-P
CB
-19
2C
L8-P
CB
-19
4C
L8-P
CB
-19
5C
L8-P
CB
-19
6C
L8-P
CB
-19
7/20
0C
L8-P
CB
-19
8/19
9C
L8-P
CB
-20
1C
L8-P
CB
-20
2C
L8-P
CB
-20
3
Cor
e 1 0-
1N
DR
0.2
10<
0.04
68<
0.04
68<
0.04
6848
.7N
DR
0.1
200.
615
4.17
0.41
5<
0.04
687.
324.
554.
462.
0819
.12.
245.
239.
361-
20.
197
8.52
< 0.
0725
< 0.
0725
32N
DR
0.0
92N
DR
0.5
313.
410.
436
< 0.
0725
5.13
3.2
3.4
ND
R 1
.48
13.6
1.51
3.15
6.52
3-4
ND
R 0
.278
160.
095
< 0.
0496
68.7
0.21
60.
814
4.78
ND
R 0
.476
< 0.
0496
8.55
65.
863.
2425
.93.
167.
0512
.36-
70.
232
< 0.
0482
0.07
< 0.
0482
58N
DR
0.1
690.
794.
730.
573
< 0.
0482
7.89
5.29
5.12
2.39
222.
585.
9210
.39-
10N
DR
0.2
40<
0.04
970.
084
< 0.
0497
57.2
0.16
40.
801
4.44
0.51
9<
0.04
978.
274.
955.
482.
5622
.12.
765.
929.
9812
-14
ND
R 0
.304
< 0.
0470
ND
R 0
.127
< 0.
0470
63.6
0.26
60.
891
4.71
0.65
1<
0.04
7010
.76.
017.
563.
3429
.83.
497.
4713
.714
-16
ND
R 0
.219
11.7
0.06
5<
0.05
7635
.1N
DR
0.2
06N
DR
0.6
103
0.44
5<
0.05
767.
233.
35.
231.
816
.52
3.96
7.43
18-2
0N
DR
0.1
416.
53N
DR
0.0
95<
0.04
6918
.20.
175
0.35
41.
140.
248
< 0.
0469
5.05
1.94
3.6
1.15
10.9
1.42
2.86
4.75
25-3
0<
0.04
61<
0.04
61N
DR
0.0
56<
0.04
610.
92<
0.04
61N
DR
0.0
78N
DR
0.1
280.
064
< 0.
0461
0.32
80.
173
ND
R 0
.145
0.18
ND
R 0
.562
0.07
70.
150.
398
50-5
5<
0.04
49N
DR
0.2
03<
0.04
49<
0.04
490.
683
< 0.
0449
< 0.
0449
ND
R 0
.062
< 0.
0449
< 0.
0449
0.15
90.
064
0.10
2<
0.04
49N
DR
0.3
32N
DR
0.0
50N
DR
0.0
810.
159
Cor
e 2 0-
10.
298
37.6
0.08
< 0.
0471
71.5
0.10
32.
19.
172.
05<
0.04
7121
.99.
7213
.45.
3529
.24.
037.
1417
.71-
2N
DR
0.6
5877
.80.
134
< 0.
0474
134
0.18
85.
2624
.45.
31<
0.04
7447
.321
.627
.510
.362
.87.
7611
.835
.93-
4N
DR
0.5
5780
ND
R 0
.082
< 0.
0478
152
0.17
14.
3322
.14.
8<
0.04
7848
.321
.929
.110
.864
.69.
2414
.237
.16-
70.
5772
.9N
DR
0.1
64<
0.04
7813
60.
227
3.75
17.9
3.76
< 0.
0478
3718
.924
.29.
3558
.18.
0714
.134
9-10
0.76
511
90.
161
< 0.
0491
219
0.26
6.8
33.4
6.92
< 0.
0491
62.2
31.6
41.8
13.8
9211
.920
.854
.212
-14
0.54
986
.20.
11<
0.04
6216
20.
273
4.56
22.4
5.07
< 0.
0462
45.2
22.9
28.8
10.3
68.4
9.31
16.1
39.9
14-1
61.
3917
7N
DR
0.2
01<
0.04
7630
70.
586
10.9
50.1
11.3
< 0.
0476
107
49.9
65.7
22.2
145
18.4
26.5
82.5
14-1
6 (D
uplic
ate)
1.51
194
0.22
2<
0.04
8332
80.
565
11.3
54.5
12.3
< 0.
0483
116
5469
.923
.415
519
.429
.688
.718
-20
1.19
173
0.27
< 0.
0493
307
0.71
99.
3543
.810
.5N
DR
0.1
2895
.942
.360
.619
.613
018
.233
.174
.925
-30
ND
R 0
.114
6.24
0.20
1<
0.04
8613
.7N
DR
0.1
900.
342
1.71
0.22
8<
0.04
867.
433.
645.
232.
1115
2.36
4.73
7.75
35-4
0<
0.04
72N
DR
0.3
13<
0.04
72<
0.04
720.
599
< 0.
0472
< 0.
0472
ND
R 0
.079
< 0.
0472
< 0.
0472
ND
R 0
.209
ND
R 0
.090
ND
R 0
.127
ND
R 0
.067
0.37
80.
06N
DR
0.0
760.
172
Cor
e 3 0-
10.
126
10.7
0.18
< 0.
0477
22.7
ND
R 0
.050
0.51
92.
820.
504
0.04
87.
242.
93.
821.
4710
.41.
312.
645.
91-
2N
DR
0.1
3612
.20.
171
< 0.
0469
24.1
ND
R 0
.055
0.73
43.
690.
745
< 0.
0469
8.75
3.73
4.67
1.8
12.1
1.55
2.51
6.69
3-4
0.18
422
.30.
213
< 0.
0472
41.3
ND
R 0
.068
1.18
6.04
1.17
< 0.
0472
15.7
6.6
8.76
2.86
18.6
2.26
4.09
11.1
3-4
(Dup
licat
e)0.
1313
.30.
223
< 0.
0469
27.3
ND
R 0
.052
0.87
63.
90.
717
< 0.
0469
10.8
4.48
5.53
1.79
13.3
1.63
3.17
7.88
6-7
0.13
111
.80.
158
< 0.
0473
24.7
0.05
50.
621
3.09
0.59
7<
0.04
737.
823.
214.
111.
4510
.81.
352.
766.
249-
100.
108
11.1
0.08
1<
0.04
6624
.90.
055
0.63
2.97
0.56
6<
0.04
667.
643.
54.
491.
6412
.61.
6N
Q6.
9812
-14
0.09
414
.5N
DR
0.0
57<
0.04
7431
.7<
0.04
740.
688
3.88
0.65
50.
053
6.97
4.03
4.8
1.72
13.7
1.84
3.54
7.82
14-1
60.
118
18.2
ND
R 0
.052
< 0.
0475
39.3
ND
R 0
.080
0.84
84.
880.
883
< 0.
0475
9.68
5.69
6.68
2.69
18.8
2.54
4.16
10.3
18-2
00.
182
22.2
ND
R 0
.048
< 0.
0473
49.8
0.08
51.
066.
21
< 0.
0473
11.3
6.43
7.7
2.94
222.
975.
5912
.425
-30
0.40
834
.2N
DR
0.0
71<
0.05
0572
0.20
61.
559.
771.
76<
0.05
0518
.911
.415
.85.
8544
5.59
9.53
24.1
40-4
50.
507
52.4
ND
R 0
.104
< 0.
0470
103
0.13
32.
7415
.42.
92<
0.04
7030
.716
.521
.48.
5854
.17.
0310
.331
.5
Cor
e 4 1-
2N
DR
0.0
613.
64<0
.052
0<0
.052
07.
9<0
.052
00.
182
0.92
10.
172
<0.0
520
2.38
0.98
91.
20.
475
3.72
0.47
90.
837
1.74
14-1
6<0
.049
43.
76<0
.049
4<0
.049
48.
03<0
.049
40.
224
1.18
ND
R 0
.234
<0.0
494
3.02
1.48
1.96
0.77
35.
140.
566
1.22
2.75
14-1
6 (D
uplic
ate)
0.06
63.
32<0
.047
8<0
.047
86.
97<0
.047
8N
DR
0.1
570.
838
0.22
9<0
.047
82.
031.
021.
220.
472
3.11
ND
R 0
.409
0.78
91.
6830
-35
0.08
66.
58<0
.050
0<0
.050
014
.10.
05N
DR
0.3
691.
82N
DR
0.3
40<0
.050
03.
751.
922.
360.
883
6.12
0.81
71.
393.
32
Cor
e 5 0-
1N
DR
0.1
506.
25<
0.04
86<
0.04
8617
.20.
06N
DR
0.4
431.
98N
DR
0.2
71<
0.04
864.
932.
82.
71.
178.
56N
DR
0.9
662.
255.
041-
2N
DR
0.1
487.
33<0
.052
1<0
.052
117
ND
R 0
.053
0.59
12.
470.
474
<0.0
521
5.63
3.08
2.44
ND
R 1
.08
6.88
ND
R 0
.914
2.1
3.53
3-4
0.07
110
.1<
0.04
88<
0.04
8829
.80.
076
0.67
33.
570.
524
< 0.
0488
7.17
4.04
3.85
1.36
13.6
1.63
4.11
7.35
6-7
0.07
15.
18<
0.05
09<
0.05
0915
.1<
0.05
090.
367
1.86
ND
R 0
.265
< 0.
0509
3.25
2.02
2.13
0.88
97.
150.
875
2.03
4.18
9-10
ND
R 0
.100
6.2
ND
R 0
.055
< 0.
0480
17.4
ND
R 0
.093
0.47
62.
15N
DR
0.3
30<
0.04
804.
162.
752.
371.
128.
081.
092.
24.
6912
-14
ND
R 0
.112
8.44
ND
R 0
.082
< 0.
0484
22.3
ND
R 0
.067
ND
R 0
.716
3.26
ND
R 0
.528
< 0.
0484
6.74
3.4
41.
6712
.41.
53.
287.
7214
-16
ND
R 0
.180
11.3
ND
R 0
.073
<0.0
464
35.4
ND
R 0
.104
0.72
83.
830.
555
<0.0
464
7.47
5.13
4.46
2.39
16.1
2.05
4.55
8.41
18-2
0N
DR
0.1
488.
71<
0.04
80<
0.04
8024
.9N
DR
0.0
930.
535
2.72
0.49
2<
0.04
875.
35N
DR
3.3
23.
461.
5111
.21.
482.
926.
1425
-30
ND
R 0
.172
12.8
ND
R 0
.048
< 0.
0478
35.6
ND
R 0
.083
0.84
34.
320.
584
< 0.
0517
7.98
4.95
4.97
2.44
17.2
1.95
49.
1245
-50
0.23
918
.7<0
.052
9<0
.052
953
ND
R 0
.109
ND
R 1
.23
5.87
0.84
4<0
.052
914
.37.
398.
633.
9826
.42.
966.
6414
.7
Tab
le 7
: Con
tinue
d.Sa
mpl
e D
epth
(c
m)
CL7
-PC
B-
182
CL7
-PC
B-
183/
185
CL7
-PC
B-
184
CL7
-PC
B-
186
CL7
-PC
B-
187
CL7
-PC
B-
188
CL7
-PC
B-
189
CL7
-PC
B-
190
CL7
-PC
B-
191
CL7
-PC
B-
192
CL8
-PC
B-
194
CL8
-PC
B-
195
CL8
-PC
B-
196
CL8
-PC
B-
197/
200
CL8
-PC
B-
198/
199
CL8
-PC
B-
201
CL8
-PC
B-
202
CL8
-PC
B-
203
Cor
e 6 0-
10.
098
4.11
< 0.
0469
< 0.
0469
9.34
< 0.
0469
0.28
61.
150.
208
< 0.
0469
2.84
1.37
ND
R 1
.83
0.63
14.
490.
631
ND
R 1
.04
2.47
1-2
0.07
64.
06<
0.04
66<
0.04
669.
50.
048
0.30
91.
140.
194
< 0.
0466
2.79
1.35
ND
R 1
.70
0.52
34.
780.
627
1.31
2.43
3-4
< 0.
0554
4.28
< 0.
0473
< 0.
0473
9.58
< 0.
0473
0.25
41.
11N
DR
0.2
24<
0.04
922.
831.
551.
740.
577
4.86
0.58
81.
342.
676-
7<
0.05
494.
67<
0.04
68<
0.04
6811
.5<
0.04
680.
296
1.4
ND
R 0
.259
< 0.
0486
3.24
1.7
2.1
0.71
5.77
0.69
31.
622.
969-
10N
DR
0.0
655.
95<
0.04
88<
0.04
8814
.5N
DR
0.0
50N
DR
0.3
091.
790.
255
< 0.
0488
4.76
2.18
2.63
1.04
7.05
0.98
61.
713.
859-
10 (D
uplic
ate)
< 0.
0488
5.99
< 0.
0488
< 0.
0488
14.4
< 0.
0488
0.43
81.
73N
DR
0.2
98<
0.04
883.
962.
052.
460.
934
6.99
0.90
31.
83.
6612
-14
0.10
76.
09<
0.04
69<
0.04
6915
.2N
DR
0.0
55N
DR
0.3
721.
83N
DR
0.2
31<
0.04
694.
061.
912.
450.
923
7.32
1.02
1.97
4.28
14-1
6N
DR
0.1
3412
.3<
0.04
72<
0.04
7224
.3N
DR
0.1
010.
727
3.94
0.77
8<
0.04
7211
.24.
416.
791.
8515
.51.
842.
978.
7818
-20
< 0.
0598
7.11
< 0.
0479
< 0.
0482
17.5
0.04
80.
545
2.21
ND
R 0
.303
< 0.
0533
4.18
2.39
2.92
1.03
8.66
1.05
2.29
4.52
25-3
0N
DR
0.1
037.
53<
0.04
81<
0.04
8116
.1<
0.04
810.
561
2.09
ND
R 0
.345
< 0.
0481
5.4
2.46
3.03
1.13
9.16
1.12
2.02
4.45
40-4
50.
094
9.72
< 0.
0481
< 0.
0481
21.2
0.05
10.
488
2.57
ND
R 0
.542
< 0.
0481
6.68
3.3
ND
R 4
.07
1.45
10.7
1.36
2.71
5.39
Cor
e 7 0-
1<
0.15
13.
43<
0.11
7<
0.12
79.
08<
0.11
10.
345
ND
R 0
.875
ND
R 0
.186
< 0.
146
2.92
ND
R 1
.25
1.44
0.84
65.
4N
DR
0.7
541.
423.
21-
2N
DR
0.0
892.
9<0
.047
4<0
.047
47.
31<0
.047
4N
DR
0.2
040.
857
0.14
2<0
.047
41.
990.
987
0.98
30.
471
3.15
0.42
80.
978
1.58
3-4
ND
R 0
.150
4.12
ND
R 0
.093
< 0.
100
10.7
< 0.
0889
0.28
1.17
< 0.
107
< 0.
115
6.7
1.79
2.36
1.04
7.24
ND
R 0
.626
ND
R 1
.33
3.77
3-4
(Dup
licat
e)<
0.12
63.
56<
0.09
78<
0.10
610
.7<
0.09
74N
DR
0.3
251.
26N
DR
0.1
98<
0.12
23.
051.
521.
440.
678
ND
R 5
.35
0.82
81.
38N
DR
2.5
86-
7<
0.11
93.
39<
0.09
20<
0.10
08.
24<
0.09
170.
293
ND
R 1
.01
ND
R 0
.238
< 0.
115
2.35
0.88
31.
320.
613
4.04
< 0.
135
ND
R 1
.13
2.04
9-10
< 0.
0462
2.26
< 0.
0462
< 0.
0462
6.11
< 0.
0462
ND
R 0
.123
0.66
ND
R 0
.086
< 0.
0462
1.56
0.86
20.
862
0.31
72.
63N
DR
0.3
16N
DR
0.8
421.
4412
-14
< 0.
126
ND
R 3
.15
< 0.
0973
< 0.
106
7.37
< 0.
0960
ND
R 0
.166
0.64
< 0.
112
< 0.
121
2.5
ND
R 0
.987
1.45
ND
R 0
.525
4.22
ND
R 0
.540
ND
R 1
.07
1.95
14-1
60.
091
4.28
<0.0
501
<0.0
501
9.71
0.10
30.
227
0.87
80.
209
<0.0
501
3.28
ND
R 1
.31
1.96
ND
R 0
.817
5.47
0.78
1.41
2.53
18-2
0N
DR
0.1
463.
93<
0.08
84<
0.09
628.
63<
0.09
050.
349
ND
R 1
.04
ND
R 0
.236
< 0.
110
3.84
1.41
1.84
0.81
9N
DR
5.1
10.
511
ND
R 1
.15
2.56
25-3
0<
0.09
42N
DR
0.3
46<
0.07
30<
0.07
94N
DR
0.8
45<
0.07
67<
0.08
58<
0.08
68<
0.08
42<
0.09
11N
DR
0.3
17<
0.10
2<
0.15
4<
0.11
30.
485
ND
R 0
.142
< 0.
125
ND
R 0
.420
40-4
4<0
.050
00.
145
<0.0
500
<0.0
500
0.19
9<0
.050
0<0
.050
0<0
.050
0<0
.050
0<0
.050
00.
07<0
.050
00.
067
<0.0
500
ND
R 0
.074
<0.0
500
<0.0
500
<0.0
500
Cor
e N
umbe
r/Sam
ple
De p
th (c
m)
CL7
-PC
B-
182
CL7
-PC
B-
183/
185
CL7
-PC
B-
184
CL7
-PC
B-
186
CL7
-PC
B-
187
CL7
-PC
B-
188
CL7
-PC
B-
189
CL7
-PC
B-
190
CL7
-PC
B-
191
CL7
-PC
B-
192
CL8
-PC
B-
194
CL8
-PC
B-
195
CL8
-PC
B-
196
CL8
-PC
B-
197/
200
CL8
-PC
B-
198/
199
CL8
-PC
B-
201
CL8
-PC
B-
202
CL8
-PC
B-
203
8/1-
20.
102
7.22
< 0.
0829
< 0.
0829
21.3
< 0.
0829
0.38
2.29
ND
R 0
.353
< 0.
0829
4.37
2.78
2.36
1.19
9.02
1.04
2.62
4.59
9/1-
20.
097
7.51
< 0.
0843
< 0.
0843
29.6
< 0.
0843
0.52
82.
840.
299
< 0.
0843
4.48
3.21
2.4
1.46
111.
183.
525.
8510
/0-1
ND
R 0
.226
13.8
< 0.
208
< 0.
208
46.9
< 0.
208
ND
R 1
.10
5.02
0.68
4<
0.20
88.
625.
014.
262.
3217
.42.
135.
089.
5311
/0-1
ND
R 0
.135
7.3
< 0.
131
< 0.
131
28.1
< 0.
131
0.37
92.
56N
DR
0.2
74<
0.13
13.
992.
442.
061.
119.
921.
143.
345.
3712
/0-1
< 0.
0945
6.65
< 0.
0945
< 0.
0945
22<
0.09
450.
42.
340.
272
< 0.
0945
3.43
2.35
1.99
0.99
17.
830.
934
2.67
4.41
13/0
-1<
0.07
234.
17<
0.07
23<
0.07
2313
.9<
0.07
230.
231
1.45
0.15
6<
0.07
232.
431.
581.
410.
641
5.65
0.62
71.
633.
0714
/0-1
ND
R 0
.136
10.2
0.06
7<
0.06
1632
.60.
095
0.61
13.
970.
546
< 0.
0704
6.73
4.42
3.51
2.01
14.2
1.68
3.94
7.38
15/0
-1<
0.05
052.
09<
0.05
05<
0.05
055.
04<
0.05
05N
DR
0.1
400.
588
ND
R 0
.115
< 0.
0505
1.41
0.65
0.66
30.
347
2.17
0.26
10.
601
1.17
16/0
-10.
131
5.34
< 0.
0501
< 0.
0501
13.9
< 0.
0501
0.31
21.
450.
285
< 0.
0501
3.53
1.71
1.73
0.76
95.
310.
682
1.52
2.77
17/0
-1<
0.13
09.
55<
0.13
0<
0.13
031
.8<
0.13
00.
498
3.16
ND
R 0
.483
< 0.
130
6.27
3.53
3.18
ND
R 1
.57
12.2
1.4
3.85
6.92
18/0
-10.
052.
26<
0.04
52<
0.04
526.
16<
0.04
520.
153
0.55
2N
DR
0.1
53<
0.04
521.
950.
753
0.92
20.
355
2.69
0.33
60.
752
1.3
19/0
-1<
0.04
733.
91<
0.04
73<
0.04
7311
.4<
0.04
730.
233
1.15
ND
R 0
.186
< 0.
0473
2.87
1.37
1.35
0.57
34.
610.
521
1.48
2.47
20/0
-1N
DR
0.1
5512
.2<
0.06
11<
0.06
1138
.50.
093
0.61
3.66
0.50
8<
0.06
117.
954.
454.
231.
9814
.72.
054.
518.
0621
/0-1
ND
R 0
.365
28<
0.26
7<
0.26
711
0<
0.26
7N
DR
1.4
49.
061.
15<
0.26
719
.511
.18.
835.
1239
.54.
3613
.219
.622
/0-1
< 0.
130
5<
0.13
0<
0.13
017
.8<
0.13
0<
0.24
01.
440.
203
< 0.
130
3.26
21.
820.
952
7.53
0.85
72.
183.
67
A1
TOP
0.
177
8.44
0.21
9<
0.04
9118
.6N
DR
0.0
720.
542
2.35
0.47
6<
0.04
916.
792.
523.
851.
439.
811.
192.
095.
67A
1 B
OT
0.12
58.
480.
184
< 0.
0486
18.3
< 0.
0486
0.5
2.45
ND
R 0
.501
< 0.
0486
6.7
2.7
4.11
1.42
10.1
1.29
2.06
5.75
B1
TOP
0.06
93.
79<
0.04
89<
0.04
899.
1<
0.04
890.
244
1.09
0.24
1<
0.04
893.
371.
261.
89N
DR
0.6
224.
880.
583
1.01
2.61
B1
BO
T0.
064.
79<
0.04
92<
0.04
9210
.9<
0.04
92N
DR
0.3
161.
550.
239
< 0.
0492
4.59
1.84
2.68
0.76
6.22
0.68
21.
143.
5
Sed
imen
t Tra
ps
Tab
le 7
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)C
L8-P
CB
-20
4C
L8-P
CB
-20
5C
L9-P
CB
-20
6C
L9-P
CB
-20
7C
L9-P
CB
-20
8C
L10-
PCB
-20
9%
Moi
stur
eTo
tal
Mon
ochl
oro
Bi p
heny
l
Tota
l D
ichl
oro
Bi p
heny
l
Tota
l Tr
ichl
oro
Bi p
heny
l
Tota
l Te
trac
hlor
o B
i phe
nyl
Tota
l Pe
ntac
hlor
o B
i phe
nyl
Tota
l H
exac
hlor
o B
i phe
nyl
Tota
l H
epta
chlo
ro
Bi p
heny
l
Tota
l O
ctac
hlor
o B
i phe
nyl
Tota
l N
onac
hlor
o B
i phe
nyl
Dec
achl
oro
Bip
heny
l
Cor
e 1 0-
1<
0.04
680.
726
11.1
1.48
4.18
9.39
77.1
NQ
22.8
24.2
550
832
672
178
55.1
16.8
9.39
1-2
< 0.
0725
0.41
16.
841.
142.
476.
7882
10.5
49.2
189
481
670
498
134
36.9
10.5
6.78
3-4
ND
R 0
.059
0.94
915
.41.
775.
5613
.575
.114
.683
.427
476
910
3084
124
873
22.7
13.5
6-7
< 0.
0482
0.72
213
1.72
4.58
12.1
75.7
NQ
29.5
254
747
958
763
203
62.2
19.3
12.1
9-10
ND
R 0
.050
0.77
513
.71.
744.
7612
.475
.515
.994
.832
588
010
6079
020
662
.820
.212
.412
-14
ND
R 0
.056
0.83
735
.53.
8612
.726
.573
.115
.210
738
211
0012
6086
122
682
.952
.126
.514
-16
< 0.
0576
0.53
510
.31.
773.
769.
7474
.210
.661
.823
166
183
149
514
948
15.8
9.74
18-2
0<
0.04
690.
322
9.02
1.35
3.51
7.91
73.1
2.47
2268
.821
926
919
270
.432
13.9
7.91
25-3
0<
0.04
61<
0.04
61<
0.65
1<
0.46
7<
0.52
31.
0371
.64.
573.
236.
0515
.821
.514
.62.
651.
31<
1.03
50-5
5<
0.04
49<
0.04
490.
177
< 0.
0753
0.12
ND
R 0
.206
67.3
1.88
26.
213
.414
.38.
762.
130.
484
0.29
7<
0.04
49
Cor
e 2 0-
1<
0.04
711.
5614
.11.
894.
388.
3863
.68.
5256
.120
943
678
886
541
211
020
.48.
381-
2<
0.04
742.
7226
.33.
48.
8838
.958
.219
.511
035
272
616
0020
1091
522
838
.638
.93-
4<
0.04
783.
1626
.43.
417.
820
54.6
10.7
105
351
776
2020
2010
939
238
37.6
206-
7N
DR
0.0
612.
5927
.13.
578.
7121
.453
.647
409
826
1560
1680
752
206
39.4
21.4
9-10
< 0.
0491
4.22
39.5
4.88
11.8
25.1
52.7
29.7
184
563
1130
2930
2890
1320
333
56.2
25.1
12-1
4N
DR
0.0
563.
0331
.34.
089.
7225
.547
.228
174
543
865
1840
1910
919
244
45.1
25.5
14-1
6N
DR
0.0
796.
2654
.47.
5819
.550
.347
.852
259
830
1940
4360
4760
2000
523
81.5
50.3
14-1
6 (D
uplic
ate)
ND
R 0
.083
6.67
58.4
8.45
21.3
5048
.652
.628
494
018
7037
1046
4021
6056
35.
033.
8818
-20
ND
R 0
.066
5.86
80.1
9.57
27.5
82.2
48.1
28.5
323
923
2200
3690
4220
1930
480
117
82.2
25-3
0<
0.04
86N
DR
0.3
7331
.93.
112
.144
.449
.87.
389.
9723
.136
.272
.476
.173
.948
.347
.144
.435
-40
< 0.
0472
< 0.
0472
ND
R 0
.226
< 0.
0673
ND
R 0
.095
0.32
849
.71.
421.
233.
054.
346.
024.
072.
260.
61<
0.08
660.
328
Cor
e 3 0-
1<
0.04
770.
397
5.23
0.71
91.
763.
542
.47.
6250
.513
625
332
327
112
336
.17.
713.
51-
2<
0.04
690.
485.
080.
827
1.74
3.96
46.9
6.07
48.5
134
245
427
382
148
42.3
7.65
3.96
3-4
< 0.
0472
1.01
6.96
0.76
22.
074.
242
.48.
2855
154
268
333
372
252
719.
794.
23-
4 (D
uplic
ate)
< 0.
0469
0.61
45.
940.
715
1.94
4.23
8.69
53.8
144
261
341
302
158
49.2
6-7
< 0.
0473
0.41
85.
380.
545
1.7
4.21
41.4
8.54
51.3
141
274
365
309
136
38.2
7.63
4.21
9-10
< 0.
0466
0.43
15.
330.
728
1.85
3.94
32.8
9.61
62.1
159
283
373
307
129
38.9
7.91
3.94
12-1
4<
0.04
740.
618
6.41
0.92
32.
234.
3635
.514
86.1
232
428
537
401
153
459.
564.
3614
-16
< 0.
0475
0.76
37.
791.
012.
815.
7138
13.7
93.1
327
552
565
485
196
61.3
11.6
5.71
18-2
0<
0.04
730.
977
10.1
1.44
3.46
6.27
41.1
20.6
232
803
981
763
579
242
72.3
156.
2725
-30
< 0.
0550
1.65
45.5
5.52
17.5
24.7
4227
.118
165
612
4011
6081
336
813
768
.524
.740
-45
< 0.
0470
2.19
20.8
2.78
6.52
9.21
37.7
36.8
195
1120
2870
2910
1880
585
182
30.1
9.21
Cor
e 4 1-
2<0
.052
00.
148
1.67
ND
R 0
.305
0.72
81.
4845
.21.
7816
.964
.712
712
194
.342
.512
2.39
1.48
14-1
6<0
.049
4N
DR
0.1
872.
50.
398
0.68
4N
DR
1.9
736
.54.
3128
.167
.313
012
811
643
.316
.93.
58<0
.049
414
-16
(Dup
licat
e)<0
.047
8N
DR
0.1
421.
810.
273
0.69
41.
5635
3.91
35.3
109
155
131
105
3910
.38.
64.
2330
-35
<0.0
500
0.24
62.
950.
492
1.1
2.64
35.3
6.55
44.5
116
241
285
221
75.7
20.8
4.54
2.64
Cor
e 5 0-
1<
0.06
80N
DR
0.4
115.
040.
626
1.72
4.96
63.6
9.74
65.5
160
275
293
201
79.7
27.5
7.39
4.96
1-2
<0.0
521
0.37
63.
960.
605
1.47
4.15
69.6
8.65
48.7
126
208
206
239
98.2
246.
034.
153-
4<
0.04
880.
666
8.38
ND
R 1
.38
2.84
7.27
61.8
12.4
103
281
476
408
320
133
43.8
11.2
7.27
6-7
< 0.
0551
0.33
44.
190.
561.
455.
1559
.98.
8854
.311
922
524
417
469
.422
.96.
25.
159-
10<
0.04
800.
342
4.62
0.64
1.77
5.36
56.1
9.28
6314
126
329
721
681
.326
.87.
035.
3612
-14
< 0.
0517
ND
R 0
.469
7.9
0.87
42.
655.
9656
.611
.181
236
353
352
295
113
40.7
11.4
5.96
14-1
6N
DR
0.0
47N
DR
0.6
598.
691.
23.
119.
2157
.813
.710
829
250
352
144
915
750
.513
9.21
18-2
0<
0.05
830.
526
5.73
0.71
12.
065.
5457
.211
.485
.820
635
934
826
811
432
.68.
55.
5425
-30
< 0.
0685
0.74
48.
031.
113.
027.
8356
17.5
122
317
566
533
396
167
53.4
12.2
7.83
45-5
0<0
.052
90.
966
13.6
2.26
4.59
12.2
5729
.715
564
613
4010
9077
725
186
20.5
12.2
Tab
le 7
: Con
tinue
d.Sa
mpl
e D
epth
(c
m)
CL8
-PC
B-
204
CL8
-PC
B-
205
CL9
-PC
B-
206
CL9
-PC
B-
207
CL9
-PC
B-
208
CL1
0-PC
B-
209
% M
oist
ure
Tota
l M
onoc
hlor
o B
i phe
nyl
Tota
l D
ichl
oro
Bi p
heny
l
Tota
l Tr
ichl
oro
Bi p
heny
l
Tota
l Te
trac
hlor
o B
i phe
nyl
Tota
l Pe
ntac
hlor
o B
i phe
nyl
Tota
l H
exac
hlor
o B
i phe
nyl
Tota
l H
epta
chlo
ro
Bi p
heny
l
Tota
l O
ctac
hlor
o B
i phe
nyl
Tota
l N
onac
hlor
o B
i phe
nyl
Dec
achl
oro
Bip
heny
l
Cor
e 6 0-
1<
0.05
79N
DR
0.2
132.
780.
348
1.11
3.18
52.8
10.4
49.3
101
164
159
114
4912
.44.
243.
181-
2<
0.04
710.
182.
730.
419
ND
R 1
.01
2.81
55.5
6.62
39.9
86.2
150
150
111
48.6
143.
152.
813-
4<
0.06
630.
206
3.34
0.44
31.
263.
1550
.57.
0245
.810
717
716
611
646
.816
.45.
043.
156-
7<
0.06
830.
268
3.33
0.46
21.
123.
5848
.47.
5150
.212
021
019
314
156
19.1
4.91
3.58
9-10
< 0.
0488
0.35
95.
360.
934
2.36
22.6
46.2
7.98
55.5
139
235
250
173
72.6
24.6
8.65
22.6
9-10
(Dup
licat
e)<
0.04
910.
285
3.59
ND
R 0
.617
1.44
3.88
46.4
8.94
58.9
141
245
253
182
71.7
232.
781.
5612
-14
< 0.
0495
ND
R 0
.255
4.16
ND
R 0
.620
1.6
4.14
438.
4365
.415
625
725
217
973
.423
.95.
764.
1414
-16
< 0.
0571
0.61
96.
06N
DR
0.9
511.
994.
8242
.29.
0361
.114
724
924
921
914
554
8.05
4.82
18-2
0<
0.08
00N
DR
0.3
905.
08N
DR
0.6
912.
125.
6142
.99.
9472
.216
729
128
420
184
.327
7.2
5.61
25-3
0<
0.05
09N
DR
0.4
744.
70.
696
1.79
4.56
40.1
12.4
88.6
222
334
270
226
83.5
28.8
7.19
4.56
40-4
5<
0.05
560.
495.
80.
824
2.15
5.62
41.9
13.8
107
268
421
324
275
110
32.1
8.77
5.62
Cor
e 7 0-
1<
0.15
3N
DR
0.4
074.
080.
423
1.36
2.38
50.6
5.8
31.5
74.5
125
114
93.9
37.9
15.2
5.86
2.38
1-2
<0.0
474
0.16
62.
380.
273
0.74
72.
6147
.33.
9726
.675
.212
413
811
237
.210
.73.
42.
613-
4<
0.14
2N
DR
0.3
813.
920.
385
0.97
92.
1339
.85.
3519
.178
.513
812
093
.752
.722
.95.
282.
133-
4 (D
uplic
ate)
< 0.
127
ND
R 0
.223
3.11
ND
R 0
.381
1.13
3.23
39.8
6.97
24.5
101
175
181
134
47.6
8.9
88.1
506-
7<
0.13
5N
DR
0.2
372.
37N
DR
0.2
69N
DR
0.8
712.
1638
.32.
9917
.779
.213
817
814
541
11.2
2.37
2.16
9-10
< 0.
0462
ND
R 0
.117
1.72
0.29
60.
708
2.01
30.8
3.17
21.8
53.6
96.3
95.1
73.9
27.8
7.67
2.72
2.01
12-1
4<
0.13
8<
0.15
13.
73N
DR
0.4
591.
514.
1833
.55.
310
.178
.516
312
782
.127
10.1
5.24
4.18
14-1
6<0
.050
10.
228
4.37
0.63
41.
775.
4638
.21.
3113
.278
.415
615
111
347
.315
.76.
785.
4618
-20
< 0.
145
< 0.
132
3.72
ND
R 0
.469
1.46
3.28
37.2
2.96
27.7
172
270
183
101
38.3
115.
183.
2825
-30
< 0.
111
< 0.
0931
ND
R 0
.264
< 0.
100
< 0.
104
ND
R 0
.395
42.1
< <
6.63
139.
323.
641.
350.
485
< <
40-4
4<0
.050
0<0
.050
0<0
.151
<0.1
18<0
.128
ND
R 0
.093
43.1
1.06
0.78
72.
896.
745.
131.
910.
791
0.13
7<0
.151
<0.0
500
Cor
e N
umbe
r/Sam
ple
De p
th (c
m)
CL8
-PC
B-
204
CL8
-PC
B-
205
CL9
-PC
B-
206
CL9
-PC
B-
207
CL9
-PC
B-
208
CL1
0-PC
B-
209
% M
oist
ure
Tota
l M
onoc
hlor
o B
i phe
nyl
Tota
l D
ichl
oro
Bi p
heny
l
Tota
l Tr
ichl
oro
Bi p
heny
l
Tota
l Te
trac
hlor
o B
i phe
nyl
Tota
l Pe
ntac
hlor
o B
i phe
nyl
Tota
l H
exac
hlor
o B
i phe
nyl
Tota
l H
epta
chlo
ro
Bi p
heny
l
Tota
l O
ctac
hlor
o B
i phe
nyl
Tota
l N
onac
hlor
o B
i phe
nyl
Dec
achl
oro
Bip
heny
l
8/1-
2<
0.08
290.
335.
27N
DR
0.7
082.
0410
.876
.515
.578
.917
929
040
129
997
.828
.37.
3110
.89/
1-2
< 0.
0843
0.44
57.
330.
847
2.69
10.7
74.3
NQ
109
226
382
394
312
111
33.5
10.9
10.7
10/0
-1<
0.20
80.
658
101.
53.
4714
.585
.419
104
248
529
725
625
199
5515
14.5
11/0
-1<
0.13
10.
456
6.06
ND
R 1
.41
2.35
13.1
84.5
15.7
71.9
181
346
414
316
105
29.8
8.41
13.1
12/0
-1<
0.09
45N
DR
0.3
685.
91N
DR
1.7
12.
3210
.181
.821
.763
.316
530
339
530
589
.324
.68.
2310
.113
/0-1
< 0.
0723
0.23
33.
21N
DR
0.7
891.
278.
3478
.915
.555
.710
518
220
615
857
.217
.34.
488.
3414
/0-1
< 0.
0535
0.65
28.
220.
993.
048.
9973
.917
.877
.122
638
846
536
915
244
.512
.38.
9915
/0-1
< 0.
0505
ND
R 0
.110
1.54
ND
R 0
.221
0.49
92.
6466
.95.
6128
48.3
69.9
77.3
62.4
24.6
7.27
2.04
2.64
16/0
-1<
0.05
01N
DR
0.2
363.
33N
DR
0.4
341.
093.
250
.24.
5456
.116
021
825
918
565
.918
4.42
3.2
17/0
-1<
0.13
0N
DR
0.5
247.
73N
DR
0.8
91N
DR
3.6
212
.675
.59.
5311
225
240
544
435
213
037
.47.
7312
.618
/0-1
< 0.
0452
ND
R 0
.109
1.64
0.19
30.
657
1.75
32.5
0.93
24.1
57.7
87.2
88.8
67.2
279.
062.
491.
7519
/0-1
< 0.
0473
0.20
22.
830.
371
12.
8251
4.8
46.5
108
156
160
132
49.1
15.4
4.2
2.82
20/0
-1<
0.06
110.
624
8.33
1.07
2.81
8.09
68.1
1610
128
149
252
442
115
748
.612
.28.
0921
/0-1
< 0.
267
1.36
212.
97.
2919
73.1
9.53
147
468
955
1540
1290
414
123
31.2
1922
/0-1
< 0.
130
0.33
34.
660.
547
1.7
5.29
84.4
< 50
.811
121
124
820
267
.822
.66.
915.
29
A1
TOP
<
0.04
910.
359
4.4
0.59
51.
533.
971
.73.
2348
.511
720
726
925
010
233
.76.
533.
9A
1 B
OT
< 0.
0486
0.38
94.
480.
599
1.51
3.28
686.
8163
.415
722
126
624
510
534
.56.
593.
28B
1 TO
P<
0.04
890.
192
2.53
ND
R 0
.312
0.89
11.
9975
.44.
6857
.515
918
013
611
648
.215
.83.
421.
99B
1 B
OT
< 0.
0492
ND
R 0
.292
3.12
0.4
0.96
52.
1468
.31.
8738
.886
.812
915
313
259
.821
.44.
492.
14
Sed
imen
t Tra
ps
Tab
le 7
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)TO
TAL
PCB
sTE
Q (W
HO
19
98) N
D=0
TEQ
(WH
O
1998
) N
D=1
/2D
L
Cor
e 1 0-
123
600.
119
0.12
1-2
2090
0.08
270.
0839
3-4
3370
0.15
80.
159
6-7
3050
0.14
30.
144
9-10
3470
0.15
20.
153
12-1
441
100.
186
0.18
714
-16
2510
0.11
60.
118
18-2
089
60.
0634
0.06
4225
-30
70.8
0.00
0781
0.00
586
50-5
549
.50.
0004
080.
0070
7
Cor
e 2 0-
129
100.
0293
0.03
951-
260
300.
162
0.16
73-
465
100.
0749
0.18
6-7
5550
0.14
90.
151
9-10
9450
0.26
90.
271
12-1
465
900.
176
0.17
714
-16
1480
00.
339
0.34
814
-16
(Dup
licat
e)14
400
0.33
70.
346
18-2
014
000
0.31
0.31
325
-30
439
0.00
264
0.00
746
35-4
023
.30.
0001
790.
0061
1
Cor
e 3 0-
112
100.
0444
0.04
481-
214
400.
0618
0.06
263-
415
300.
0512
0.05
213-
4 (D
uplic
ate)
1330
0.03
960.
046-
713
400.
0413
0.04
179-
1013
700.
0487
0.04
9112
-14
1910
0.06
580.
0663
14-1
623
100.
0784
0.07
9318
-20
3720
0.09
010.
0908
25-3
046
800.
127
0.12
940
-45
9820
0.21
70.
22
Cor
e 4 1-
248
40.
0042
50.
0175
14-1
653
70.
0157
0.01
6114
-16
(Dup
licat
e)59
20.
0162
0.00
473
30-3
510
200.
0103
0.02
3
Cor
e 5 0-
111
200.
0112
0.01
771-
296
90.
0087
40.
0167
3-4
1800
0.07
270.
0754
6-7
928
0.00
998
0.01
999-
1011
100.
0411
0.04
1712
-14
1500
0.04
750.
0482
14-1
621
200.
0813
0.08
1318
-20
1440
0.07
040.
0712
25-3
021
900.
0784
0.07
9245
-50
4410
0.11
70.
118
Tab
le 7
: Con
tinue
d.Sa
mpl
e D
epth
(c
m)
TOTA
L PC
Bs
(cm
)TEQ
(WH
O
1998
) ND
=0TE
Q (W
HO
19
98)
ND
=1/2
DL
Cor
e 6 0-
166
80.
0069
10.
0147
1-2
613
0.00
660.
0138
3-4
690
0.00
715
0.01
696-
780
50.
0361
0.03
659-
1098
80.
0103
0.01
739-
10 (D
uplic
ate)
994
0.04
780.
0482
12-1
410
300.
0108
0.01
7514
-16
1150
0.01
140.
0209
18-2
011
500.
0123
0.02
6125
-30
1280
0.05
870.
0591
40-4
515
700.
0154
0.02
92
Cor
e 7 0-
150
70.
0052
90.
0232
1-2
533
0.00
516
0.00
942
3-4
537
0.00
431
0.02
393-
4 (D
uplic
ate)
686
0.00
868
0.04
346-
761
80.
0085
20.
0324
9-10
384
0.00
403
0.00
914
12-1
451
30.
0050
50.
0261
14-1
658
80.
0049
10.
0125
18-2
081
40.
0078
20.
034
25-3
034
.40.
0002
870.
0108
40-4
419
.40.
0001
550.
0029
9
Cor
e N
umbe
r/Sam
ple
De p
th (c
m)
TOTA
L PC
Bs
TEQ
(WH
O
2005
) ND
=0TE
Q (W
HO
20
05)
ND
=1/2
DL
8/1-
214
100.
0421
0.04
479/
1-2
1590
0.05
030.
0529
10/0
-125
300.
0704
0.07
5411
/0-1
1500
0.06
030.
0628
12/0
-113
900.
0393
0.04
113
/0-1
810
0.02
330.
0247
14/0
-117
600.
0568
0.05
9215
/0-1
328
0.01
090.
012
16/0
-197
30.
0024
80.
0139
17/0
-117
600.
0044
60.
0324
18/0
-136
60.
0009
290.
0063
419
/0-1
679
0.00
179
0.01
1320
/0-1
2060
0.00
539
0.02
4421
/0-1
5000
0.13
0.13
522
/0-1
925
0.00
246
0.01
95
A1
TOP
10
400.
0379
0.03
88A
1 B
OT
1110
0.01
040.
0171
B1
TOP
723
0.02
080.
0212
B1
BO
T63
00.
0061
10.
0151
Sed
imen
t Tra
ps
Tab
le 8
: Res
ults
of t
he P
BD
E a
naly
sis.
All
cong
ener
s ar
e re
port
ed in
pg/
g. <
= le
ss th
an d
etec
tion
limit;
K =
pea
k de
tect
ed b
ut d
id n
ot m
eet
q
uant
ifica
tion
crite
ria, n
umbe
r fo
llow
ing
this
flag
rep
rese
nts
an u
ncon
firm
ed c
once
ntra
tion;
ND
R =
pea
k de
tect
ed b
ut d
id n
ot m
eet q
uant
ifica
tion
c
riter
ia, r
esul
t rep
orte
d re
pres
ents
the
estim
ated
max
imum
pos
sibl
e co
ncen
trat
ion.
Bla
nk c
ells
indi
cate
con
gene
r no
t qua
ntifi
able
due
to
<
10%
rec
over
y of
labe
led
stan
dard
s.
Sam
ple
Dep
th
(cm
)B
r2-D
PE-7
Br2
-DPE
-8/
11B
r2-D
PE-1
0B
r2-D
PE-
12/1
3B
r2-D
PE-1
5B
r3-D
PE-
17/2
5B
r3-D
PE-
28/3
3B
r3-D
PE-3
0B
r3-D
PE-3
2B
r3-D
PE-3
5B
r3-D
PE-3
7B
r4-D
PE-4
7B
r4-D
PE-4
9B
r4-D
PE-5
1B
r4-D
PE-6
6B
r4-D
PE-7
1
Cor
e 1 0-
10.
933
1.04
< 0.
108
ND
R 0
.170
1.26
4.35
2.72
< 0.
191
< 0.
153
< 0.
134
ND
R 0
.142
32.8
4.83
ND
R 1
.05
ND
R 0
.763
0.54
1-2
7.92
3.62
< 0.
315
< 0.
249
< 0.
190
K 0
.205
51.7
11.7
2.45
1.67
K 0
.608
3-4
0.86
31.
11<
0.09
7N
DR
0.1
861.
314.
982.
6<
0.21
5<
0.17
2<
0.15
1<
0.14
124
.46.
151.
451.
55N
DR
0.5
126-
70.
861
1.01
< 0.
187
ND
R 0
.204
ND
R 0
.999
3.88
ND
R 1
.73
< 0.
310
< 0.
248
< 0.
217
< 0.
203
18.3
ND
R 3
.81
1.18
ND
R 0
.992
ND
R 0
.545
9-10
0.27
5N
DR
0.3
75<
0.13
6N
DR
0.1
21N
DR
0.3
64N
DR
1.5
9N
DR
0.8
03<
0.14
3<
0.11
5<
0.10
1<
0.09
48.
87N
DR
1.2
4N
DR
0.6
05N
DR
0.3
920.
2312
-14
< 0.
120
< 0.
101
< 0.
141
ND
R 0
.117
ND
R 0
.112
ND
R 0
.362
ND
R 0
.220
< 0.
155
< 0.
124
< 0.
108
< 0.
101
4.32
< 0.
436
< 0.
316
< 0.
541
< 0.
464
14-1
6K
0.3
53K
0.2
21<
0.28
1<
0.22
3<
0.16
9<
0.15
87.
77K
0.4
15<
0.24
4<
0.39
3<
0.32
618
-20
< 0.
111
< 0.
111
< 0.
111
< 0.
111
ND
R 0
.118
ND
R 0
.364
0.14
9<
0.12
7<
0.11
1<
0.11
1<
0.11
16.
610.
285
< 0.
113
0.24
4<
0.16
625
-30
< 0.
094
0.10
2<
0.11
3<
0.09
40.
115
< 0.
199
ND
R 0
.351
< 0.
216
< 0.
169
< 0.
136
< 0.
130
6.19
ND
R 0
.365
< 0.
222
ND
R 0
.400
< 0.
324
50-5
5<
0.39
60.
533
< 0.
442
< 0.
350
< 0.
266
< 0.
249
9.32
< 0.
843
< 0.
560
< 0.
905
< 0.
749
Cor
e 2 0-
1N
DR
14.
44.
88<
0.11
0N
DR
0.1
79N
DR
0.1
63N
DR
0.2
1212
637
.45.
74.
652.
481-
233
.910
.9<
0.21
10.
415
< 0.
135
0.30
723
570
.910
.38.
534.
733-
4N
DR
29.
27.
61<
0.76
6<
0.59
2<
0.46
8<
0.43
512
961
.510
.35.
023.
66-
7N
DR
25.
46.
68<
0.19
6N
DR
0.5
77N
DR
0.1
68N
DR
0.1
9112
553
9.17
4.22
2.29
9-10
ND
R 3
3.0
8.7
< 0.
830
0.69
6<
0.50
0<
0.46
617
070
.912
.55.
634.
512
-14
ND
R 1
4.9
3.76
< 0.
487
ND
R 0
.424
< 0.
298
< 0.
277
87.7
29.4
6.26
2.41
1.05
14-1
66.
491.
74<
0.22
0<
0.17
3<
0.14
1<
0.13
025
.511
.42.
560.
921
0.46
318
-20
ND
R 0
.549
ND
R 0
.671
< 0.
201
< 0.
154
ND
R 0
.180
ND
R 0
.129
7.37
0.97
70.
242
0.30
1<
0.14
125
-30
ND
R 0
.745
ND
R 0
.927
< 0.
514
< 0.
394
< 0.
310
< 0.
288
11.7
0.98
< 0.
484
< 0.
807
< 0.
680
35-4
0<
0.24
3<
0.20
1<
0.25
9<
0.20
4<
0.16
6<
0.15
33.
33<
0.49
7<
0.37
2<
0.57
6<
0.52
1
Cor
e 3 0-
155
.120
.7<
0.26
51.
955.
3117
032
.5<
0.52
91.
2N
DR
0.3
440.
969
661
224
17.8
3023
.40-
1 (D
uplic
ate)
51.8
23.3
< 0.
302
1.91
5.8
195
36.3
< 0.
740
1.37
< 0.
466
0.98
731
242
18.3
30.6
30.6
1-2
185
28.4
< 0.
388
0.68
4<
0.23
80.
442
730
230
17.4
29.2
22.4
3-4
89.7
34.6
< 0.
249
2.85
8.2
269
40.9
< 0.
425
2.31
ND
R 0
.624
1.24
660
304
23.8
31.5
ND
R 2
8.7
6-7
167
60<
0.39
24.
0711
.825
635
.8<
0.81
43.
540.
696
1.09
407
265
23.4
21.4
25.3
9-10
103
63.2
< 0.
186
3.57
10.9
168
22<
0.48
5N
DR
2.0
3<
0.31
50.
6819
014
816
.97.
92N
DR
9.4
712
-14
33.3
30.4
< 0.
190
1.75
5.68
91.8
11.5
< 0.
324
0.77
4<
0.19
00.
312
131
79.3
154.
713.
8412
-14
(Dup
licat
e)27
.432
< 0.
101
1.84
5.64
99.7
12.3
< 0.
272
1.5
< 0.
177
0.18
912
480
.415
.15.
06N
DR
6.3
014
-16
38.6
4.63
< 0.
200
< 0.
161
< 0.
123
< 0.
115
59.9
37.1
6.51
1.86
1.32
18-2
02.
131.
75<
0.21
30.
177
0.45
75.
460.
866
< 0.
198
< 0.
154
< 0.
128
< 0.
123
10.1
5.97
ND
R 1
.04
< 0.
168
ND
R 0
.298
25-3
00.
33N
DR
0.3
92<
0.10
1<
0.09
1N
DR
0.1
501.
31N
DR
0.4
03<
0.18
6<
0.14
4<
0.11
9<
0.11
2N
DR
3.8
0N
DR
1.0
20.
13<
0.17
0N
DR
0.2
14
Cor
e 4 1-
23.
133.
13<
0.85
9<
0.47
60.
771
8.34
3.45
< 0.
259
< 0.
208
< 0.
159
< 0.
149
131
19.5
1.9
4.8
1.84
1-2
14-1
625
.56.
38<
0.15
9<
0.12
8<
0.09
8K
0.2
4612
845
.35.
185.
843
30-3
5K
42.
57.
44<
0.30
70.
511
< 0.
185
0.24
110
761
.89.
874.
33.
3930
-35
(Dup
licat
e)K
44.
88.
08<
0.23
90.
596
< 0.
144
0.28
311
664
.510
.34.
274.
55
Tab
le 8
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)B
r2-D
PE-7
Br2
-DPE
-8/
11B
r2-D
PE-1
0B
r2-D
PE-
12/1
3B
r2-D
PE-1
5B
r3-D
PE-
17/2
5B
r3-D
PE-
28/3
3B
r3-D
PE-3
0B
r3-D
PE-3
2B
r3-D
PE-3
5B
r3-D
PE-3
7B
r4-D
PE-4
7B
r4-D
PE-4
9B
r4-D
PE-5
1B
r4-D
PE-6
6B
r4-D
PE-7
1
Cor
e 5 0-
11.
152.
33<
0.19
0<
0.10
11.
786.
264.
49<
0.38
2<
0.30
2<
0.22
1<
0.20
156
.17.
51N
DR
1.3
0N
DR
2.7
41.
421-
28.
794.
92<
0.32
3<
0.25
6<
0.19
40.
237
65.7
12.4
1.77
2.65
1.08
3-4
0.79
23.
66<
0.18
6<
0.10
63.
6711
.87.
2<
0.34
8<
0.27
5<
0.20
10.
298
9016
ND
R 2
.78
4.22
1.8
6-7
1.42
3.3
< 0.
196
< 0.
104
3.65
9.93
5.96
< 0.
234
< 0.
180
< 0.
132
ND
R 0
.252
6411
.12.
12.
361.
049-
102.
44.
1<
0.28
9N
DR
0.3
233.
9411
.46.
17<
0.18
2N
DR
0.2
34N
DR
0.1
22N
DR
0.3
4254
.612
.73.
3N
DR
2.4
0N
DR
1.7
612
-14
2.69
4.5
< 0.
143
0.37
64.
612
.76.
2<
0.23
4N
DR
0.2
55<
0.12
5N
DR
0.2
8968
.317
.44.
673.
432.
1614
-16
K 1
3.5
5.29
< 0.
288
0.26
2<
0.17
4K
0.2
9263
.820
.25.
382.
891.
2318
-20
1.52
3.06
< 0.
148
0.28
52.
969.
473.
99<
0.23
9<
0.18
4<
0.13
5N
DR
0.2
1342
.312
3.32
1.98
1.28
25-3
00.
199
0.35
7<
0.14
4<
0.09
20.
31.
090.
558
< 0.
171
< 0.
131
< 0.
097
< 0.
092
6.45
ND
R 1
.23
0.30
4N
DR
0.3
39<
0.15
145
-50
K 0
.247
K 0
.183
< 0.
243
< 0.
192
< 0.
146
< 0.
137
4.45
< 0.
462
< 0.
307
< 0.
496
< 0.
410
Cor
e 6 0-
10.
618
1.24
< 0.
183
< 0.
097
0.88
75.
893.
55<
0.22
1<
0.17
0<
0.12
5N
DR
0.1
6667
.67.
140.
888
1.9
1.08
1-2
1.02
1.69
< 0.
164
ND
R 0
.151
ND
R 1
.03
6.26
4.05
< 0.
162
< 0.
125
< 0.
104
ND
R 0
.192
49.2
6.82
0.96
61.
73N
DR
0.5
123-
41.
282.
11<
0.20
2<
0.10
71.
288.
434.
47<
0.31
2<
0.24
0<
0.17
6<
0.16
065
.38.
55N
DR
1.4
02.
251.
436-
70.
997
2.15
< 0.
178
ND
R 0
.179
1.09
8.51
4.95
< 0.
231
< 0.
178
< 0.
130
ND
R 0
.149
57.2
8.41
1.32
1.87
ND
R 0
.957
9-10
1.56
2.79
< 0.
095
0.21
11.
8510
.75.
77<
0.13
30.
120.
123
0.26
171
.511
.61.
762.
671.
0212
-14
1.94
3.5
< 0.
095
0.23
12.
0210
.85.
6<
0.14
9N
DR
0.1
64<
0.09
50.
179
64.6
11.8
2.03
2.65
1.26
14-1
63.
265.
75<
0.10
90.
433
3.1
16.7
7.16
< 0.
199
0.30
7<
0.12
70.
292
65.5
15.7
3.03
ND
R 3
.12
ND
R 1
.25
18-2
03.
528.
18<
0.10
70.
545
4.32
21.4
9.83
< 0.
242
ND
R 0
.378
< 0.
129
0.30
497
.522
4.4
4.09
ND
R 2
.20
25-3
02.
335.
18<
0.10
60.
352.
3512
.14.
99<
0.17
30.
297
< 0.
094
0.16
949
.511
.82.
532.
12N
DR
1.2
940
-45
0.63
71.
15<
0.14
5N
DR
0.1
810.
567
2.07
ND
R 0
.923
< 0.
175
< 0.
135
< 0.
112
< 0.
105
8.46
1.56
ND
R 0
.410
ND
R 0
.340
ND
R 0
.228
Cor
e 7 0-
10.
511
1.04
< 0.
111
ND
R 0
.118
0.84
34.
152.
9<
0.14
7<
0.11
2<
0.11
1<
0.11
148
.15
0.86
9N
DR
1.5
3N
DR
0.5
891-
21.
061.
17<
0.09
20.
124
0.96
6K
4.9
22.
59<
0.09
2<
0.09
2<
0.09
20.
149
6.15
0.91
61.
74K
0.3
093-
40.
671.
85<
0.09
70.
145
1.17
5.66
2.93
< 0.
159
< 0.
121
< 0.
097
0.11
437
.96.
761.
321.
80.
732
6-7
0.57
31.
22<
0.09
7N
DR
0.1
090.
922
3.97
2.11
< 0.
144
< 0.
115
< 0.
097
< 0.
097
29.4
4.66
0.83
71.
3N
DR
0.4
909-
100.
567
1.55
< 0.
133
0.21
61.
065.
313.
06<
0.15
1<
0.11
7<
0.09
7N
DR
0.1
5236
.16.
45N
DR
1.0
81.
56N
DR
0.6
8412
-14
< 0.
096
ND
R 0
.179
< 0.
096
< 0.
096
ND
R 0
.164
0.76
0.43
5<
0.09
6<
0.09
6<
0.09
6<
0.09
68.
781.
020.
17N
DR
0.3
41<
0.09
618
-20
0.24
30.
288
< 0.
101
< 0.
101
0.24
1.11
0.80
1<
0.10
1<
0.10
1<
0.10
1<
0.10
116
.4N
DR
1.4
3N
DR
0.2
26N
DR
0.4
32N
DR
0.2
8725
-30
< 0.
121
0.15
< 0.
145
< 0.
096
ND
R 0
.139
0.87
10.
517
< 0.
104
< 0.
096
< 0.
096
< 0.
096
10.8
ND
R 1
.12
ND
R 0
.165
ND
R 0
.251
ND
R 0
.144
40-4
4<
0.19
60.
211
< 0.
222
< 0.
172
< 0.
130
< 0.
120
5.04
< 0.
269
< 0.
183
< 0.
297
< 0.
244
Sur
face
Onl
y S
ampl
es8/
1-2
0.61
91.
91<
0.20
6N
DR
0.2
162.
085.
493.
62<
0.24
8<
0.20
1<
0.16
60.
718
49.9
7.48
1.5
ND
R 2
.14
ND
R 0
.694
9/1-
21.
391.
77<
0.20
7<
0.16
92
6.95
3.95
< 0.
272
< 0.
220
ND
R 0
.179
0.85
56.6
9.11
ND
R 3
.33
2.63
< 0.
169
10/0
-1N
DR
0.8
071.
75<
0.44
2<
0.41
72.
56.
214.
15<
0.60
4<
0.48
9<
0.41
71.
2561
.39.
542.
432.
7N
DR
0.8
3011
/0-1
ND
R 1
.57
1.94
< 0.
415
0.29
2.57
6.85
3.97
< 0.
374
< 0.
302
< 0.
261
1.08
69.8
ND
R 1
0.8
2.16
ND
R 3
.18
< 0.
261
12/0
-10.
866
0.72
4<
0.19
9<
0.18
91.
163.
032.
31<
0.37
5<
0.30
3<
0.19
40.
841
37.1
ND
R 4
.61
1.09
ND
R 1
.68
ND
R 0
.439
13/0
-1N
DR
0.6
00N
DR
0.7
16<
0.14
7<
0.14
50.
956
2.67
1.86
< 0.
169
ND
R 0
.180
< 0.
145
ND
R 0
.461
30.3
3.58
ND
R 1
.13
1.27
ND
R 0
.489
14/0
-11.
323.
2<
0.12
20.
378
3.62
11.2
5.77
< 0.
154
< 0.
124
0.19
30.
6589
.318
.13.
47N
DR
3.6
6N
DR
0.9
6915
/0-1
0.33
41.
21<
0.14
1<
0.10
10.
942
3.02
2.22
< 0.
214
< 0.
170
< 0.
120
ND
R 0
.484
35.8
ND
R 3
.96
ND
R 0
.432
1.22
ND
R 0
.384
16/0
-11.
172.
22<
0.32
0<
0.18
91.
377.
834.
12<
0.32
2<
0.26
1<
0.20
1<
0.18
862
.57.
63N
DR
1.1
62.
91<
0.71
317
/0-1
1.38
2.11
< 0.
571
< 0.
338
3.23
9.6
ND
R 6
.14
< 0.
674
< 0.
547
< 0.
421
ND
R 0
.706
107
13.2
1.94
6.01
ND
R 1
.19
Tab
le 8
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)B
r2-D
PE-7
Br2
-DPE
-8/
11B
r2-D
PE-1
0B
r2-D
PE-
12/1
3B
r2-D
PE-1
5B
r3-D
PE-
17/2
5B
r3-D
PE-
28/3
3B
r3-D
PE-3
0B
r3-D
PE-3
2B
r3-D
PE-3
5B
r3-D
PE-3
7B
r4-D
PE-4
7B
r4-D
PE-4
9B
r4-D
PE-5
1B
r4-D
PE-6
6B
r4-D
PE-7
1
18/0
-1N
DR
1.0
01.
36<
0.36
9<
0.21
80.
608
4.53
1.83
< 0.
231
< 0.
188
< 0.
145
ND
R 0
.287
28.3
3.56
ND
R 0
.728
ND
R 0
.865
< 0.
531
19/0
-11.
513.
15<
0.14
9<
0.09
52.
117.
754.
58<
0.17
5<
0.14
1<
0.10
70.
265
59.2
9.04
1.54
2.77
< 0.
891
20/0
-1N
DR
1.1
82.
22<
0.31
7<
0.17
71.
996.
55N
DR
3.5
1<
0.37
0<
0.29
9<
0.22
5N
DR
0.3
5662
8.38
2.09
ND
R 3
.19
< 1.
1221
/0-1
3.96
3.87
< 1.
29<
0.72
24.
0818
.67.
94<
1.53
< 1.
24<
0.93
41.
1115
9N
DR
27.
16.
716.
58N
DR
2.6
822
/0-1
1.19
ND
R 0
.702
< 0.
585
< 0.
327
1.49
4.9
ND
R 3
.13
< 0.
302
< 0.
260
< 0.
260
ND
R 0
.655
56.1
ND
R 5
.97
1.61
ND
R 2
.66
< 0.
458
A1
TOP
21.2
9.6
< 0.
421
< 0.
327
< 0.
247
K 0
.282
628
49.5
6.07
15.1
6.07
A1
BO
T38
.611
< 0.
419
< 0.
326
< 0.
245
0.34
452
276
9.01
13.2
8.51
B1
TOP
K 4
.98
2.86
< 0.
300
< 0.
233
< 0.
176
< 0.
162
72.2
8.52
0.96
22.
46K
0.6
93B
1 B
OT
K 6
.68
3.52
< 0.
372
< 0.
289
< 0.
218
< 0.
201
76.6
111.
232.
4K
1.1
7
Sed
imen
t Tra
ps
Tab
le 8
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)B
r4-D
PE-7
5B
r4-D
PE-7
7B
r4-D
PE-7
9B
r5-D
PE-8
5B
r5-D
PE-9
9B
r5-D
PE-
100
Br5
-DPE
-10
5B
r5-D
PE-
116
Br5
-DPE
-11
9/12
0B
r5-D
PE-
126
Br6
-DPE
-12
8B
r6-D
PE-
138/
166
Br6
-DPE
-14
0B
r6-D
PE-
153
Br6
-DPE
-15
4B
r6-D
PE-
155
Cor
e 1 0-
1<
0.09
2<
0.08
2<
0.09
2N
DR
0.5
7715
.48.
82<
0.37
6<
0.48
3<
0.25
9<
0.17
7<
0.83
6N
DR
0.4
050.
172.
033.
340.
554
1-2
< 0.
407
< 0.
322
< 0.
394
0.73
23.3
14.5
< 0.
341
< 0.
446
K 0
.442
< 0.
160
< 0.
546
K 0
.397
< 0.
263
3.64
6.1
1.17
3-4
< 0.
110
< 0.
097
ND
R 0
.391
0.47
612
.98.
33<
0.38
3<
0.49
2<
0.27
4<
0.18
0<
1.11
ND
R 0
.525
ND
R 0
.197
2.47
3.84
0.59
46-
7<
0.23
6<
0.21
3<
0.23
6<
0.40
48.
925.
54<
0.52
5<
0.67
3<
0.36
2<
0.25
0<
1.81
< 0.
348
< 0.
205
ND
R 1
.67
ND
R 2
.37
ND
R 0
.466
9-10
< 0.
147
< 0.
132
0.24
< 0.
230
5.06
2.53
< 0.
298
< 0.
383
< 0.
206
< 0.
147
< 1.
17<
0.39
9<
0.23
50.
843
ND
R 1
.05
0.30
312
-14
< 0.
392
< 0.
344
< 0.
390
< 0.
272
4.12
1.02
< 0.
353
< 0.
453
< 0.
244
< 0.
165
< 1.
28<
0.31
5<
0.18
60.
523
ND
R 0
.422
< 0.
123
14-1
6<
0.29
6<
0.24
0<
0.28
60.
437.
961.
63<
0.26
3<
0.34
3<
0.21
6<
0.12
8<
0.72
9K
0.3
78<
0.24
00.
939
K 0
.778
< 0.
169
18-2
0<
0.14
0<
0.12
5<
0.14
0N
DR
0.4
256.
671.
59<
0.31
9<
0.41
0<
0.22
0<
0.14
6<
1.60
< 0.
356
< 0.
210
ND
R 0
.980
ND
R 0
.671
< 0.
139
25-3
0<
0.26
1<
0.22
1<
0.26
4<
0.27
25.
491.
35<
0.35
8<
0.45
0<
0.25
9<
0.17
4<
1.33
ND
R 0
.352
< 0.
168
ND
R 0
.630
ND
R 0
.595
< 0.
117
50-5
5<
0.67
9<
0.57
2<
0.65
7<
0.44
46.
531.
76<
0.54
9<
0.71
7<
0.45
1<
0.25
9<
1.73
< 0.
721
< 0.
493
0.84
50.
474
< 0.
348
Cor
e 2 0-
1N
DR
0.2
24<
0.09
4<
0.09
44.
3613
038
.6<
0.44
3<
0.54
80.
756
0.34
3<
0.58
01.
920.
805
19.9
20.5
3.07
1-2
K 0
.289
< 0.
099
< 0.
121
8.18
223
66<
0.73
0<
0.97
20.
997
< 0.
352
< 0.
619
2.99
1.42
33.6
35.6
5.32
3-4
< 0.
476
< 0.
400
1.78
ND
R 3
.68
97.9
35.9
< 1.
764.
63<
1.44
< 0.
854
< 1.
121.
850.
828
18.4
21.9
4.54
6-7
0.14
8<
0.09
90.
441
3.44
93.6
35.4
< 0.
467
< 0.
605
0.90
1N
DR
0.2
87<
0.60
41.
120.
769
16.2
15.3
4.84
9-10
< 0.
714
< 0.
589
1.62
ND
R 5
.27
122
47.9
< 1.
18<
1.65
1.58
< 0.
550
< 2.
572.
361.
322
.427
.45.
2212
-14
< 0.
532
< 0.
442
ND
R 0
.539
ND
R 4
.14
80.3
24.6
< 1.
31<
1.70
< 1.
07<
0.55
5<
1.23
ND
R 1
.25
0.60
611
.112
.72.
6214
-16
< 0.
117
< 0.
091
< 0.
105
0.64
415
.86.
76<
0.66
2<
0.88
2<
0.61
0<
0.31
7<
0.48
1<
0.29
4<
0.21
62.
953.
881.
0718
-20
< 0.
124
< 0.
099
< 0.
115
ND
R 0
.628
5.91
1.52
< 0.
202
< 0.
283
ND
R 0
.236
< 0.
105
< 0.
347
0.16
7<
0.11
41.
110.
604
ND
R 0
.271
25-3
0<
0.59
5<
0.49
8<
0.55
3<
0.68
64.
932.
22<
0.84
6<
1.18
< 0.
740
< 0.
395
< 1.
72N
DR
0.7
09<
0.42
52.
251.
25N
DR
0.3
2935
-40
< 0.
447
< 0.
336
< 0.
404
< 0.
619
2.79
0.68
4<
0.72
9<
0.97
0<
0.67
1<
0.36
7<
0.65
5<
0.31
3<
0.22
9K
0.3
530.
351
< 0.
163
Cor
e 3 0-
11.
2<
0.12
2N
DR
5.9
027
.564
017
8<
1.60
< 2.
014.
120.
795
< 3.
459.
653.
6790
.582
.28.
250-
1 (D
uplic
ate)
ND
R 1
.63
ND
R 0
.209
ND
R 6
.56
28.9
682
192
< 1.
30<
1.63
5.05
1.06
< 3.
569.
493.
8996
.491
.38.
881-
21.
28<
0.09
9<
0.11
525
.464
417
6<
2.28
< 3.
043.
16<
1.18
< 1.
337.
123.
6387
.177
8.47
3-4
1.6
ND
R 0
.209
ND
R 5
.97
21.3
524
167
< 1.
32<
1.66
ND
R 4
.44
1.19
< 3.
948
3.47
82.1
81.1
9.93
6-7
1.21
ND
R 0
.730
4.95
12.9
286
101
< 1.
98N
DR
5.1
38.
391.
28<
4.00
7.53
4.49
75.3
72.9
9.75
9-10
ND
R 0
.904
< 0.
094
ND
R 1
.74
4.7
96.6
35.5
< 0.
857
1.13
ND
R 0
.969
0.67
6<
1.93
2.11
1.21
16.7
18.9
5.56
12-1
40.
364
< 0.
155
0.65
92.
7757
.322
.7<
0.35
2<
0.50
50.
625
0.22
3<
1.11
1.53
0.65
310
.512
3.34
12-1
4 (D
uplic
ate)
ND
R 0
.427
< 0.
092
ND
R 1
.30
2.31
47.7
20.7
< 0.
458
< 0.
579
0.52
2N
DR
0.2
86<
1.30
1.03
0.61
48.
4910
.33.
514
-16
< 0.
234
< 0.
179
< 0.
213
K 1
.46
31.6
10.7
< 1.
05<
1.40
< 0.
945
< 0.
526
< 0.
734
0.59
70.
333
5.92
6.67
K 1
.68
18-2
0<
0.12
3<
0.10
0<
0.11
80.
509
6.59
1.97
< 0.
429
< 0.
542
< 0.
315
< 0.
197
< 1.
58<
0.35
8N
DR
0.2
981.
2N
DR
1.3
30.
623
25-3
0<
0.11
5<
0.10
0<
0.11
8<
0.25
12.
780.
794
< 0.
339
< 0.
444
< 0.
239
< 0.
155
< 0.
525
ND
R 0
.256
< 0.
093
ND
R 0
.485
ND
R 0
.357
0.15
6
Cor
e 4 1-
2<
0.27
9<
0.21
4<
0.25
35.
6813
133
.3<
0.99
9<
1.33
< 0.
899
< 0.
491
< 0.
831
1.82
0.67
315
.314
.8K
1.2
71-
214
-16
K 0
.217
< 0.
111
< 0.
135
3.56
8831
.1<
0.66
8<
0.89
1K
0.6
13<
0.34
3<
0.53
10.
952
K 0
.608
12.2
14.6
1.84
30-3
50.
268
< 0.
219
K 0
.701
2.78
52.6
23.3
< 0.
422
< 0.
551
K 1
.03
K 0
.195
< 0.
606
K 0
.981
0.54
8.52
11.7
1.71
30-3
5 (D
uplic
ate)
0.20
9<
0.13
6K
0.7
112.
9958
.725
.8<
0.27
9<
0.36
50.
965
K 0
.194
< 0.
535
0.80
40.
388
8.63
12.1
1.97
Tab
le 8
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)B
r4-D
PE-7
5B
r4-D
PE-7
7B
r4-D
PE-7
9B
r5-D
PE-8
5B
r5-D
PE-9
9B
r5-D
PE-
100
Br5
-DPE
-10
5B
r5-D
PE-
116
Br5
-DPE
-11
9/12
0B
r5-D
PE-
126
Br6
-DPE
-12
8B
r6-D
PE-
138/
166
Br6
-DPE
-14
0B
r6-D
PE-
153
Br6
-DPE
-15
4B
r6-D
PE-
155
Cor
e 5 0-
1N
DR
0.2
12<
0.09
9<
0.09
90.
902
30.6
13.7
< 0.
777
< 1.
17<
0.71
1<
0.38
5<
0.67
8N
DR
0.2
98N
DR
0.2
245.
076.
320.
839
1-2
< 0.
349
< 0.
277
0.63
8K
1.0
937
.118
.8<
0.50
2<
0.65
6K
0.4
95<
0.23
3<
0.75
20.
452
K 0
.332
5.54
9.28
1.31
3-4
ND
R 0
.186
< 0.
106
< 0.
106
1.31
46.6
26.6
< 0.
755
< 1.
14N
DR
0.8
05<
0.36
9<
0.50
60.
663
ND
R 0
.409
7.66
12.8
1.76
6-7
ND
R 0
.217
< 0.
123
< 0.
153
ND
R 1
.15
34.8
20<
0.38
7<
0.59
2N
DR
0.3
88<
0.19
7<
0.48
20.
524
0.29
35.
568.
9N
DR
1.4
79-
10N
DR
0.1
93N
DR
0.1
44N
DR
0.4
891.
2832
.719
.1<
0.75
3<
0.98
6<
0.53
1<
0.34
4<
1.38
ND
R 0
.601
ND
R 0
.379
5.93
9.67
ND
R 1
.45
12-1
40.
225
< 0.
096
< 0.
096
ND
R 1
.21
37.9
21.2
< 0.
370
< 0.
539
ND
R 0
.696
< 0.
178
< 0.
302
0.51
4N
DR
0.3
536.
5411
.62.
0714
-16
< 0.
226
< 0.
177
K 0
.373
1.45
38.5
20<
0.27
9K
1.1
30.
889
0.18
9<
0.67
70.
593
K 0
.388
6.94
11.4
2.42
18-2
0N
DR
0.1
73<
0.09
0<
0.10
40.
782
2413
.8<
0.51
8<
0.79
3N
DR
0.5
51<
0.27
5<
0.39
90.
511
0.26
24.
457.
672.
0325
-30
< 0.
134
< 0.
093
< 0.
116
< 0.
275
4.19
1.63
< 0.
321
< 0.
491
< 0.
313
< 0.
165
< 0.
391
< 0.
181
< 0.
123
ND
R 0
.872
1.09
0.55
445
-50
< 0.
372
< 0.
299
< 0.
360
0.24
43.
480.
874
< 0.
294
< 0.
384
< 0.
242
< 0.
133
< 0.
766
< 0.
372
< 0.
254
0.60
1K
0.3
41<
0.18
0
Cor
e 6 0-
1N
DR
0.1
49<
0.08
8<
0.10
31.
2738
.813
.8<
0.40
1N
DR
0.8
16<
0.39
2<
0.21
2<
0.47
7N
DR
0.4
75N
DR
0.1
454.
875.
47N
DR
0.6
711-
2N
DR
0.1
57<
0.09
1N
DR
0.3
951.
0828
.510
.4<
0.39
4<
0.51
60.
312
< 0.
173
< 0.
878
ND
R 0
.722
0.31
64.
114.
880.
531
3-4
< 0.
154
< 0.
116
< 0.
132
0.60
332
13.7
< 0.
654
< 1.
00<
0.63
9<
0.36
1<
0.51
6N
DR
0.3
08N
DR
0.2
254.
756.
12N
DR
0.8
666-
7N
DR
0.1
16<
0.09
0<
0.09
10.
721
26.1
12.1
< 0.
364
< 0.
556
ND
R 0
.393
< 0.
193
< 0.
295
< 0.
215
ND
R 0
.213
3.93
5.32
0.76
39-
100.
179
0.11
0.45
1.21
35.4
14.9
< 0.
337
< 0.
484
0.41
3<
0.13
8<
0.31
5N
DR
0.4
620.
257
5.65
7.3
0.98
912
-14
ND
R 0
.162
< 0.
095
< 0.
095
0.80
127
.812
.9<
0.34
4<
0.50
10.
375
< 0.
165
< 0.
216
0.34
4N
DR
0.1
994.
436.
170.
992
14-1
60.
157
< 0.
090
ND
R 0
.333
1.08
30.7
13.6
< 0.
378
< 0.
494
ND
R 0
.427
ND
R 0
.189
< 1.
13N
DR
0.4
46N
DR
0.3
214.
537.
211.
1918
-20
0.21
< 0.
095
< 0.
095
ND
R 1
.06
40.3
18.1
< 0.
466
< 0.
680
< 0.
449
< 0.
232
< 0.
376
ND
R 0
.534
0.29
36.
519.
441.
8425
-30
ND
R 0
.110
< 0.
094
< 0.
094
0.53
120
.48.
78<
0.24
0<
0.35
0N
DR
0.2
65<
0.11
6<
0.28
5N
DR
0.1
89N
DR
0.2
253.
074.
781.
1740
-45
< 0.
133
< 0.
116
< 0.
136
0.27
65.
71.
66<
0.33
8<
0.44
2<
0.23
8<
0.15
3<
1.34
ND
R 0
.534
< 0.
146
ND
R 1
.10
ND
R 1
.22
ND
R 0
.387
Cor
e 7 0-
1<
0.11
1<
0.11
1<
0.11
10.
851
25.1
9.82
< 0.
240
< 0.
350
< 0.
231
< 0.
114
< 0.
244
ND
R 0
.342
ND
R 0
.116
3.35
4.3
0.54
41-
20.
103
< 0.
092
0.11
40.
919
27.3
10.7
< 0.
140
< 0.
174
K 0
.190
0.1
< 0.
292
0.46
3K
0.1
973.
894.
580.
579
3-4
< 0.
097
< 0.
097
< 0.
097
0.50
118
.97.
93<
0.20
6<
0.30
00.
255
< 0.
103
< 0.
256
0.19
30.
148
2.8
3.92
0.55
86-
7<
0.09
7<
0.09
7<
0.09
70.
466
13.3
6.18
< 0.
249
< 0.
343
< 0.
210
< 0.
113
< 0.
258
ND
R 0
.197
ND
R 0
.144
23.
01N
DR
0.5
609-
10<
0.10
0<
0.08
8N
DR
0.3
120.
916
23.3
8.96
< 0.
441
< 0.
576
< 0.
310
< 0.
209
< 1.
03N
DR
0.6
10N
DR
0.2
163.
634.
230.
781
12-1
4<
0.09
6<
0.09
6<
0.09
6N
DR
0.1
894.
651.
6<
0.15
8<
0.21
8<
0.13
4<
0.09
6<
0.34
8<
0.11
7<
0.09
60.
649
ND
R 0
.761
ND
R 0
.194
18-2
0<
0.10
1<
0.10
1<
0.10
10.
363
8.6
3.06
< 0.
283
< 0.
390
< 0.
239
< 0.
126
< 0.
381
ND
R 0
.159
0.11
51.
121.
44N
DR
0.2
0425
-30
< 0.
096
< 0.
096
ND
R 0
.115
ND
R 0
.302
6.07
1.95
< 0.
249
< 0.
343
< 0.
210
< 0.
116
< 0.
460
< 0.
248
< 0.
166
ND
R 0
.627
1.05
0.18
740
-44
< 0.
226
< 0.
174
< 0.
207
0.29
54.
870.
937
< 0.
328
< 0.
447
< 0.
281
< 0.
162
< 0.
815
0.45
6<
0.20
6K
1.5
00.
549
< 0.
146
Cor
es/S
ampl
e D
epth
8/1-
2<
0.16
6<
0.16
6<
0.16
6N
DR
1.2
631
.112
.3<
0.41
3<
0.56
11.
18<
0.20
1<
0.67
6N
DR
0.6
02N
DR
0.3
544.
876.
381.
289/
1-2
< 0.
169
ND
R 0
.295
ND
R 1
.04
0.92
127
.214
.8<
0.63
4<
0.86
20.
636
< 0.
291
< 0.
906
ND
R 0
.353
< 0.
169
4.13
7.35
ND
R 2
.42
10/0
-1<
0.41
7<
0.41
7<
0.41
70.
942
31.4
15.5
< 0.
461
ND
R 0
.784
0.5
< 0.
417
< 1.
93<
0.41
7<
0.41
74.
626.
311.
5711
/0-1
< 0.
261
< 0.
261
< 0.
261
2.14
59.2
21.5
< 0.
684
< 0.
928
ND
R 0
.693
< 0.
310
< 1.
300.
874
0.44
29.
8512
.41.
6612
/0-1
< 0.
189
< 0.
189
< 0.
189
0.64
618
.38.
87<
0.33
9<
0.46
1<
0.29
0<
0.18
9<
0.95
9N
DR
0.4
18N
DR
0.2
113.
013.
761.
0513
/0-1
< 0.
145
< 0.
145
0.21
10.
566
14.8
6.87
< 0.
233
< 0.
316
0.22
6<
0.14
5<
0.64
0N
DR
0.1
51<
0.14
52.
293.
1N
DR
0.8
6614
/0-1
ND
R 0
.240
< 0.
107
< 0.
107
ND
R 1
.58
54.1
24.6
< 0.
479
< 0.
650
< 0.
410
< 0.
218
< 0.
771
0.93
50.
588
9.21
13.8
3.73
15/0
-1N
DR
0.1
16<
0.10
1<
0.10
1N
DR
0.9
0220
.77.
44<
0.19
6<
0.28
8N
DR
0.1
95<
0.10
1<
0.70
2N
DR
0.3
15N
DR
0.1
353.
633.
340.
471
16/0
-1<
0.10
0<
0.10
0N
DR
0.6
69<
0.48
930
.811
.8<
0.63
8<
0.84
2<
0.50
0<
0.33
3<
1.49
ND
R 0
.271
ND
R 0
.313
4.34
5.55
0.93
17/0
-1<
0.26
0<
0.26
0<
1.60
< 1.
4568
.126
.9<
1.89
< 2.
49<
1.48
< 1.
02<
2.66
ND
R 0
.801
ND
R 0
.427
ND
R 1
0.1
13.8
3.26
Tab
le 8
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)B
r4-D
PE-7
5B
r4-D
PE-7
7B
r4-D
PE-7
9B
r5-D
PE-8
5B
r5-D
PE-9
9B
r5-D
PE-
100
Br5
-DPE
-10
5B
r5-D
PE-
116
Br5
-DPE
-11
9/12
0B
r5-D
PE-
126
Br6
-DPE
-12
8B
r6-D
PE-
138/
166
Br6
-DPE
-14
0B
r6-D
PE-
153
Br6
-DPE
-15
4B
r6-D
PE-
155
18/0
-1<
0.13
0<
0.11
7<
0.45
8N
DR
0.4
4314
.45.
11<
0.40
1N
DR
1.2
9<
0.31
4<
0.22
1<
1.42
ND
R 0
.138
ND
R 0
.155
2.39
2.52
0.41
219
/0-1
ND
R 0
.124
< 0.
095
< 0.
519
1.11
30.1
13.5
< 0.
445
< 0.
608
< 0.
362
< 0.
228
< 1.
030.
611
ND
R 0
.463
4.23
5.82
ND
R 1
.25
20/0
-1N
DR
0.1
94<
0.14
4<
0.73
8N
DR
1.2
532
.114
.5<
1.45
< 1.
98<
1.18
< 0.
795
< 1.
98N
DR
0.7
14N
DR
0.7
00N
DR
5.5
26.
91N
DR
1.8
421
/0-1
< 0.
535
< 0.
535
ND
R 1
.04
ND
R 3
.47
96.4
44.4
< 2.
944.
59<
2.39
< 1.
70<
5.88
ND
R 3
.31
ND
R 1
.45
14.3
24.2
ND
R 3
.97
22/0
-1<
0.26
0<
0.26
0<
1.06
< 1.
1532
.314
.1<
1.52
< 2.
08<
1.24
< 0.
833
< 3.
52N
DR
2.3
4<
0.26
0N
DR
4.8
9N
DR
7.5
9N
DR
2.0
1
A1
TOP
0.95
4<
0.24
65.
734
.973
916
5<
0.86
3<
1.18
3.84
< 0.
408
K 1
.15
9.29
2.8
85.2
69.7
4.62
A1
BO
T0.
698
< 0.
167
2.69
25.7
528
128
< 0.
502
< 0.
684
3.96
< 0.
230
< 1.
056.
492.
3460
.254
.24.
46B
1 TO
P<
0.26
1<
0.19
7K
0.5
162.
4160
.517
.3<
0.27
9<
0.38
1K
0.3
79<
0.13
2<
0.90
71.
04K
0.3
307.
487.
670.
881
B1
BO
T<
0.38
1<
0.28
9K
0.7
16K
2.1
857
.417
.6<
0.41
3<
0.56
40.
611
< 0.
200
< 0.
898
0.91
3<
0.30
47.
298.
090.
887
Sed
imen
t Tra
ps
Tab
le 8
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)B
r7-D
PE-
181
Br7
-DPE
-18
3B
r7-D
PE-
190
Br8
-DPE
-20
3B
r9-D
PE-
206
Br9
-DPE
-20
7B
r9-D
PE-
208
Br1
0-D
PE-
209
Cor
e 1 0-
1<
0.34
71.
28<
0.54
3N
DR
4.5
324
.630
.3N
DR
28.
453
61-
2<
0.50
3K
1.1
0<
0.70
3K
2.8
513
.1K
15.
0K
10.
745
13-
4<
0.53
41.
65<
0.83
73.
17N
DR
14.
719
16.6
307
6-7
< 0.
803
ND
R 0
.953
< 1.
263.
51N
DR
15.
7N
DR
26.
1N
DR
19.
234
39-
10N
DR
0.4
09N
DR
0.4
52<
0.63
1N
DR
1.8
3N
DR
7.8
412
ND
R 7
.12
193
12-1
4<
0.44
40.
439
< 0.
696
ND
R 1
.35
ND
R 9
.91
8.48
ND
R 7
.23
105
14-1
6<
0.42
3K
0.3
75<
0.59
31.
076.
546.
486.
7820
018
-20
< 0.
825
ND
R 1
.29
< 1.
291.
88N
DR
7.8
611
.18.
4913
925
-30
< 1.
121.
27<
1.71
ND
R 3
.78
ND
R 1
8.5
ND
R 2
3.0
ND
R 2
4.1
253
50-5
5<
0.82
6K
0.6
69<
1.16
K 1
.59
K 1
0.7
K 8
.18
K 6
.51
164
Cor
e 2 0-
1<
1.08
7.64
< 1.
617.
1350
.953
.132
.612
401-
2<
0.60
911
.2<
0.86
610
.183
.777
.571
.320
703-
4<
0.99
36.
44<
1.43
3.65
25.6
ND
R 2
1.2
16.7
1250
6-7
< 0.
376
6.61
0.60
34.
2851
.352
.631
.718
509-
10<
1.67
9.09
< 2.
356.
1939
.227
.118
.918
1012
-14
< 0.
821
3.17
< 1.
182.
09N
DR
14.
0N
DR
12.
89.
4170
314
-16
< 0.
283
1.4
< 0.
402
1.52
K 1
4.5
12.1
10.7
365
18-2
0<
0.32
90.
436
< 0.
462
0.78
5.47
4.53
ND
R 3
.26
235
25-3
0<
0.95
45.
3<
1.34
< 0.
576
< 3.
87N
DR
2.1
9<
3.02
ND
R 9
6.5
35-4
0<
0.40
6K
0.3
09<
0.57
70.
695
K 2
.83
K 3
.93
3.6
K 6
6.5
Cor
e 3 0-
1<
4.86
418.
383
.155
564
662
484
000-
1 (D
uplic
ate)
< 3.
5246
.26.
7279
.550
161
456
372
601-
2<
1.41
44.4
< 1.
9532
.730
021
018
371
403-
4<
3.02
396.
5683
.953
561
658
685
206-
7<
3.40
38.5
8.54
8252
264
462
077
809-
10<
2.23
15.3
3.86
29.1
188
246
204
4540
12-1
4<
0.95
57.
47<
1.39
1514
013
411
527
2012
-14
(Dup
licat
e)<
1.51
7.89
< 2.
2917
.110
915
212
427
1014
-16
< 0.
387
4.93
< 0.
534
4.99
54.6
39.3
32.8
1370
18-2
0<
0.64
2N
DR
1.6
2<
0.97
6N
DR
2.9
8N
DR
14.
722
15.8
298
25-3
0<
0.29
3N
DR
0.4
92<
0.43
5N
DR
1.2
2N
DR
5.2
2N
DR
8.7
8N
DR
6.5
515
0
Cor
e 4 1-
2<
0.35
43.
55<
0.48
83.
9529
.227
.123
.963
71-
214
-16
< 0.
398
3.03
< 0.
549
3.31
26.7
20.6
K 1
7.2
538
30-3
5<
0.51
34.
23<
0.71
8K
4.6
235
.326
.818
.882
430
-35
(Dup
licat
e)<
0.47
03.
17<
0.65
83.
0423
.323
.917
.564
2
Tab
le 8
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)B
r7-D
PE-
181
Br7
-DPE
-18
3B
r7-D
PE-
190
Br8
-DPE
-20
3B
r9-D
PE-
206
Br9
-DPE
-20
7B
r9-D
PE-
208
Br1
0-D
PE-
209
Cor
e 5 0-
1<
0.32
6N
DR
2.2
8<
0.47
8N
DR
2.1
610
.59.
349.
2537
11-
2<
0.58
92
< 0.
825
K 3
.81
27.5
28.3
K 2
2.0
666
3-4
< 0.
491
1.96
< 0.
721
5.92
ND
R 2
5.3
32.7
26.5
618
6-7
< 0.
428
2.17
< 0.
631
4.75
20.9
25.9
18.5
546
9-10
< 0.
606
2.48
< 0.
899
6.04
ND
R 1
8.2
ND
R 2
3.5
26.2
476
12-1
4<
0.28
62.
13<
0.43
2N
DR
4.1
919
.8N
DR
19.
8N
DR
15.
441
114
-16
< 0.
521
2.5
< 0.
729
K 3
.06
20.1
18.4
13.3
609
18-2
0<
0.33
72.
57<
0.49
84.
116
.119
.6N
DR
16.
538
825
-30
< 0.
157
1.1
< 0.
231
ND
R 1
.49
ND
R 7
.58
ND
R 9
.35
8.67
176
45-5
0<
0.50
0K
0.3
19<
0.70
0<
0.16
34.
24K
2.9
62.
3663
.7
Cor
e 6 0-
1<
0.31
41.
79<
0.46
43.
3320
24.2
18.5
505
1-2
< 0.
740
1.53
< 1.
10N
DR
4.0
614
.117
.720
.430
03-
4<
0.32
21.
44<
0.47
51.
988.
611
.410
.622
36-
7<
0.17
61.
19<
0.26
0N
DR
1.9
96.
49.
227.
7719
99-
10<
0.27
72.
75<
0.40
32.
47N
DR
12.
813
.112
.823
912
-14
< 0.
159
1.2
< 0.
240
1.57
8.99
7.99
8.25
208
14-1
6<
0.35
5N
DR
2.1
8<
0.52
64.
7625
.144
.736
.470
718
-20
< 0.
285
1.8
< 0.
429
ND
R 3
.09
23.1
ND
R 2
0.8
16.6
471
25-3
0<
0.11
51.
18<
0.17
31.
898.
68.
988.
6318
540
-45
< 0.
575
0.86
5<
0.85
22.
69N
DR
8.9
814
.813
.124
1
Cor
e 7 0-
1<
0.11
1N
DR
1.0
2<
0.11
5N
DR
1.2
3N
DR
6.5
46.
26.
1515
11-
20.
368
1.7
K 0
.766
3.67
10.4
22.3
15.8
173
3-4
< 0.
163
0.91
1<
0.24
51.
97N
DR
9.3
510
.6N
DR
10.
127
96-
7<
0.09
70.
686
< 0.
148
ND
R 0
.842
6.98
6.55
5.38
168
9-10
< 0.
454
1.04
< 0.
673
ND
R 2
.89
10.2
11.8
ND
R 1
1.8
ND
R 1
4012
-14
< 0.
123
0.23
6<
0.19
4N
DR
0.6
16N
DR
2.7
83.
422.
2374
.618
-20
< 0.
147
0.37
2<
0.23
30.
791
6.61
ND
R 8
.29
5.7
219
25-3
0<
0.09
6N
DR
0.2
85<
0.15
0N
DR
0.3
82N
DR
2.4
83.
862.
8670
.440
-44
< 1.
315.
54<
1.85
14.9
144
138
99.6
4310
Cor
es/S
ampl
e D
epth
8/1-
2<
0.28
02.
52<
0.49
4N
DR
3.0
6N
DR
27.
442
.8N
DR
27.
447
59/
1-2
< 0.
178
ND
R 1
.73
< 0.
315
3.37
21.1
ND
R 3
3.7
22.8
581
10/0
-1<
0.59
5N
DR
2.8
9N
DR
1.5
1N
DR
13.
415
021
813
627
2011
/0-1
< 0.
261
2.72
< 0.
332
4.17
ND
R 3
1.9
59.9
32.1
446
12/0
-1<
0.18
92
< 0.
189
ND
R 2
.23
ND
R 1
8.5
ND
R 3
2.6
ND
R 1
5.6
304
13/0
-1<
0.14
51.
12<
0.16
52.
0216
.8N
DR
24.
116
315
14/0
-1<
0.39
26.
86<
0.69
16.
845
.487
.952
.394
615
/0-1
< 0.
103
1.7
ND
R 0
.364
1.58
1018
.7N
DR
12.
127
216
/0-1
< 0.
164
1.66
< 0.
290
ND
R 2
.69
20.7
31.1
ND
R 1
2.7
554
17/0
-1<
0.32
8N
DR
2.7
1<
0.57
8N
DR
3.4
050
.857
.8N
DR
40.
793
0
Tab
le 8
: Con
tinue
d.
Sam
ple
Dep
th
(cm
)B
r7-D
PE-
181
Br7
-DPE
-18
3B
r7-D
PE-
190
Br8
-DPE
-20
3B
r9-D
PE-
206
Br9
-DPE
-20
7B
r9-D
PE-
208
Br1
0-D
PE-
209
18/0
-1<
0.10
80.
62<
0.19
11.
19.
24N
DR
12.
8N
DR
8.3
5N
DR
212
19/0
-1N
DR
0.5
422.
27N
DR
0.2
40N
DR
2.5
817
.322
.613
.440
720
/0-1
< 0.
267
3.38
< 0.
484
ND
R 4
.10
ND
R 2
7.2
45.1
33.4
726
21/0
-1<
1.25
ND
R 9
.74
< 2.
2716
.8N
DR
94.
414
194
1990
22/0
-1<
0.26
0N
DR
3.7
1N
DR
1.0
3N
DR
5.6
227
.456
.546
.886
3
A1
TOP
< 1.
1124
.71.
617
.612
311
984
.940
80A
1 B
OT
< 0.
982
24.3
1.98
16.2
128
123
86.3
4450
B1
TOP
< 0.
463
2.36
< 0.
652
2.43
11.7
12.7
10.5
336
B1
BO
T<
0.64
4K
2.1
3<
0.90
6K
1.7
39.
0915
8.82
339
Sed
imen
t Tra
ps
Tab
le 9
: Res
ults
of t
he P
AH
ana
lysi
s in
sed
imen
t cor
es a
nd tr
aps.
All
mea
sure
men
ts a
re r
epor
ted
in n
g/g
dry
wei
ght.
ND
R =
pea
k de
tect
ed b
ut d
id n
ot
m
eet q
uant
ifica
tion
crite
ria, r
esul
t rep
orte
d re
pres
ents
the
estim
ated
max
imum
pos
sibl
e co
ncen
trat
ion.
Bla
nk c
ells
indi
cate
the
varia
ble
was
not
qua
ntifi
ed.
Sample Depth (cm)
Naphthalene
Acenaphthylene
Acenaphthene
Fluorene
Phenanthrene
Anthracene
Fluoranthene
Pyrene
Benz[a]anthracene
Chrysene
Benzo[b/j/k]fluoranthene
Benzo[e]pyrene
Benzo[a]pyrene
Perylene
Dibenz[ah]anthracene
Indeno[1,2,3-cd]pyrene
Benzo[ghi]perylene
C1-Naphthalenes
C2-Naphthalenes
C3-Naphthalenes
C4-Naphthalenes
C1-Fluorenes
C2-Fluorenes
C3-Fluorenes
C4-Fluorenes
C1-Dibenzothiophenes
C2-Dibenzothiophenes
C3-Dibenzothiophenes
C1 Phenanthrenes/Anthracenes
C2 Phenanthrenes/Anthracenes
C3-Phenanthrenes/Anthracenes
C4-Phenanthrenes/Anthracenes
C1-Fluoranthenes/Pyrenes
C2-Fluoranthenes/Pyrenes
C3-Fluoranthenes/Pyrenes
C4-Fluoranthenes/Pyrenes
Total PAH
Cor
e 1
1-2
75.6
7.51
3.38
9.64
62.6
10.6
62.2
54.5
26.1
34.9
70.1
3431
.147
.87.
5342
.848
.711
222
224
510
719
37.7
33.7
9.32
12.4
14.7
8.47
117
100
48.6
117
51.5
50.5
252.
2219
6214
-16
557.
942.
157.
3554
.98.
5452
.453
.500
21.7
0025
.600
71.6
0033
.50
31.9
039
.40
7.04
51.3
61.3
81.8
188
225
123
17.3
38.1
34.6
13.3
11.2
13.1
8.07
106
89.9
47.2
110
44.7
44.2
12.7
4.6
1798
50-5
510
.80.
828
0.84
23.
4216
1.71
10.4
94.
716.
2316
.57.
496.
2224
.1N
DR
1.8
412
.114
.623
.363
.560
.930
.46.
5614
.910
.55.
023.
924.
172.
3340
.531
.515
.336
.714
.815
.94.
271.
2253
0.6
Cor
e 2
1-2
70.3
13.9
7.5
11.7
79.6
21.2
107
108
50.3
59.4
108
48.5
65.4
45.6
10.4
4449
.666
.794
.667
.232
.815
.825
.132
.113
.28.
7414
.511
.979
54.9
27.5
96.5
70.4
49.2
14.7
5.15
1680
3-4
40.5
10.8
4.02
6.51
51.2
14.4
73.7
78.6
38.2
37.7
7442
.448
.732
.110
.336
.542
.120
.132
32.8
19.6
8.37
15.2
17.5
7.58
3.89
4.21
3.8
48.4
31.7
14.5
44.3
4825
.75.
231.
1410
2614
-16
89.3
4114
.926
196
64.6
316
328
154
157
268
133
186
72.4
29.6
111
118
61.8
35-4
040
.510
.84.
026.
5151
.214
.473
.778
.638
.237
.774
42.4
48.7
32.1
10.3
36.5
42.1
20.1
Cor
e 3
1-2
17.2
1.49
2.7
5.98
26.5
6.04
30.9
27.7
11.9
17.1
24.5
12.5
12.8
32.8
ND
R 2
.76
ND
R 1
0.3
11.4
2950
.534
.617
.38.
4313
.620
.516
.94.
197.
36.
2937
.931
.116
.654
.421
.617
.67.
361.
9763
8.7
14-1
625
2.85
2.91
5.76
26.4
5.34
28.7
27.5
11.8
19.5
26.1
16.2
13.2
43.2
ND
R 4
.07
9.47
12.1
36.2
60.8
47.6
24.8
11.7
21.2
22.9
8.96
4.88
8.68
8.48
40.3
33.6
18.8
43.9
22.2
19.1
6.02
2.04
718.
240
-45
57.3
6.73
7.31
10.1
46.2
10.2
52.2
48.1
18.6
25.3
35.9
23.5
18.7
37.5
ND
R 5
.27
12.7
15.7
36.5
49.3
40.6
23.7
9.36
25.1
208.
655.
2510
.49.
6537
.531
.516
.846
.526
.718
.53.
932.
4484
8.4
Cor
e 4
1-2
19.5
2.3
2.55
5.29
23.9
5.6
18.5
16.4
6.9
10.8
13.4
6.75
6.54
36.8
ND
R 1
.33
4.51
6.24
37.8
91.7
50.3
22.1
10.6
22.7
35.4
14.5
4.14
7.52
5.59
40.1
32.7
15.6
79.2
18.6
195.
132.
0670
0.7
1-2
(Dup
licat
e)14
.90.
948
2.3
5.05
225.
4416
.814
.68.
6913
.713
.56.
146.
8628
.9N
DR
1.2
44.
065.
5131
.456
.136
.315
.47.
9314
.621
.77.
743.
365.
283.
3434
.727
.111
.768
.319
.414
.44.
521.
5355
4.2
14-1
613
.20.
898
1.85
5.18
20.7
3.48
16.5
14.4
9.32
11.8
16.6
8.59
7.73
32.2
ND
R 1
.63
4.75
5.96
34.7
63.3
47.9
21.2
9.76
1525
6.39
3.44
5.09
3.5
36.2
29.3
13.7
46.9
16.7
175.
831.
6557
5.7
30-3
517
.21.
892.
115.
8924
3.99
22.2
19.2
7.55
11.4
1710
.27.
9561
.5N
DR
2.2
75.
657.
7335
.965
.850
.222
.810
.322
.823
.16.
474.
377.
345.
938
.635
.818
.444
.418
.218
.65.
341.
2566
1
Cor
e 5
1-2
33.6
1.73
ND
R 2
.00
838
.14.
3923
.220
.39.
2515
.922
.311
.111
.534
.1N
DR
2.1
49.
3211
.682
.914
311
051
.118
.432
30.1
9.85
7.32
8.93
5.46
77.9
55.4
23.5
57.1
26.2
27.4
92.
7610
3314
-16
26.2
2.17
2.36
7.99
43.8
5.54
30.5
27.3
12.2
20.5
31.4
17.4
14.9
63.7
ND
R 4
.07
13.1
16.4
77.2
151
146
76.1
23.8
51.7
4511
.48.
2511
.77.
6891
.379
.732
.269
.533
.434
.28.
533.
6412
9845
-50
20.2
4.23
ND
R 1
.97
5.77
37.5
6.92
35.7
36.4
1522
.837
.121
.719
.939
.4N
DR
4.0
616
.720
.744
.189
.889
.246
.714
.127
.528
.89.
686.
439.
577.
9767
48.4
22.7
51.4
30.2
25.1
5.9
2.4
967
Cor
e 7
1-2
12.8
1.13
ND
R 1
.09
4.34
25.6
415
.914
.66.
3410
.814
6.63
7.3
28.1
ND
R 1
.35
5.71
6.88
40.7
77.9
69.1
34.6
13.3
23.3
25.1
8.02
4.43
5.14
2.82
51.3
36.4
14.9
42.2
1817
.87.
851.
5565
8.5
14-1
610
.62.
31N
DR
0.9
524.
5628
.54
18.5
21.3
7.75
11.6
17.6
8.69
9.7
52.4
ND
R 1
.58
8.39
11.1
30.7
68.8
64.9
32.2
12.2
22.8
24.4
6.64
4.6
5.88
3.6
56.2
39.3
17.6
42.7
21.2
21.2
4.42
1.46
697.
840
-44
4.35
<0.1
69N
DR
0.5
933.
2813
.30.
649
1.75
2.37
0.78
3.52
2.23
1.89
0.61
617
8N
DR
0.3
61N
DR
0.5
841.
6918
.246
.247
.325
.18.
6415
.414
.83.
292.
922.
971.
536
27.9
1242
.99.
9913
.22.
421.
1754
6.3
Sed
imen
t Tra
pA
1 B
OT
221.
713.
28.
438
.18.
437
.934
.410
.620
.924
.912
10.8
35N
DR
2.6
69.
6112
.859
.192
.284
.835
.516
.330
.534
.910
.36.
138.
647.
4781
.350
.324
.975
28.2
936.
3B
1 TO
P23
.81.
251.
928.
342
.75.
9625
.823
.1N
DR
7.2
615
.116
.28.
17.
5130
.4N
DR
1.8
86.
288.
7477
.612
412
460
.523
.744
42.6
7.06
6.03
8.66
4.37
89.8
59.8
1.53
66.2
26.8
991.
8B
1 B
OT
24.3
1.42
2.13
9.07
46.2
6.78
29.4
26.9
ND
R 9
.46
17.3
19.9
9.82
9.22
33.9
ND
R 2
.19
7.69
9.7
80.5
128
117
56.9
23.7
40.5
377.
927.
277.
884.
287
.459
.326
.176
.230
1044
83
Table 10: Results of the NPEO analysis. Values reported in ng/g dry weight. < = less than the detection limit, number following this symbol represents the detection limit.
Sample Depth (cm) 4-Nonylphenols 4-Nonylphenol
monoethoxylates4-Nonylphenol diethoxylates
Core 11-2 <6.05 <25.21 <60.8214-16 <7.14 <24.25 <55.2250-55 <6.48 <30.8 <69.68
Core 21-2 131 403 29214-16 153 <35.21 <65.3535-40 <3.40 <7.219 <27.37
Core 31-2 373 979 55714-16 176 45.7 57.340-45 31.4 <5.93 <21.7
Core 41-2 <4.11 <20.6 <45.914-16 <5.35 <13.8 <51.730-35 51 39.1 <20.430-35 (Duplicate) 50.5 35.2 <16.7
Core 51-2 <6.00 <12.3 <4614-16 24 <13.9 <38.545-50 12.4 <8.49 <29.8
Core 71-2 <6.33 <21.6 <54.414-16 <5.89 <7.66 <32.140-44 <3.84 <6.05 <24.6
Tab
le 1
1: R
esul
ts o
f the
met
als
and
lead
isot
ope
anal
ysis
for
ION
A s
tatio
ns 8
and
15
in th
e de
pth-
sect
ione
d S
myt
h-M
acin
tyre
gra
bs.
Sam
plin
g In
terv
al
(cm
dow
n gr
ab)
% W
ater
Al
(%)
Fe
(%)
Mg
(%)
Ca
(%)
Ba
(µg/
g)M
n
(µ
g/g)
AVS
(µ
mol
/g
p.s.
)
Cd
(µg/
g)M
o
(µ
g/g)
U
(µ
g/g)
Re
(µg/
g)A
s
(µ
g/g)
Ag
(µg/
g)C
o
(µ
g/g)
Cr
(µg/
g)N
i
(µ
g/g)
Cu
(µg/
g)Zn
(µg/
g)Pb
(µg/
g)Pb
(2
06/2
07)
Pb
(206
/208
)Pb
(2
06/2
04)
Stat
ion:
ION
A 8
Latit
ude:
49°
12'
28.
8R
eplic
ate:
1Lo
ngitu
de: 1
23° 1
7' 6
0.0
Wat
er D
epth
: 80
m
0-1c
m50
.340
7.16
44.
308
1.72
81.
997
577.
711
481.
426
1.03
30.
405
1.50
61.
827
3.19
68.
303
0.72
515
.462
91.5
3447
.979
43.9
2610
7.24
913
.169
1.21
00.
488
18.9
541-
2cm
50.7
217.
339
4.40
81.
751
2.10
059
6.26
848
8.17
43.
836
0.42
21.
505
1.80
73.
511
8.33
40.
506
15.2
1275
.453
47.8
2444
.486
107.
841
13.0
081.
209
0.48
818
.932
2-3c
m44
.850
7.08
24.
209
1.68
51.
893
609.
516
475.
295
4.32
40.
411
1.42
61.
890
3.15
77.
870
0.45
115
.248
70.0
0047
.142
41.1
8610
2.12
412
.392
1.20
90.
489
18.9
563-
4cm
44.7
846.
984
4.13
81.
674
1.88
057
9.53
547
8.78
158
.045
0.42
21.
509
1.79
53.
507
8.06
10.
473
15.4
2576
.064
47.8
6145
.256
101.
514
12.4
981.
206
0.48
618
.920
4-5c
m42
.428
6.89
04.
006
1.61
31.
912
566.
426
463.
313
5.39
30.
401
1.67
21.
718
3.62
17.
837
0.45
615
.124
65.9
2646
.226
38.8
2898
.725
12.2
671.
210
0.48
818
.940
5-6c
m41
.801
6.92
94.
066
1.61
21.
957
567.
568
458.
054
4.35
40.
387
1.80
81.
758
3.28
77.
683
0.47
814
.986
38.4
5945
.475
39.2
7097
.743
12.0
351.
214
0.48
919
.020
6-7c
m36
.473
7.00
14.
129
1.67
41.
910
572.
715
488.
004
21.0
400.
381
2.20
31.
908
3.62
97.
959
0.55
815
.450
89.3
3248
.458
42.1
6410
1.25
412
.578
1.20
40.
487
19.0
047-
8cm
34.7
596.
886
4.06
41.
602
1.96
255
7.08
347
3.81
972
.287
0.37
41.
860
1.93
93.
643
6.99
80.
541
15.3
5292
.528
47.7
5738
.681
98.1
1112
.763
1.20
70.
488
19.0
628-
9cm
32.0
507.
277
4.31
91.
707
1.99
560
3.75
050
4.12
52.
564
0.36
91.
644
1.80
93.
527
7.69
40.
519
15.4
2896
.250
48.4
6644
.681
102.
708
14.1
311.
194
0.48
318
.708
9-10
cm34
.089
7.17
04.
287
1.68
01.
903
579.
237
487.
462
45.3
920.
305
2.01
32.
035
3.46
27.
279
0.54
115
.698
86.5
6550
.238
38.5
1310
1.43
314
.049
1.20
30.
486
18.9
31
Stat
ion:
ION
A 8
Latit
ude:
49°
12'
28.
8R
eplic
ate:
2Lo
ngitu
de: 1
23° 1
7' 6
0.0
Wat
er D
epth
: 80
m
0-1c
m54
.297
7.30
64.
402
1.76
51.
955
589.
980
490.
195
2.03
40.
431
1.43
61.
757
3.24
69.
681
0.52
315
.489
87.8
7648
.523
31.9
3210
9.89
414
.196
1.20
90.
490
18.9
941-
2cm
47.9
677.
261
4.38
91.
714
1.79
658
5.44
248
3.86
238
.727
0.40
01.
574
1.86
93.
230
9.64
80.
509
15.8
5087
.406
49.6
6929
.790
108.
648
13.6
371.
215
0.49
018
.997
2-3c
m48
.897
7.39
84.
413
1.70
41.
785
600.
353
481.
490
3.34
10.
394
1.49
51.
795
5.56
98.
620
0.48
815
.665
79.6
0849
.269
29.8
5310
6.07
113
.588
1.21
40.
486
19.0
173-
4cm
47.2
147.
401
4.41
91.
739
1.83
159
6.07
748
7.72
55.
448
0.36
41.
949
1.92
73.
628
7.89
50.
497
15.7
5778
.885
49.9
0828
.740
110.
237
14.1
181.
215
0.48
918
.959
4-5c
m39
.514
7.25
04.
226
1.68
02.
180
586.
765
483.
865
1.73
40.
336
1.59
91.
795
3.43
37.
498
0.44
015
.355
47.0
3747
.490
24.2
8010
1.40
413
.879
1.20
40.
485
18.9
075-
6cm
37.0
447.
200
4.35
01.
679
1.85
858
2.96
948
8.82
435
.273
0.31
11.
788
2.03
93.
531
7.66
50.
489
16.4
0494
.705
51.5
3727
.029
103.
947
15.6
101.
197
0.48
518
.806
6-7c
m39
.530
7.27
84.
398
1.73
31.
869
585.
211
503.
544
29.1
960.
285
1.71
02.
034
3.66
67.
791
0.44
416
.384
94.3
5251
.722
27.3
0310
5.29
516
.158
1.20
00.
484
18.8
107-
8cm
39.7
127.
678
4.62
61.
768
1.82
361
9.73
951
0.19
93.
979
0.27
11.
745
2.16
33.
529
8.02
50.
444
16.3
5462
.775
52.4
6429
.420
110.
060
17.3
671.
198
0.48
618
.799
8-9c
m39
.496
7.57
84.
603
1.75
51.
920
611.
369
515.
046
3.92
10.
262
1.88
81.
997
3.12
08.
148
0.44
216
.499
94.6
3352
.258
29.3
4410
9.99
017
.173
1.20
00.
486
18.7
659-
10cm
40.3
157.
629
4.69
41.
789
1.84
361
8.33
352
0.55
69.
984
0.24
12.
215
2.27
23.
927
8.33
10.
456
17.1
5490
.227
55.0
0530
.281
113.
075
18.6
731.
200
0.48
618
.805
Stat
ion:
ION
A 1
5La
titud
e: 4
9° 0
7' 4
8.0
Rep
licat
e: 1
Long
itude
: 123
° 18'
39.
6W
ater
Dep
th:
80 m
0-1c
m47
.417
7.25
04.
099
1.72
91.
897
566.
414
519.
562
0.83
00.
239
1.01
91.
664
2.63
18.
121
0.24
911
.508
87.2
4949
.244
22.8
6993
.343
11.4
831.
218
0.48
919
.168
1-2c
m47
.419
7.22
64.
030
1.73
11.
919
576.
586
516.
201
0.59
80.
249
0.96
61.
632
2.74
17.
221
0.24
311
.625
66.2
8948
.149
23.3
6196
.679
21.8
541.
217
0.49
219
.042
2-3c
m44
.743
7.50
34.
215
1.71
41.
912
571.
667
501.
056
0.84
50.
237
1.08
51.
796
2.88
66.
795
0.25
511
.505
30.7
2249
.800
23.0
1492
.917
11.4
281.
218
0.48
619
.156
3-4c
m41
.960
7.33
44.
044
1.71
21.
944
580.
630
514.
970
1.12
50.
234
0.97
91.
711
2.60
16.
408
0.24
811
.920
65.2
6248
.704
22.1
5294
.898
11.1
891.
220
0.48
919
.197
4-5c
m38
.899
7.01
84.
418
1.70
91.
952
563.
182
517.
488
1.60
60.
221
0.92
21.
580
2.64
86.
318
0.23
111
.851
40.6
3047
.926
21.6
2392
.231
10.9
691.
215
0.48
919
.145
5-6c
m38
.433
7.13
64.
443
1.72
21.
989
579.
627
517.
396
1.42
50.
226
1.01
21.
616
2.92
26.
924
0.25
711
.843
32.6
6748
.645
20.5
7595
.324
11.3
211.
219
0.48
819
.115
6-7c
m37
.466
7.02
34.
320
1.71
22.
189
581.
980
532.
910
0.87
30.
237
1.18
71.
695
2.69
96.
066
0.26
011
.509
95.9
2849
.371
18.1
3092
.596
11.0
731.
222
0.49
019
.191
7-8c
m36
.182
7.10
74.
379
1.71
81.
954
601.
201
530.
098
1.12
60.
244
1.06
21.
601
2.61
17.
556
0.25
211
.911
79.8
1149
.796
22.2
6898
.703
11.9
411.
217
0.49
019
.028
8-9c
m37
.648
6.93
34.
268
1.70
71.
922
590.
398
528.
667
5.84
30.
235
1.08
81.
763
2.59
76.
712
0.26
112
.251
92.5
6251
.140
21.7
1196
.396
11.6
631.
222
0.48
919
.156
9-10
cm33
.678
7.11
14.
413
1.70
31.
955
590.
360
530.
502
0.75
80.
243
1.03
61.
702
2.99
67.
648
0.26
712
.080
80.0
7651
.054
23.3
7395
.905
12.0
961.
218
0.48
819
.160
10+c
m34
.616
7.13
54.
418
1.63
82.
162
572.
765
512.
935
3.73
90.
231
1.21
81.
652
3.35
76.
875
0.24
912
.011
34.8
3549
.223
21.0
8292
.153
11.2
961.
223
0.49
019
.126
Stat
ion:
ION
A 1
5La
titud
e: 4
9° 0
7' 4
8.0
Rep
licat
e: 2
Long
itude
: 123
° 18'
39.
6W
ater
Dep
th:
80 m
0-1c
m45
.581
7.05
04.
374
1.70
51.
939
577.
927
509.
549
0.55
70.
246
0.99
21.
685
2.86
28.
222
0.25
415
.494
32.0
5550
.743
21.6
6993
.604
11.6
111.
224
0.49
019
.097
1-2c
m44
.309
6.90
54.
313
1.68
31.
973
562.
351
497.
810
0.75
60.
229
0.98
61.
631
2.91
87.
260
0.25
215
.116
26.9
2949
.463
22.1
1091
.222
11.4
221.
225
0.48
919
.168
2-3c
m42
.487
7.01
14.
330
1.73
61.
982
575.
339
520.
482
0.94
70.
242
1.04
61.
724
2.79
57.
106
0.25
815
.493
32.6
9950
.453
21.8
9292
.255
11.4
311.
224
0.48
919
.187
3-4c
m40
.577
7.04
34.
381
1.70
91.
950
581.
083
508.
010
0.59
80.
227
1.09
31.
685
3.07
17.
246
0.25
115
.512
34.6
5650
.030
23.6
3293
.742
11.5
581.
218
0.49
019
.166
4-5c
m39
.403
7.10
74.
440
1.72
61.
968
587.
115
519.
300
0.62
80.
230
0.95
81.
595
2.68
66.
865
0.24
615
.135
95.2
4749
.339
22.9
0994
.832
11.3
601.
222
0.49
019
.170
5-6c
m38
.219
7.10
14.
368
1.71
91.
972
579.
661
519.
143
0.44
40.
234
1.06
71.
781
2.82
86.
481
0.25
515
.440
94.1
5149
.683
20.9
3094
.193
11.4
871.
220
0.49
019
.190
6-7c
m36
.031
7.05
94.
387
1.70
21.
944
580.
292
512.
307
0.73
70.
217
1.01
11.
635
2.70
97.
329
0.24
315
.244
43.3
7549
.514
22.8
1193
.710
11.7
191.
221
0.48
919
.179
Tab
le 1
1: C
ontin
ued.
Sam
plin
g In
terv
al
(Dow
n co
re
dept
h in
cm
)
Hg
(n
g/g)
K
(%)
Na
(%)
Ti
(µ
g/g)
S
(µ
g/g)
P
(µ
g/g)
Stat
ion:
ION
A 8
Rep
licat
e: 1
0-1c
m77
.245
1.64
42.
714
4254
.960
2771
.888
827.
139
1-2c
m84
.148
1.68
22.
782
4190
.781
2886
.232
874.
125
2-3c
m74
.522
1.58
12.
612
4226
.860
2700
.969
828.
266
3-4c
m23
6.89
81.
566
2.56
941
91.6
7126
42.6
3678
1.26
04-
5cm
549.
222
1.50
12.
525
3975
.467
2605
.859
784.
041
5-6c
m70
.403
1.50
02.
503
3922
.541
2577
.027
766.
203
6-7c
m68
.434
1.55
82.
420
4201
.080
2758
.984
788.
676
7-8c
m15
5.38
01.
508
2.30
842
00.2
5024
63.8
8973
7.56
98-
9cm
64.2
891.
615
2.37
444
53.5
8325
00.0
0080
6.19
49-
10cm
76.7
151.
573
2.36
542
92.8
7024
79.3
8977
3.66
0
Stat
ion:
ION
A 8
Rep
licat
e: 1
0-1c
m46
.126
1.66
82.
899
4315
.653
2841
.833
811.
665
1-2c
m84
.970
1.65
42.
548
4267
.348
2892
.885
751.
167
2-3c
m59
7.82
81.
674
2.72
742
92.3
1828
68.6
2775
5.35
53-
4cm
82.6
941.
688
2.65
442
93.2
3529
57.5
0073
2.21
34-
5cm
98.7
581.
605
2.56
541
38.7
8425
26.8
6369
9.61
65-
6cm
98.1
511.
611
2.44
242
73.3
3624
28.1
2570
2.62
56-
7cm
101.
758
1.67
22.
415
4360
.960
2354
.789
719.
243
7-8c
m97
.428
1.74
82.
436
4099
.442
2423
.293
721.
492
8-9c
m10
2.90
31.
718
2.41
442
33.1
3726
08.3
6574
3.62
49-
10cm
85.2
121.
775
2.37
944
38.3
8027
96.0
6775
4.40
1
Stat
ion:
ION
A 1
5R
eplic
ate:
1
0-1c
m37
.674
1.58
12.
567
4289
.926
1512
.948
803.
299
1-2c
m52
.939
1.60
02.
623
4181
.910
1557
.430
773.
837
2-3c
m60
.707
1.58
62.
515
4231
.486
1550
.000
722.
306
3-4c
m55
.833
1.60
02.
472
4330
.795
1525
.203
718.
197
4-5c
m59
.066
1.56
32.
370
4048
.449
1409
.684
689.
472
5-6c
m55
.357
1.60
52.
362
4201
.551
1420
.588
718.
873
6-7c
m53
.197
1.57
12.
412
4587
.842
1430
.800
665.
826
7-8c
m53
.973
1.62
82.
356
4219
.774
1493
.701
705.
663
8-9c
m50
.194
1.62
32.
332
4396
.335
1572
.908
715.
422
9-10
cm59
.280
1.61
02.
246
4461
.294
1431
.818
748.
496
10+c
m53
.761
1.52
92.
235
4396
.096
1454
.902
710.
088
Stat
ion:
ION
A 1
5R
eplic
ate:
2
0-1c
m81
.473
1.56
62.
549
4332
.673
1424
.187
783.
431
1-2c
m41
.403
1.52
92.
463
4204
.009
1415
.672
750.
280
2-3c
m56
.282
1.59
92.
460
4345
.898
1531
.076
743.
088
3-4c
m69
.299
1.57
82.
368
4235
.799
1489
.567
757.
130
4-5c
m69
.571
1.57
32.
420
4417
.069
1455
.336
758.
020
5-6c
m76
.789
1.60
72.
399
4452
.683
1556
.175
714.
167
6-7c
m93
.492
1.59
22.
302
3949
.403
1522
.568
712.
693
86
Table 12: Results of the benthic taxonomic analysis performed on the depth-sectioned grabs taken at stations IONA 8 and IONA 15. All coding is as per the system employed by Biological Environmental Services.
Group Code
Family Code
Species Code Genus/Species List Adult Intermediate Juvenile Total
Depth Interval
(cm)Station IONA 8 Replicate 1
CNHY 0090 0019 Campanularia groenlandica 1 1 0-1CRAM 0844 1515 Rhepoxynius barnardi 1 1 0-1MOBI 0462 0060 Axinopsida serricata 72 1 73 0-1MOBI 0472 0160 Compsomyax subdiaphana 2 2 0-1MOBI 0414 0220 Ennucula tenuis 1 1 0-1MOBI 0456 0520 Macoma calcarea 2 2 0-1MOBI 0456 0530 Macoma carlottensis 111 75 186 0-1MOBI 0456 0540 Macoma elimata 1 1 0-1MOBI 0456 0570 Macoma sp. 1 1 0-1MOBI 0472 0747 Nutricola sp. 1 12 13 0-1MOBI 0418 0760 Pandora bilirata 1 1 0-1MOBI 0392 0800 Parvilucina tenuisculpta 1 1 0-1MOBI 0384 0860 Rochefortia tumida 1 1 0-1MOGA 0610 0041 Alvania compacta 2 2 0-1MOGA 0516 0090 Astyris gausapata 1 1 0-1MOGA 0606 0680 Odostomia sp. 1 1 0-1MOSC 0647 0063 Pulsellum salishorum 1 1 0-1NTEA 0148 0170 Cerebratulus californiensis 1 1 0-1POER 0214 0320 Eteone spilotus 1 1 0-1POER 0198 0615 Lumbrineris cruzensis 1 1 0-1POER 0202 0710 Nephtys cornuta 3 3 0-1POER 0198 1040 Scoletoma luti 1 1 0-1POSE 0242 0042 Ampharete nr. acutifrons 3 1 4 0-1POSE 0248 0450 Capitella capitata complex 4 4 0-1POSE 0274 0720 Galathowenia oculata 3 3 0-1POSE 0270 1140 Ophelina acuminata 2 2 0-1POSE 0310 1220 Paraprionospio pinnata 1 1 0-1ECOP 1074 0070 Ophiura sp. 1 1 1-2MOBI 0462 0060 Axinopsida serricata 24 1 25 1-2MOBI 0456 0530 Macoma carlottensis 45 34 79 1-2MOBI 0472 0747 Nutricola sp. 4 4 1-2MOBI 0384 0860 Rochefortia tumida 1 1 1-2MOBI 0478 1020 Yoldia seminuda 1 1 1-2MOGA 0610 0041 Alvania compacta 4 4 1-2MOGA 0516 0090 Astyris gausapata 1 1 1-2MOSC 0647 0063 Pulsellum salishorum 1 1 1-2POER 0180 0500 Glycera nana 1 1 1-2POER 0202 0710 Nephtys cornuta 1 1 1-2POSE 0248 0683 Decamastus nr. gracilis 1 1 1-2POSE 0270 1140 Ophelina acuminata 1 1 1-2CNHY 0090 0019 Campanularia groenlandica 1 1 2-3MOBI 0462 0060 Axinopsida serricata 20 2 22 2-3MOBI 0456 0520 Macoma calcarea 2 2 2-3MOBI 0456 0530 Macoma carlottensis 2 45 11 58 2-3MOBI 0472 0747 Nutricola sp. 2 2 4 2-3MOBI 0418 0760 Pandora bilirata 1 1 2-3MOBI 0392 0800 Parvilucina tenuisculpta 1 1 2-3MOGA 0610 0041 Alvania compacta 3 3 2-3MOSC 0647 0063 Pulsellum salishorum 1 1 2-3NTEA 0000 0001 Nemertea indet. 1 1 2-3POER 0214 0360 Eumida longicornuta 1 1 2-3POER 0182 0530 Glycinde armigera 1 1 2-3POER 0202 0710 Nephtys cornuta 1 1 2-3POER 0224 0890 Pholoe minuta 1 1 2-3POSE 0242 0051 Ampharete nr. finmarchica 2 2 2-3POSE 0274 0720 Galathowenia oculata 1 1 2-3
87
Table 12: Continued.
Group Code
Family Code
Species Code Genus/Species List Adult Intermediate Juvenile Total
Depth Interval
(cm)Station IONA 8 Replicate 1
MOBI 0462 0060 Axinopsida serricata 11 11 3-4MOBI 0456 0520 Macoma calcarea 3 3 3-4MOBI 0456 0530 Macoma carlottensis 47 8 55 3-4MOBI 0472 0747 Nutricola sp. 4 4 3-4MOGA 0528 0250 Cylichna attonsa 1 1 3-4POER 0180 0500 Glycera nana 1 1 3-4POER 0198 0615 Lumbrineris cruzensis 1 1 3-4POSE 0242 0042 Ampharete nr. acutifrons 1 1 3-4POSE 0280 1250 Pectinaria granulata 1 1 3-4POSE 0314 1420 Pista wui 1 1 3-4CNHY 0090 0019 Campanularia groenlandica 1 1 4-5MOBI 0462 0060 Axinopsida serricata 8 8 4-5MOBI 0414 0220 Ennucula tenuis 3 3 4-5MOBI 0392 0280 Lucinoma annulatum 1 1 4-5MOBI 0456 0520 Macoma calcarea 2 2 4-5MOBI 0456 0530 Macoma carlottensis 1 39 3 43 4-5MOBI 0472 0747 Nutricola sp. 1 3 4 4-5MOBI 0392 0800 Parvilucina tenuisculpta 2 2 4-5MOGA 0610 0041 Alvania compacta 2 2 4-5MOGA 0528 0250 Cylichna attonsa 1 1 4-5POER 0180 0500 Glycera nana 1 1 4-5POER 0204 0760 Nereis procera 1 1 4-5POSE 0242 0042 Ampharete nr. acutifrons 1 1 4-5POSE 0310 1820 Spiophanes berkeleyorum 1 1 4-5CNHY 0090 0019 Campanularia groenlandica 1 1 2 5-6MOBI 0462 0060 Axinopsida serricata 3 3 5-6MOBI 0414 0220 Ennucula tenuis 1 1 5-6MOBI 0456 0520 Macoma calcarea 2 2 5-6MOBI 0456 0530 Macoma carlottensis 9 21 2 32 5-6MOBI 0472 0747 Nutricola sp. 1 1 2 5-6MOBI 0478 1020 Yoldia seminuda 1 1 5-6MOGA 0610 0041 Alvania compacta 1 1 5-6MOGA 0606 0820 Turbonilla sp. 1 1 5-6POSE 0310 1605 Prionospio (Prionospio) jubata 1 1 5-6CNHY 0090 0019 Campanularia groenlandica 2 2 6-botCROS 0682 0060 Euphilomedes producta 1 1 6-botMOBI 0462 0060 Axinopsida serricata 33 33 6-botMOBI 0472 0160 Compsomyax subdiaphana 1 1 6-botMOBI 0414 0220 Ennucula tenuis 1 1 6-botMOBI 0456 0530 Macoma carlottensis 6 95 23 124 6-botMOBI 0456 0540 Macoma elimata 4 1 5 6-botMOBI 0456 0550 Macoma nasuta 1 1 6-botMOBI 0472 0747 Nutricola sp. 4 16 20 6-botMOBI 0392 0800 Parvilucina tenuisculpta 2 2 6-botMOBI 0384 0860 Rochefortia tumida 1 1 6-botMOBI 0478 1020 Yoldia seminuda 1 2 3 6-botMOGA 0610 0041 Alvania compacta 6 6 6-botMOGA 0516 0090 Astyris gausapata 3 3 6-botPOER 0180 0500 Glycera nana 14 5 19 6-botPOER 0182 0530 Glycinde armigera 5 5 6-botPOER 0198 0615 Lumbrineris cruzensis 2 1 3 6-botPOER 0202 0710 Nephtys cornuta 1 1 6-botPOER 0204 0760 Nereis procera 2 2 6-botPOER 0214 0940 Phyllodoce groenlandica 1 1 6-botPOER 0186 1025 Podarkeopsis perkinsi 1 1 6-botPOER 0198 1040 Scoletoma luti 3 3 6-botPOSE 0242 0042 Ampharete nr. acutifrons 1 1 6-bot
88
Table 12: Continued.
Group Code
Family Code
Species Code Genus/Species List Adult Intermediate Juvenile Total
Depth Interval
(cm)Station IONA 8 Replicate 1
POSE 0252 0122 Aphelochaeta sp. 2 5 5 6-botPOSE 0252 0125 Aphelochaeta sp. N-1 1 1 6-botPOSE 0276 0180 Aricidea lopezi 1 1 6-botPOSE 0248 0450 Capitella capitata complex 1 1 6-botPOSE 0254 0660 Cossura pygodactylata 1 1 6-botPOSE 0248 0683 Decamastus nr. gracilis 11 11 6-botPOSE 0310 0697 Dipolydora cardalia 1 1 6-botPOSE 0266 0713 Euclymene nr. zonalis 2 2 6-botPOSE 0274 0720 Galathowenia oculata 1 1 6-botPOSE 0248 0750 Heteromastus filobranchus 13 13 6-botPOSE 0310 1610 Prionospio (Minuspio) lighti 1 1 6-botPOSE 0310 1605 Prionospio (Prionospio) jubata 6 1 7 6-botPOSE 0310 1820 Spiophanes berkeleyorum 1 1 6-botPOSE 0312 1860 Sternaspis nr. fossor 1 1 6-bot
Station IONA 8 Replicate 2
CNHY 0090 0019 Campanularia groenlandica 4 4 0-1MOBI 0414 0020 Acila castrensis 1 1 2 0-1MOBI 0462 0060 Axinopsida serricata 52 1 53 0-1MOBI 0472 0160 Compsomyax subdiaphana 3 3 0-1MOBI 0414 0220 Ennucula tenuis 1 1 0-1MOBI 0392 0280 Lucinoma annulatum 2 2 0-1MOBI 0456 0520 Macoma calcarea 3 3 0-1MOBI 0456 0530 Macoma carlottensis 32 11 43 0-1MOBI 0412 0700 Nuculana hamata 1 1 0-1MOBI 0472 0747 Nutricola sp. 4 33 37 0-1MOBI 0418 0760 Pandora bilirata 1 1 0-1MOBI 0392 0800 Parvilucina tenuisculpta 2 2 0-1MOGA 0516 0090 Astyris gausapata 3 6 9 0-1MOGA 0544 0385 Eulima sp. 1 1 0-1MOGA 0606 0680 Odostomia sp. 1 1 0-1MOGA 0606 0820 Turbonilla sp. 2 2 0-1MOSC 0647 0063 Pulsellum salishorum 1 1 0-1POER 0198 0615 Lumbrineris cruzensis 1 1 0-1POER 0202 0710 Nephtys cornuta 1 1 0-1POSE 0242 0042 Ampharete nr. acutifrons 1 1 0-1POSE 0280 1250 Pectinaria granulata 1 1 0-1POSE 0310 1640 Prionospio (Prionospio) steenst 1 1 0-1CNHY 0090 0019 Campanularia groenlandica 1 1 1-2MOBI 0462 0060 Axinopsida serricata 14 2 16 1-2MOBI 0456 0530 Macoma carlottensis 14 2 16 1-2MOBI 0456 0540 Macoma elimata 4 4 1-2MOBI 0478 0585 Megayoldia martyria 1 1 1-2MOBI 0472 0747 Nutricola sp. 1 2 3 1-2MOBI 0384 0860 Rochefortia tumida 2 2 1-2POSE 0310 1605 Prionospio (Prionospio) jubata 2 2 1-2CNHY 0090 0019 Campanularia groenlandica 3 3 2-3CRAM 0844 1515 Rhepoxynius barnardi 1 1 2-3MOBI 0462 0060 Axinopsida serricata 10 10 2-3MOBI 0456 0530 Macoma carlottensis 2 9 1 12 2-3MOBI 0456 0540 Macoma elimata 1 1 2-3MOBI 0472 0747 Nutricola sp. 1 2 3 2-3MOBI 0384 0860 Rochefortia tumida 1 1 2-3MOGA 0516 0090 Astyris gausapata 1 1 2-3ECOP 1058 0040 Amphiodia urtica 1 1 2 3-4MOBI 0462 0060 Axinopsida serricata 9 9 3-4
89
Table 12: Continued.
Group Code
Family Code
Species Code Genus/Species List Adult Intermediate Juvenile Total
Depth Interval
(cm)Station IONA 8 Replicate 2
MOBI 0456 0530 Macoma carlottensis 5 9 1 15 3-4MOBI 0456 0540 Macoma elimata 1 1 3-4MOBI 0478 0585 Megayoldia martyria 1 1 3-4MOBI 0472 0747 Nutricola sp. 3 3 3-4MOBI 0392 0800 Parvilucina tenuisculpta 1 1 3-4MOBI 0478 1020 Yoldia seminuda 1 1 3-4MOGA 0512 0150 Bittium munitum 1 1 3-4NTEA 0000 0001 Nemertea indet. 1 1 3-4POER 0180 0500 Glycera nana 5 1 6 3-4POER 0182 0530 Glycinde armigera 1 1 3-4POER 0198 0615 Lumbrineris cruzensis 1 1 3-4POSE 0242 0042 Ampharete nr. acutifrons 1 1 3-4POSE 0248 0683 Decamastus nr. gracilis 1 1 3-4POSE 0248 0750 Heteromastus filobranchus 1 1 3-4POSE 0312 1860 Sternaspis nr. fossor 1 1 2 3-4ECHO 1098 0150 Pentamera pseudocalcigera 1 1 4-5MOBI 0462 0060 Axinopsida serricata 6 1 7 4-5MOBI 0456 0530 Macoma carlottensis 1 6 7 4-5MOBI 0472 0747 Nutricola sp. 1 1 4-5MOGA 0606 0820 Turbonilla sp. 1 1 4-5POER 0180 0500 Glycera nana 1 1 4-5POER 0182 0530 Glycinde armigera 1 1 4-5POER 0198 0615 Lumbrineris cruzensis 1 1 4-5POER 0198 1040 Scoletoma luti 1 1 4-5POSE 0280 1240 Pectinaria californiensis 1 1 4-5CNHY 0090 0019 Campanularia groenlandica 1 1 5-6MOBI 0462 0060 Axinopsida serricata 4 4 5-6MOBI 0392 0280 Lucinoma annulatum 1 1 5-6MOBI 0456 0530 Macoma carlottensis 2 1 3 5-6MOBI 0472 0747 Nutricola sp. 1 1 5-6MOBI 0384 0860 Rochefortia tumida 1 1 5-6POSE 0248 0683 Decamastus nr. gracilis 1 1 5-6POSE 0276 0850 Levinsenia gracilis 1 1 5-6POSE 0248 0950 Mediomastus spp. 1 1 5-6POSE 0310 1610 Prionospio (Minuspio) lighti 1 1 5-6MOBI 0462 0060 Axinopsida serricata 1 1 6-7MOBI 0456 0530 Macoma carlottensis 1 1 6-7MOBI 0456 0540 Macoma elimata 1 1 6-7MOBI 0472 0747 Nutricola sp. 1 1 6-7MOGA 0516 0090 Astyris gausapata 1 1 6-7POER 0180 0500 Glycera nana 2 2 6-7POER 0198 1040 Scoletoma luti 3 3 6-7POSE 0266 0713 Euclymene nr. zonalis 2 2 6-7MOBI 0462 0060 Axinopsida serricata 2 2 7-8MOGA 0516 0090 Astyris gausapata 1 1 7-8POER 0180 0500 Glycera nana 5 5 7-8POER 0182 0530 Glycinde armigera 1 1 7-8POER 0198 0615 Lumbrineris cruzensis 1 1 7-8POSE 0248 0450 Capitella capitata complex 1 1 7-8POSE 0248 0683 Decamastus nr. gracilis 8 8 7-8POSE 0266 0713 Euclymene nr. zonalis 1 1 7-8POSE 0248 0750 Heteromastus filobranchus 2 2 7-8POSE 0276 0850 Levinsenia gracilis 2 2 7-8POSE 0310 1220 Paraprionospio pinnata 1 1 7-8POSE 0310 1605 Prionospio (Prionospio) jubata 1 1 7-8CNHY 0090 0019 Campanularia groenlandica 4 4 8-botMOBI 0462 0060 Axinopsida serricata 90 2 92 8-bot
90
Table 12: Continued.
Group Code
Family Code
Species Code Genus/Species List Adult Intermediate Juvenile Total
Depth Interval
(cm)Station IONA 8 Replicate 2
MOBI 0414 0220 Ennucula tenuis 1 1 8-botMOBI 0392 0280 Lucinoma annulatum 1 1 8-botMOBI 0456 0520 Macoma calcarea 2 2 8-botMOBI 0456 0530 Macoma carlottensis 2 47 9 58 8-botMOBI 0456 0540 Macoma elimata 3 3 6 8-botMOBI 0472 0747 Nutricola sp. 5 22 27 8-botMOBI 0418 0760 Pandora bilirata 1 1 8-botMOBI 0392 0800 Parvilucina tenuisculpta 1 1 8-botMOBI 0478 1020 Yoldia seminuda 1 1 2 8-botMOGA 0516 0090 Astyris gausapata 3 3 8-botMOGA 0512 0150 Bittium munitum 2 2 8-botMOGA 0606 0680 Odostomia sp. 1 1 8-botMOGA 0606 0820 Turbonilla sp. 1 1 8-botNTEA 0156 0210 Tubulanus polymorphus 2 2 8-botPOER 0214 0300 Eteone longa complex 1 1 8-botPOER 0180 0500 Glycera nana 6 6 8-botPOER 0182 0530 Glycinde armigera 1 1 8-botPOER 0198 0615 Lumbrineris cruzensis 2 2 8-botPOER 0204 0760 Nereis procera 2 2 8-botPOER 0198 0780 Ninoe gemmea 1 1 8-botPOER 0224 0890 Pholoe minuta 1 1 8-botPOER 0224 0895 Pholoe sp. N-1 1 1 8-botPOER 0198 1040 Scoletoma luti 2 2 8-botPOSE 0252 0122 Aphelochaeta sp. 2 2 2 8-botPOSE 0248 0383 Barantolla nr. americana 3 3 8-botPOSE 0248 0450 Capitella capitata complex 1 1 8-botPOSE 0248 0680 Decamastus gracilis 15 15 8-botPOSE 0266 0713 Euclymene nr. zonalis 3 3 8-botPOSE 0248 0750 Heteromastus filobranchus 13 2 15 8-botPOSE 0248 0950 Mediomastus spp. 3 3 8-botPOSE 0310 1220 Paraprionospio pinnata 1 1 8-botPOSE 0280 1250 Pectinaria granulata 1 1 8-botPOSE 0314 1420 Pista wui 1 1 8-botPOSE 0310 1610 Prionospio (Minuspio) lighti 5 5 8-botPOSE 0310 1605 Prionospio (Prionospio) jubata 3 3 8-botPOSE 0310 1640 Prionospio (Prionospio) steenst 1 1 8-botPOSE 0310 1820 Spiophanes berkeleyorum 1 1 8-botPOSE 0312 1860 Sternaspis nr. fossor 2 2 8-bot
Station IONA 15 Replicate 1
CNHY 0090 0019 Campanularia groenlandica 6 6 0-1CRAM 0844 0600 Heterophoxus affinis 1 1 2 0-1CRCU 0700 0055 Diastylis alaskensis 1 1 0-1CRCU 0704 0125 Eudorellopsis integra 1 1 0-1CROS 0682 0055 Euphilomedes carcharodonta 1 1 0-1CROS 0682 0060 Euphilomedes producta 11 11 0-1ECOP 1058 0040 Amphiodia urtica 1 1 0-1ECOP 0000 0001 Ophiuroidea indet. 1 1 0-1MOBI 0462 0060 Axinopsida serricata 69 47 116 0-1MOBI 0456 0530 Macoma carlottensis 64 32 96 0-1MOBI 0456 0540 Macoma elimata 4 4 0-1MOBI 0472 0747 Nutricola sp. 2 12 14 0-1MOBI 0418 0760 Pandora bilirata 1 1 0-1MOBI 0478 1020 Yoldia seminuda 1 1 0-1MOGA 0528 0245 Cylichna alba 2 2 0-1MOGA 0606 0680 Odostomia sp. 1 1 0-1
91
Table 12: Continued.
Group Code
Family Code
Species Code Genus/Species List Adult Intermediate Juvenile Total
Depth Interval
(cm)Station IONA 15 Replicate 1
MOSC 0647 0063 Pulsellum salishorum 4 1 5 0-1NTEA 0000 0001 Nemertea indet. 9 9 0-1NTEA 0154 0260 Tetrastemma sp. 1 1 0-1POER 0198 0615 Lumbrineris cruzensis 1 1 0-1POER 0202 0710 Nephtys cornuta 2 2 0-1POER 0224 0900 Pholoe spp. 1 1 0-1POER 0214 0940 Phyllodoce groenlandica 1 1 0-1POER 0214 0960 Phyllodoce spp. 1 1 0-1POSE 0242 0042 Ampharete nr. acutifrons 4 4 0-1POSE 0260 0430 Brada spp. 2 2 0-1POSE 0274 0720 Galathowenia oculata 11 11 0-1POSE 0310 1220 Paraprionospio pinnata 1 1 0-1POSE 0280 1240 Pectinaria californiensis 1 1 0-1CROS 0682 0060 Euphilomedes producta 6 6 1-2ECHO 1098 0150 Pentamera pseudocalcigera 1 1 1-2MOBI 0462 0060 Axinopsida serricata 35 21 56 1-2MOBI 0000 0001 Bivalvia indet. 1 1 1-2MOBI 0456 0530 Macoma carlottensis 34 5 39 1-2MOBI 0456 0540 Macoma elimata 1 1 1-2MOBI 0472 0747 Nutricola sp. 1 1 1-2MOBI 0478 1015 Yoldia hyperborea 1 1 1-2MOGA 0606 0680 Odostomia sp. 1 1 1-2MOSC 0647 0063 Pulsellum salishorum 3 1 4 1-2MOSC 0648 0080 Rhabdus rectius 1 1 1-2POER 0228 0460 Exogone molesta 1 1 1-2POER 0198 0615 Lumbrineris cruzensis 1 1 1-2POER 0202 0710 Nephtys cornuta 4 4 1-2POER 0226 1080 Sphaerodoropsis sphaerulifer 1 1 1-2POSE 0242 0042 Ampharete nr. acutifrons 2 2 4 1-2POSE 0274 0720 Galathowenia oculata 12 12 1-2POSE 0280 1240 Pectinaria californiensis 1 1 2 1-2POSE 0310 1820 Spiophanes berkeleyorum 1 1 1-2POSE 0312 1860 Sternaspis nr. fossor 1 1 1-2CRAM 0844 1515 Rhepoxynius barnardi 1 1 2-3CRCU 0704 0100 Eudorella pacifica 1 1 2-3CROS 0682 0060 Euphilomedes producta 2 2 2-3MOBI 0462 0060 Axinopsida serricata 15 9 24 2-3MOBI 0456 0530 Macoma carlottensis 35 7 42 2-3MOBI 0456 0570 Macoma sp. 2 2 2-3NTEA 0000 0001 Nemertea indet. 1 1 2-3POER 0202 0710 Nephtys cornuta 1 1 2-3POSE 0242 0042 Ampharete nr. acutifrons 1 1 2-3POSE 0260 0420 Brada sachalina 1 1 2-3POSE 0260 0430 Brada spp. 1 1 2-3POSE 0274 0720 Galathowenia oculata 4 4 2-3POSE 0248 0950 Mediomastus spp. 1 1 2-3POSE 0280 1250 Pectinaria granulata 1 1 2-3POSE 0310 1605 Prionospio (Prionospio) jubata 1 1 2-3CRAM 0844 0600 Heterophoxus affinis 1 1 2 3-4CRAM 0844 1515 Rhepoxynius barnardi 3 3 3-4CRAM 0832 1620 Westwoodilla caecula 1 1 3-4CROS 0682 0060 Euphilomedes producta 1 1 3-4MOAP 0338 0030 Chaetoderma argenteum 1 1 3-4MOBI 0462 0060 Axinopsida serricata 7 10 17 3-4MOBI 0456 0530 Macoma carlottensis 24 2 26 3-4MOBI 0478 1020 Yoldia seminuda 1 1 3-4
92
Table 12: Continued.
Group Code
Family Code
Species Code Genus/Species List Adult Intermediate Juvenile Total
Depth Interval
(cm)Station IONA 15 Replicate 1
NTEA 0000 0004 Anopla sp. C (SCAMIT) 1 1 3-4NTEA 0148 0170 Cerebratulus californiensis 1 1 3-4POER 0198 0615 Lumbrineris cruzensis 1 1 3-4POER 0202 0710 Nephtys cornuta 2 2 3-4POER 0224 0895 Pholoe sp. N-1 1 1 2 3-4POER 0198 1040 Scoletoma luti 1 1 3-4POSE 0242 0042 Ampharete nr. acutifrons 1 2 3 3-4POSE 0260 0420 Brada sachalina 1 1 3-4POSE 0274 0720 Galathowenia oculata 7 7 3-4POSE 0310 1605 Prionospio (Prionospio) jubata 1 1 3-4POSE 0312 1860 Sternaspis nr. fossor 1 1 3-4CRAM 0844 0600 Heterophoxus affinis 1 1 2 4-5CRAM 0844 1515 Rhepoxynius barnardi 1 1 4-5CRTA 0708 0015 Araphura breviaria 1 1 4-5ECOP 1058 0040 Amphiodia urtica 2 1 3 4-5MOBI 0462 0060 Axinopsida serricata 4 4 4-5MOBI 0414 0220 Ennucula tenuis 1 1 2 4-5MOBI 0456 0530 Macoma carlottensis 28 3 31 4-5MOBI 0456 0540 Macoma elimata 1 1 2 4-5MOBI 0384 0860 Rochefortia tumida 1 1 4-5MOBI 0478 1020 Yoldia seminuda 1 1 4-5POER 0182 0530 Glycinde armigera 1 1 4-5POER 0202 0710 Nephtys cornuta 1 1 4-5POSE 0242 0042 Ampharete nr. acutifrons 1 1 4-5POSE 0274 0720 Galathowenia oculata 1 1 4-5POSE 0312 1860 Sternaspis nr. fossor 2 2 4-5CRAM 0844 1515 Rhepoxynius barnardi 1 1 5-6CRTA 0708 0015 Araphura breviaria 1 1 5-6ECOP 1058 0040 Amphiodia urtica 1 1 5-6MOAP 0338 0030 Chaetoderma argenteum 1 1 5-6MOBI 0462 0060 Axinopsida serricata 1 2 3 5-6MOBI 0456 0530 Macoma carlottensis 1 19 1 21 5-6MOBI 0456 0570 Macoma sp. 2 2 5-6MOBI 0384 0860 Rochefortia tumida 1 1 5-6MOBI 0478 1020 Yoldia seminuda 3 3 5-6POER 0214 0300 Eteone longa complex 1 1 5-6POER 0224 0895 Pholoe sp. N-1 1 1 5-6POSE 0242 0042 Ampharete nr. acutifrons 4 4 5-6POSE 0248 0683 Decamastus nr. gracilis 1 1 5-6POSE 0276 0850 Levinsenia gracilis 1 1 5-6POSE 0314 1420 Pista wui 1 1 5-6POSE 0310 1610 Prionospio (Minuspio) lighti 1 1 5-6POSE 0310 1605 Prionospio (Prionospio) jubata 2 2 5-6POSE 0312 1860 Sternaspis nr. fossor 2 2 5-6POSE 0318 1990 Trochochaeta multisetosa 1 1 5-6CNHY 0090 0019 Campanularia groenlandica 2 2 6-7ECOP 1058 0040 Amphiodia urtica 2 2 6-7MOBI 0462 0060 Axinopsida serricata 2 2 6-7MOBI 0414 0220 Ennucula tenuis 1 1 6-7MOBI 0456 0530 Macoma carlottensis 17 17 6-7MOBI 0456 0540 Macoma elimata 1 1 2 6-7MOBI 0478 1020 Yoldia seminuda 1 1 2 6-7NTEA 0156 0210 Tubulanus polymorphus 2 2 6-7POER 0180 0500 Glycera nana 1 1 6-7POER 0182 0530 Glycinde armigera 1 1 6-7POSE 0248 0683 Decamastus nr. gracilis 1 1 6-7POSE 0310 0697 Dipolydora cardalia 1 1 6-7
93
Table 12: Continued.
Group Code
Family Code
Species Code Genus/Species List Adult Intermediate Juvenile Total
Depth Interval
(cm)Station IONA 15 Replicate 1
POSE 0248 0950 Mediomastus spp. 1 1 6-7POSE 0310 1220 Paraprionospio pinnata 1 1 6-7POSE 0310 1605 Prionospio (Prionospio) jubata 1 1 2 6-7POSE 0312 1860 Sternaspis nr. fossor 1 1 2 6-7CRAM 0844 1515 Rhepoxynius barnardi 3 3 7-8ECOP 1058 0040 Amphiodia urtica 1 1 2 7-8MOBI 0414 0220 Ennucula tenuis 1 1 7-8MOBI 0456 0530 Macoma carlottensis 4 4 8 7-8MOBI 0456 0540 Macoma elimata 3 1 4 7-8MOBI 0472 0747 Nutricola sp. 1 1 7-8MOBI 0478 1020 Yoldia seminuda 1 1 7-8POER 0180 0500 Glycera nana 6 6 7-8POER 0182 0530 Glycinde armigera 1 1 7-8POER 0224 0895 Pholoe sp. N-1 1 1 7-8POER 0198 1040 Scoletoma luti 3 3 7-8POSE 0248 0683 Decamastus nr. gracilis 1 1 2 7-8POSE 0266 0713 Euclymene nr. zonalis 1 1 7-8POSE 0266 0710 Euclymeninae indet. 1 1 7-8POSE 0310 0800 Laonice cirrata 1 1 7-8POSE 0276 0850 Levinsenia gracilis 1 1 7-8POSE 0310 1220 Paraprionospio pinnata 1 1 7-8POSE 0312 1860 Sternaspis nr. fossor 1 1 7-8MOBI 0462 0060 Axinopsida serricata 1 1 8-9MOBI 0456 0530 Macoma carlottensis 5 2 7 8-9MOBI 0456 0540 Macoma elimata 1 1 2 8-9MOSC 0648 0080 Rhabdus rectius 1 1 8-9POER 0214 0320 Eteone spilotus 1 1 8-9POER 0180 0500 Glycera nana 6 6 8-9POER 0182 0530 Glycinde armigera 2 2 8-9POER 0198 0615 Lumbrineris cruzensis 2 2 8-9POSE 0248 0683 Decamastus nr. gracilis 12 2 14 8-9POSE 0310 0697 Dipolydora cardalia 1 1 8-9POSE 0276 0850 Levinsenia gracilis 1 1 8-9POSE 0248 0950 Mediomastus spp. 1 1 8-9POSE 0310 1610 Prionospio (Minuspio) lighti 1 1 8-9POSE 0272 1747 Scoloplos nr. acmeceps 1 1 8-9POER 0214 0300 Eteone longa complex 1 1 9-10POER 0180 0500 Glycera nana 5 5 9-10POER 0198 1040 Scoletoma luti 1 1 9-10POSE 0248 0383 Barantolla nr. americana 1 1 9-10POSE 0248 0680 Decamastus gracilis 12 12 9-10POSE 0248 0750 Heteromastus filobranchus 1 1 9-10POSE 0272 0820 Leitoscoloplos pugettensis 1 1 9-10POSE 0266 1540 Praxillella gracilis 2 2 9-10POSE 0266 1550 Praxillella pacifica 1 1 9-10POSE 0310 1610 Prionospio (Minuspio) lighti 1 1 9-10POSE 0312 1860 Sternaspis nr. fossor 1 1 9-10ANOL 1136 1136 Tubificidae indet. 1 1 10-botCNHY 0090 0019 Campanularia groenlandica 3 3 10-botCRAM 0844 0600 Heterophoxus affinis 1 1 10-botCRAM 0844 1515 Rhepoxynius barnardi 2 2 10-botCRDE 0932 0230 Pinnixa occidentalis 1 4 5 10-botCROS 0682 0060 Euphilomedes producta 9 9 10-botCRTA 0708 0015 Araphura breviaria 1 1 10-botECOP 1058 0040 Amphiodia urtica 1 3 4 10-botECOP 1074 0058 Ophiura leptoctenia 1 1 10-botMOBI 0414 0020 Acila castrensis 1 1 10-bot
94
Table 12: Continued.
Group Code
Family Code
Species Code Genus/Species List Adult Intermediate Juvenile Total
Depth Interval
(cm)Station IONA 15 Replicate 1
MOBI 0462 0040 Adontorhina cyclia 1 1 10-botMOBI 0462 0060 Axinopsida serricata 69 43 112 10-botMOBI 0456 0530 Macoma carlottensis 8 88 24 120 10-botMOBI 0456 0540 Macoma elimata 4 5 9 10-botMOBI 0478 0585 Megayoldia martyria 2 1 3 10-botMOBI 0472 0747 Nutricola sp. 5 5 10-botMOBI 0418 0760 Pandora bilirata 3 3 10-botMOBI 0392 0800 Parvilucina tenuisculpta 1 1 10-botMOBI 0478 1020 Yoldia seminuda 1 3 4 10-botMOGA 0512 0150 Bittium munitum 1 2 3 10-botMOGA 0528 0250 Cylichna attonsa 1 1 10-botMOSC 0647 0063 Pulsellum salishorum 3 3 10-botNTEA 0000 0001 Nemertea indet. 14 14 10-botNTEA 0156 0210 Tubulanus polymorphus 1 1 10-botPOER 0198 0280 Eranno bicirrata 1 1 10-botPOER 0214 0300 Eteone longa complex 1 1 10-botPOER 0180 0500 Glycera nana 4 4 10-botPOER 0182 0530 Glycinde armigera 1 1 10-botPOER 0182 0575 Goniada brunnea 1 1 10-botPOER 0198 0615 Lumbrineris cruzensis 1 1 2 10-botPOER 0220 0665 Malmgreniella bansei 2 2 10-botPOER 0198 0780 Ninoe gemmea 1 1 10-botPOER 0208 0830 Onuphis iridescens 2 2 10-botPOER 0224 0900 Pholoe spp. 1 1 10-botPOER 0198 1040 Scoletoma luti 1 1 10-botPOER 0220 1200 Tenonia priops 1 1 10-botPOSE 0242 0042 Ampharete nr. acutifrons 3 3 10-botPOSE 0314 0340 Artacama coniferi 1 1 10-botPOSE 0248 0383 Barantolla nr. americana 1 1 10-botPOSE 0248 0680 Decamastus gracilis 18 18 10-botPOSE 0248 0683 Decamastus nr. gracilis 3 3 10-botPOSE 0266 0710 Euclymeninae indet. 1 1 10-botPOSE 0274 0720 Galathowenia oculata 7 7 10-botPOSE 0248 0750 Heteromastus filobranchus 5 5 10-botPOSE 0266 0920 Maldane sarsi 1 1 10-botPOSE 0280 1240 Pectinaria californiensis 1 1 10-botPOSE 0266 1550 Praxillella pacifica 1 2 3 10-botPOSE 0310 1610 Prionospio (Minuspio) lighti 5 5 10-botPOSE 0310 1605 Prionospio (Prionospio) jubata 6 6 10-botPOSE 0272 1747 Scoloplos nr. acmeceps 1 1 10-botSIPN 0330 0020 Thysanocardia nigra 1 2 3 10-bot
Station 15 (IONA) Replicate 2
CRAM 0832 1102 Monoculodes brevirostris 1 1 0-1CRAM 0844 1515 Rhepoxynius barnardi 1 1 0-1CRCU 0704 0100 Eudorella pacifica 1 1 0-1CROS 0682 0060 Euphilomedes producta 4 4 0-1MOBI 0462 0060 Axinopsida serricata 18 14 32 0-1MOBI 0456 0530 Macoma carlottensis 24 6 30 0-1MOBI 0472 0747 Nutricola sp. 2 2 0-1MOBI 0478 1015 Yoldia hyperborea 1 1 0-1MOSC 0647 0063 Pulsellum salishorum 1 1 0-1NTEA 0148 0170 Cerebratulus californiensis 1 1 0-1PLTY 0128 0128 Leptoplanidae indet. 2 2 0-1POER 0220 0480 Gattyana treadwelli 1 1 0-1POER 0202 0710 Nephtys cornuta 1 1 0-1
95
Table 12: Continued.
Group Code
Family Code
Species Code Genus/Species List Adult Intermediate Juvenile Total
Depth Interval
(cm)Station IONA 15 Replicate 2
POSE 0242 0042 Ampharete nr. acutifrons 2 1 3 0-1POSE 0274 0720 Galathowenia oculata 8 1 9 0-1POSE 0310 1220 Paraprionospio pinnata 1 1 0-1POSE 0310 1605 Prionospio (Prionospio) jubata 1 1 0-1POSE 0312 1860 Sternaspis nr. fossor 1 1 0-1CRAM 0844 0600 Heterophoxus affinis 3 3 1-2CRAM 0844 1515 Rhepoxynius barnardi 1 1 1-2CROS 0682 0055 Euphilomedes carcharodonta 1 1 1-2ECOP 1058 0040 Amphiodia urtica 2 1 3 1-2MOBI 0462 0060 Axinopsida serricata 28 13 41 1-2MOBI 0456 0530 Macoma carlottensis 67 4 71 1-2MOBI 0456 0570 Macoma sp. 2 2 1-2MOGA 0528 0250 Cylichna attonsa 1 1 1-2MOSC 0647 0063 Pulsellum salishorum 1 1 1-2MOSC 0648 0080 Rhabdus rectius 1 1 1-2POER 0180 0500 Glycera nana 1 1 1-2POER 0198 0615 Lumbrineris cruzensis 1 1 1-2POER 0202 0710 Nephtys cornuta 4 4 1-2POSE 0242 0042 Ampharete nr. acutifrons 1 1 1-2POSE 0260 0420 Brada sachalina 1 1 1-2POSE 0248 0683 Decamastus nr. gracilis 1 1 1-2POSE 0274 0720 Galathowenia oculata 9 1 10 1-2POSE 0310 0800 Laonice cirrata 1 1 1-2POSE 0248 0950 Mediomastus spp. 1 1 1-2POSE 0310 1220 Paraprionospio pinnata 3 3 1-2CRAM 0844 0600 Heterophoxus affinis 1 1 2-3CRAM 0844 1515 Rhepoxynius barnardi 1 1 2-3CRCU 0704 0120 Eudorellopsis longirostris 1 1 2-3CROS 0682 0060 Euphilomedes producta 2 2 2-3ECHO 1092 0015 Chirodota albatrossii 1 1 2-3MOBI 0462 0060 Axinopsida serricata 29 23 52 2-3MOBI 0456 0520 Macoma calcarea 5 5 2-3MOBI 0456 0530 Macoma carlottensis 1 76 9 86 2-3MOBI 0456 0570 Macoma sp. 4 4 2-3MOSC 0647 0063 Pulsellum salishorum 1 1 2-3NTEA 0140 0160 Amphiporus sp. 2 2 2-3POER 0182 0530 Glycinde armigera 3 3 2-3POER 0198 0615 Lumbrineris cruzensis 1 1 2-3POER 0202 0710 Nephtys cornuta 4 4 2-3POER 0224 0895 Pholoe sp. N-1 2 2 2-3POSE 0248 0683 Decamastus nr. gracilis 3 1 4 2-3POSE 0274 0720 Galathowenia oculata 10 3 13 2-3POSE 0280 1240 Pectinaria californiensis 1 1 2-3POSE 0310 1610 Prionospio (Minuspio) lighti 1 1 2-3CRAM 0844 0600 Heterophoxus affinis 1 1 3-4CRAM 0844 1515 Rhepoxynius barnardi 4 1 5 3-4CROS 0682 0060 Euphilomedes producta 1 1 3-4ECOP 1058 0040 Amphiodia urtica 1 1 2 3-4MOBI 0462 0060 Axinopsida serricata 10 15 25 3-4MOBI 0456 0530 Macoma carlottensis 56 9 65 3-4MOBI 0456 0540 Macoma elimata 2 1 3 3-4MOGA 0528 0250 Cylichna attonsa 1 1 3-4NTEA 0156 0210 Tubulanus polymorphus 1 1 3-4POER 0182 0530 Glycinde armigera 1 1 3-4POER 0198 0615 Lumbrineris cruzensis 1 1 3-4POER 0220 0666 Malmgreniella berkeleyorum 1 1 3-4POER 0202 0710 Nephtys cornuta 1 1 3-4
96
Table 12: Continued.
Group Code
Family Code
Species Code Genus/Species List Adult Intermediate Juvenile Total
Depth Interval
(cm)Station IONA 15 Replicate 2
POER 0224 0895 Pholoe sp. N-1 1 1 3-4POER 0214 0940 Phyllodoce groenlandica 1 1 3-4POER 0198 1040 Scoletoma luti 1 1 3-4POSE 0266 0710 Euclymeninae indet. 1 1 3-4POSE 0274 0720 Galathowenia oculata 10 10 3-4POSE 0272 0820 Leitoscoloplos pugettensis 1 1 3-4POSE 0276 0850 Levinsenia gracilis 1 1 3-4POSE 0310 1605 Prionospio (Prionospio) jubata 3 3 3-4SIPN 0330 0020 Thysanocardia nigra 1 1 3-4
CRAM 0844 0600 Heterophoxus affinis 1 1 2 4-5CRAM 0844 1515 Rhepoxynius barnardi 2 2 4-5CROS 0682 0060 Euphilomedes producta 1 1 4-5ECOP 1058 0040 Amphiodia urtica 1 1 2 4-5MOBI 0414 0020 Acila castrensis 1 1 4-5MOBI 0462 0060 Axinopsida serricata 9 5 14 4-5MOBI 0456 0530 Macoma carlottensis 19 19 4-5MOBI 0456 0540 Macoma elimata 2 2 4-5NTEA 0156 0210 Tubulanus polymorphus 1 1 4-5POER 0180 0500 Glycera nana 1 1 4-5POER 0202 0720 Nephtys ferruginea 1 1 4-5POER 0198 1040 Scoletoma luti 1 1 4-5POSE 0242 0042 Ampharete nr. acutifrons 1 1 2 4-5POSE 0276 0180 Aricidea lopezi 1 1 4-5POSE 0252 0510 Chaetozone spp. 1 1 4-5POSE 0248 0683 Decamastus nr. gracilis 3 1 4 4-5POSE 0274 0720 Galathowenia oculata 10 10 4-5POSE 0276 0850 Levinsenia gracilis 1 1 4-5POSE 0280 1240 Pectinaria californiensis 1 1 4-5POSE 0310 1605 Prionospio (Prionospio) jubata 5 5 4-5POSE 0272 1747 Scoloplos nr. acmeceps 1 1 4-5POSE 0312 1860 Sternaspis nr. fossor 2 2 4-5CRAM 0844 0600 Heterophoxus affinis 1 1 2 5-6CRAM 0844 1515 Rhepoxynius barnardi 1 1 5-6CRCU 0700 0060 Diastylis pellucida 1 1 5-6ECOP 1058 0040 Amphiodia urtica 3 3 5-6MOAP 0338 0030 Chaetoderma argenteum 1 1 5-6MOBI 0462 0060 Axinopsida serricata 4 1 5 5-6MOBI 0414 0220 Ennucula tenuis 1 1 5-6MOBI 0456 0530 Macoma carlottensis 1 1 2 5-6MOBI 0456 0540 Macoma elimata 1 1 5-6POER 0214 0320 Eteone spilotus 1 1 5-6POER 0180 0500 Glycera nana 1 1 5-6POER 0182 0530 Glycinde armigera 1 1 5-6POER 0198 0615 Lumbrineris cruzensis 2 2 5-6POER 0208 0840 Onuphis spp. 1 1 5-6POER 0214 0940 Phyllodoce groenlandica 1 1 5-6POER 0198 1040 Scoletoma luti 1 1 2 5-6POSE 0276 0180 Aricidea lopezi 1 1 5-6POSE 0248 0683 Decamastus nr. gracilis 6 6 5-6POSE 0276 0850 Levinsenia gracilis 2 2 5-6POSE 0248 0945 Mediomastus ambiseta 1 1 5-6POSE 0310 1610 Prionospio (Minuspio) lighti 1 1 5-6POSE 0310 1605 Prionospio (Prionospio) jubata 1 1 5-6CRAM 0798 0500 Eusirus columbianus 1 1 6-botCRAM 0844 0600 Heterophoxus affinis 1 1 6-botCRAM 0848 1340 Pleusymtes subglaber 1 1 6-botCRAM 0832 1620 Westwoodilla caecula 1 1 6-bot
97
Table 12: Continued.
Group Code
Family Code
Species Code Genus/Species List Adult Intermediate Juvenile Total
Depth Interval
(cm)Station IONA 15 Replicate 2
CROS 0682 0060 Euphilomedes producta 3 3 6-botECHO 1096 0125 Molpadia intermedia 1 1 6-botECOP 1058 0040 Amphiodia urtica 2 6 8 6-botMOAP 0338 0030 Chaetoderma argenteum 1 1 6-botMOBI 0462 0060 Axinopsida serricata 28 24 52 6-botMOBI 0414 0220 Ennucula tenuis 2 2 6-botMOBI 0456 0530 Macoma carlottensis 2 82 8 92 6-botMOBI 0456 0540 Macoma elimata 2 1 3 6 6-botMOBI 0472 0747 Nutricola sp. 1 1 6-botMOBI 0384 0860 Rochefortia tumida 1 1 6-botMOBI 0478 1020 Yoldia seminuda 1 1 2 6-botMOSC 0647 0063 Pulsellum salishorum 2 2 6-botMOSC 0648 0080 Rhabdus rectius 2 2 6-botNTEA 0156 0210 Tubulanus polymorphus 2 2 6-botPOER 0214 0320 Eteone spilotus 3 3 6-botPOER 0180 0500 Glycera nana 8 8 6-botPOER 0182 0530 Glycinde armigera 7 7 6-botPOER 0198 0615 Lumbrineris cruzensis 1 1 6-botPOER 0202 0710 Nephtys cornuta 1 1 6-botPOER 0198 0780 Ninoe gemmea 1 1 6-botPOER 0224 0895 Pholoe sp. N-1 2 2 6-botPOER 0224 0900 Pholoe spp. 1 1 6-botPOER 0214 0940 Phyllodoce groenlandica 2 2 6-botPOER 0198 1040 Scoletoma luti 3 1 4 6-botPOSE 0242 0042 Ampharete nr. acutifrons 1 1 6-botPOSE 0252 0125 Aphelochaeta sp. N-1 1 1 6-botPOSE 0252 0495 Chaetozone commonalis 1 1 6-botPOSE 0248 0683 Decamastus nr. gracilis 39 2 41 6-botPOSE 0274 0720 Galathowenia oculata 7 7 6-botPOSE 0248 0750 Heteromastus filobranchus 4 4 6-botPOSE 0310 0800 Laonice cirrata 1 1 6-botPOSE 0276 0850 Levinsenia gracilis 9 9 6-botPOSE 0248 0945 Mediomastus ambiseta 1 1 6-botPOSE 0248 0950 Mediomastus spp. 20 20 6-botPOSE 0251 1342 Phyllochaetopterus pottsi 1 1 6-botPOSE 0310 1610 Prionospio (Minuspio) lighti 3 1 4 6-botPOSE 0310 1605 Prionospio (Prionospio) jubata 5 5 6-botPOSE 0272 1747 Scoloplos nr. acmeceps 1 1 6-botPOSE 0312 1860 Sternaspis nr. fossor 1 1 6-botPOSE 0318 1990 Trochochaeta multisetosa 1 1 6-botSIPN 0330 0020 Thysanocardia nigra 1 1 6-bot
98
Table 13: Results of the benthic taxonomic analysis from grabs taken at the GVRD core locations. All coding is as per the system employed by Biological Environmental Services.
Group Code
Family Code
Species Code
Genus/Species List Adult Intermediate Juvenile Totals Replicate No.
GVRD-1CHAC 0673 0673 Halacaridae indet. 1 0 0 1 1ECHO 1092 0015 Chirodota albatrossii 4 0 0 4 1MOAP 0338 0050 Falcidens longus 2 0 0 2 1POER 0202 0710 Nephtys cornuta 2 0 0 2 1POER 0198 1040 Scoletoma luti 2 0 0 2 1POSE 0276 0180 Aricidea lopezi 1 0 0 1 1POSE 0316 1905 Terebellides kobei 1 0 0 1 1CNAN 0082 0250 Virgularia agassizii 1 0 0 1 2ECHO 1092 0015 Chirodota albatrossii 1 0 0 1 2MOAP 0338 0050 Falcidens longus 1 0 0 1 2POER 0220 0034 Bylgides macrolepidus 2 0 0 2 2POER 0182 0530 Glycinde armigera 1 0 0 1 2POER 0198 0615 Lumbrineris cruzensis 1 0 0 1 2POER 0198 1040 Scoletoma luti 1 0 0 1 2POSE 0276 0180 Aricidea lopezi 1 0 0 1 2POSE 0310 0700 Dipolydora socialis 0 1 0 1 2POSE 0266 1540 Praxillella gracilis 1 0 0 1 2POSE 0310 1605 Prionospio jubata 1 0 0 1 2POSE 0316 2000 Trichobranchus glacialis 1 0 0 1 2BRYO 0968 0051 Caulibugula californica 4 0 0 4 3BRYO 1012 0270 Triticella pedicellata 1 0 0 1 3ECHO 1092 0015 Chirodota albatrossii 2 0 0 2 3MOAP 0338 0030 Chaetoderma argenteum 1 0 0 1 3POER 0220 0666 Malmgreniella berkeleyorum 1 0 0 1 3POER 0186 1025 Podarkeopsis perkinsi 1 0 0 1 3POER 0198 1040 Scoletoma luti 3 0 0 3 3POSE 0310 0700 Dipolydora socialis 0 1 0 1 3POSE 0316 2000 Trichobranchus glacialis 1 0 0 1 3
GVRD 2
CRAM 0762 0140 Ampelisca unsocalae 2 1 0 3 1CRAM 0832 0285 Bathymedon sp. 1 0 0 1 1CRAM 0844 0600 Heterophoxus affinis 1 0 0 1 1CRAM 0844 0600 Heterophoxus affinis 2 1 0 3 1CRAM 0844 1234 Paraphoxus gracilis 2 0 0 2 1CRAM 0810 1440 Protomedeia grandimana 0 1 0 1 1CRCU 0700 0060 Diastylis pellucida 1 0 0 1 1CRCU 0704 0100 Eudorella pacifica 1 0 0 1 1CROS 0682 0060 Euphilomedes producta 1 0 0 1 1ECEC 1082 0050 Brisaster latifrons 1 0 0 1 1ECHO 1092 0015 Chirodota albatrossii 2 2 0 4 1ECOP 1074 0058 Ophiura leptoctenia 3 2 0 5 1MOAP 0338 0030 Chaetoderma argenteum 1 0 3 4 1MOAP 0338 0030 Chaetoderma argenteum 1 1 0 2 1MOBI 0462 0060 Axinopsida serricata 1 2 0 3 1MOBI 0462 0060 Axinopsida serricata 11 17 0 28 1MOBI 0356 0200 Cyclocardia ventricosa 0 1 0 1 1MOBI 0414 0220 Ennucula tenuis 0 1 0 1 1MOBI 0456 0530 Macoma carlottensis 3 3 1 7 1MOBI 0456 0540 Macoma elimata 0 2 0 2 1MOBI 0456 0540 Macoma elimata 0 0 2 2 1MOBI 0472 0747 Nutricola tantilla 2 0 0 2 1MOBI 0472 0747 Nutricola tantilla 1 2 0 3 1
99
Table 13: Continued.
Group Code
Family Code
Species Code
Genus/Species List Adult Intermediate Juvenile Totals Replicate No.
GVRD 2
MOBI 0462 0990 Thyasira flexuosa 1 1 0 2 1MOBI 0478 1020 Yoldia seminuda 1 0 0 1 1MOBI 0478 1020 Yoldia seminuda 1 1 0 2 1MOGA 0610 0041 Alvania compacta 2 0 0 2 1MOGA 0610 0041 Alvania compacta 21 0 0 21 1MOGA 0528 0250 Cylichna attonsa 3 2 0 5 1MOGA 0606 0680 Odostomia sp. 1 0 0 1 1MOSC 0647 0063 Pulsellum salishorum 1 0 0 1 1MOSC 0647 0063 Pulsellum salishorum 3 0 0 3 1POER 0206 0095 Drilonereis longa 1 0 0 1 1POER 0198 0280 Errano bicirrata 0 1 0 1 1POER 0180 0500 Glycera nana 1 0 0 1 1POER 0180 0500 Glycera nana 1 0 0 1 1POER 0182 0530 Glycinde armigera 1 0 0 1 1POER 0182 0530 Glycinde armigera 1 0 0 1 1POER 0182 0575 Goniada brunnea 1 0 0 1 1POER 0198 0615 Lumbrineris cruzensis 9 0 0 9 1POER 0220 0679 Malmgreniella nr. berkeleyorum 2 0 0 2 1POER 0202 0720 Nephtys ferruginea 1 0 0 1 1POER 0202 0725 Nephtys punctata 1 0 0 1 1POER 0202 0725 Nephtys punctata 1 0 0 1 1POER 0208 0830 Onuphis iridescens 3 0 0 3 1POER 0186 1025 Podarkeopsis perkinsi 1 0 0 1 1POER 0198 1040 Scoletoma luti 13 4 0 17 1POER 0198 1040 Scoletoma luti 6 0 0 6 1POER 0228 1225 Typosyllis heterochaeta 1 0 0 1 1POSE 0242 0074 Amphicteis scaphobranchiata 1 0 0 1 1POSE 0310 0697 Dipolydora cardalia 13 1 0 14 1POSE 0274 0720 Galathowenia oculata 5 0 0 5 1POSE 0274 0720 Galathowenia oculata 5 2 0 7 1POSE 0248 0750 Heteromastus filobranchus 4 0 0 4 1POSE 0248 0750 Heteromastus filobranchus 2 0 0 2 1POSE 0314 0776 Lanassa gracilis 1 0 0 1 1POSE 0266 0920 Maldane sarsi 88 0 0 88 1POSE 0266 0920 Maldane sarsi 13 0 0 13 1POSE 0248 0945 Mediomastus ambiseta 1 0 0 1 1POSE 0248 0948 Mediomastus californiensis 1 0 0 1 1POSE 0266 0987 Microclymene nr. caudata 9 0 0 9 1POSE 0310 1220 Paraprionospio pinnata 1 0 0 1 1POSE 0314 1420 Pista wui 1 0 0 1 1POSE 0310 1610 Prionospio (Minuspio) lighti 1 0 0 1 1POSE 0310 1605 Prionospio (Prionospio) jubata 1 0 0 1 1POSE 0310 1605 Prionospio (Prionospio) jubata 1 0 0 1 1POSE 0266 1660 Rhodine bitorquata 4 0 0 4 1POSE 0266 1660 Rhodine bitorquata 2 0 0 2 1POSE 0310 1820 Spiophanes berkeleyorum 2 0 0 2 1POSE 0312 1860 Sternaspis nr. fossor 3 2 0 5 1POSE 0316 1900 Terebellides californica 1 0 0 1 1POSE 0316 1924 Imamura) 2 0 0 2 1POSE 0318 1990 Trochochaeta multisetosa 1 0 0 1 1POSE 0318 1990 Trochochaeta multisetosa 1 0 0 1 1CNHY 0088 0160 Perigonimus repens 1 0 0 1 2CRAM 0762 0140 Ampelisca unsocalae 0 1 0 1 2CRAM 0832 0340 Deflexilodes similis 1 0 0 1 2CRAM 0844 0600 Heterophoxus affinis 2 1 0 3 2
100
Table 13: Continued.
Group Code
Family Code
Species Code
Genus/Species List Adult Intermediate Juvenile Totals Replicate No.
GVRD 2
CRAM 0844 0600 Heterophoxus affinis 4 0 0 4 2CRAM 0844 1234 Paraphoxus gracilis 17 0 0 17 2CRAM 0862 1565 Syrrhoe longifrons 1 0 0 1 2CRCU 0704 0100 Eudorella pacifica 1 0 0 1 2CRIS 0736 0020 Gnathia sp. 1 0 0 1 2CROS 0682 0110 Scleroconcha trituberculata 2 0 0 2 2CRTA 0712 0040 Leptognathia gracilis 2 1 0 3 2ECHO 1092 0015 Chirodota albatrossii 1 2 0 3 2ECHO 1096 0125 Molpadia intermedia 1 0 0 1 2ECOP 1074 0058 Ophiura leptoctenia 0 1 0 1 2ECOP 1074 0070 Ophiura sp. 0 0 1 1 2MOAP 0338 0030 Chaetoderma argenteum 2 7 0 9 2MOAP 0338 0030 Chaetoderma argenteum 1 1 0 2 2MOBI 0462 0040 Adontorhina cyclia 3 0 0 3 2MOBI 0462 0060 Axinopsida serricata 3 2 0 5 2MOBI 0462 0060 Axinopsida serricata 30 33 0 63 2MOBI 0366 0073 Cardiomya planetica 1 0 0 1 2MOBI 0472 0160 Compsomyax subdiaphana 0 0 2 2 2MOBI 0356 0200 Cyclocardia ventricosa 0 2 1 3 2MOBI 0414 0220 Ennucula tenuis 0 1 0 1 2MOBI 0384 0384 Lasaeidae indet. 0 1 0 1 2MOBI 0456 0530 Macoma carlottensis 5 3 0 8 2MOBI 0456 0540 Macoma elimata 3 1 0 4 2MOBI 0456 0570 Macoma sp. 0 0 1 1 2MOBI 0456 0570 Macoma sp. 0 0 1 1 2MOBI 0478 0590 Megayoldia sp. 0 0 1 1 2MOBI 0412 0700 Nuculana hamata 1 2 0 3 2MOBI 0472 0747 Nutricola tantilla 9 10 0 19 2MOBI 0462 0990 Thyasira flexuosa 1 2 0 3 2MOBI 0478 1020 Yoldia seminuda 1 1 0 2 2MOGA 0528 0020 Acteocina culcitella 1 0 0 1 2MOGA 0610 0041 Alvania compacta 2 1 0 3 2MOGA 0610 0041 Alvania compacta 31 0 0 31 2MOGA 0528 0245 Cylichna alba 0 1 0 1 2MOGA 0528 0250 Cylichna attonsa 0 1 0 1 2MOGA 0518 0672 Oenopota turricula 0 1 0 1 2MOSC 0647 0063 Pulsellum salishorum 5 0 0 5 2NTEA 0148 0170 Cerebratulus californiensis 1 0 0 1 2NTEA 0000 0011 Enopla sp. A (SCAMIT) 0 1 0 1 2NTEA 0156 0210 Tubulanus polymorphus 0 0 1 1 2POER 0214 0295 Eteone californica 1 0 0 1 2POER 0228 0450 Exogone lourei 1 0 0 1 2POER 0180 0500 Glycera nana 2 1 0 3 2POER 0180 0500 Glycera nana 1 0 0 1 2POER 0182 0530 Glycinde armigera 4 0 0 4 2POER 0182 0530 Glycinde armigera 1 0 0 1 2POER 0198 0615 Lumbrineris cruzensis 43 4 0 47 2POER 0198 0615 Lumbrineris cruzensis 1 0 0 1 2POER 0220 0679 Malmgreniella nr. berkeleyorum 1 0 0 1 2POER 0202 0710 Nephtys cornuta 1 0 0 1 2POER 0202 0725 Nephtys punctata 1 2 0 3 2POER 0208 0830 Onuphis iridescens 11 0 0 11 2POER 0208 0831 Onuphis nr. iridescens 0 3 0 3 2POER 0208 0831 Onuphis nr. iridescens 1 0 0 1 2POER 0186 1025 Podarkeopsis perkinsi 1 0 0 1 2
101
Table 13: Continued.
Group Code
Family Code
Species Code
Genus/Species List Adult Intermediate Juvenile Totals Replicate No.
GVRD 2
POER 0198 1040 Scoletoma luti 26 10 2 38 2POER 0198 1040 Scoletoma luti 3 1 0 4 2POER 0228 1225 Typosyllis heterochaeta 1 0 0 1 2POSE 0242 0074 Amphicteis scaphobranchiata 1 0 0 1 2POSE 0242 0080 Anobothrus gracilis 1 0 0 1 2POSE 0252 0120 Aphelochaeta spp. 0 1 0 1 2POSE 0276 0180 Aricidea lopezi 1 0 0 1 2POSE 0276 0180 Aricidea lopezi 1 0 0 1 2POSE 0314 0340 Artacama coniferi 1 0 0 1 2POSE 0248 0383 Barantolla nr. americana 1 0 0 1 2POSE 0248 0383 Barantolla nr. americana 1 1 0 2 2POSE 0252 0495 Chaetozone commonalis 2 0 0 2 2POSE 0252 0495 Chaetozone commonalis 1 0 0 1 2POSE 0310 0697 Dipolydora cardalia 1 0 0 1 2POSE 0310 0697 Dipolydora cardalia 6 0 0 6 2POSE 0310 1470 Dipolydora caulleryi 1 0 0 1 2POSE 0266 0713 Euclymene nr. zonalis 2 0 0 2 2POSE 0274 0720 Galathowenia oculata 17 4 0 21 2POSE 0274 0720 Galathowenia oculata 5 0 0 5 2POSE 0248 0750 Heteromastus filobranchus 8 0 0 8 2POSE 0276 0850 Levinsenia gracilis 8 0 0 8 2POSE 0276 0850 Levinsenia gracilis 1 0 0 1 2POSE 0266 0920 Maldane sarsi 419 0 0 419 2POSE 0266 0920 Maldane sarsi 7 1 0 8 2POSE 0248 0945 Mediomastus ambiseta 19 0 0 19 2POSE 0242 0989 Melinna heterodonta 2 0 0 2 2POSE 0242 0989 Melinna heterodonta 1 0 0 1 2POSE 0266 0987 Microclymene nr. caudata 14 0 0 14 2POSE 0270 1140 Ophelina acuminata 1 0 0 1 2POSE 0270 1145 Ophelina breviata 0 1 0 1 2POSE 0310 1220 Paraprionospio pinnata 1 0 0 1 2POSE 0314 1420 Pista wui 1 0 0 1 2POSE 0266 1540 Praxillella gracilis 1 0 0 1 2POSE 0310 1610 Prionospio (Minuspio) lighti 1 0 0 1 2POSE 0310 1605 Prionospio (Prionospio) jubata 7 0 0 7 2POSE 0310 1605 Prionospio (Prionospio) jubata 1 0 0 1 2POSE 0266 1660 Rhodine bitorquata 21 0 0 21 2POSE 0266 1660 Rhodine bitorquata 1 0 0 1 2POSE 0272 1740 Scoloplos acmeceps 1 0 0 1 2POSE 0310 1820 Spiophanes berkeleyorum 2 0 0 2 2POSE 0312 1860 Sternaspis nr. fossor 4 0 0 4 2POSE 0316 1900 Terebellides californica 1 0 0 1 2POSE 0316 1910 Terebellides reishi 1 0 0 1 2POSE 0316 1924 Imamura) 2 2 1 5 2POSE 0316 1924 Imamura) 4 0 0 4 2POSE 0270 1980 Travisia pupa 1 0 0 1 2POSE 0316 2000 Trichobranchus glacialis 1 0 0 1 2POSE 0316 2000 Trichobranchus glacialis 1 0 0 1 2POSE 0318 1990 Trochochaeta multisetosa 2 0 0 2 2CNHY 0090 0020 Campanularia sp. 4 0 0 4 3CRAM 0812 0470 Ericthonius rubricornis 1 0 0 1 3CRAM 0844 0600 Heterophoxus affinis 2 2 0 4 3CRAM 0844 0600 Heterophoxus affinis 7 0 0 7 3CRAM 0832 1108 Monoculodes perditus 2 0 0 2 3CRAM 0844 1234 Paraphoxus gracilis 5 0 0 5 3
102
Table 13: Continued.
Group Code
Family Code
Species Code
Genus/Species List Adult Intermediate Juvenile Totals Replicate No.
GVRD 2
CRAM 0862 1565 Syrrhoe longifrons 1 0 0 1 3CRCU 0704 0170 Leucon sp. 1 0 0 1 3CRTA 0712 0040 Leptognathia gracilis 1 0 0 1 3ECEC 1082 0050 Brisaster latifrons 1 0 0 1 3ECHO 1092 0015 Chirodota albatrossii 9 1 0 10 3ECHO 1096 0125 Molpadia intermedia 2 0 0 2 3ECHO 1098 0150 Pentamera pseudocalcigera 0 1 0 1 3ECHO 1098 0150 Pentamera pseudocalcigera 0 1 0 1 3ECOP 1074 0058 Ophiura leptoctenia 1 3 0 4 3ECOP 1074 0070 Ophiura sp. 0 0 1 1 3HEMI 1126 0010 Saccoglossus spp. 2 0 0 2 3MOAP 0338 0030 Chaetoderma argenteum 1 9 0 10 3MOAP 0338 0030 Chaetoderma argenteum 1 0 1 2 3MOBI 0414 0020 Acila castrensis 0 0 1 1 3MOBI 0462 0040 Adontorhina cyclia 2 0 0 2 3MOBI 0462 0040 Adontorhina cyclia 2 0 0 2 3MOBI 0462 0060 Axinopsida serricata 2 2 0 4 3MOBI 0462 0060 Axinopsida serricata 42 57 0 99 3MOBI 0472 0160 Compsomyax subdiaphana 0 3 0 3 3MOBI 0356 0200 Cyclocardia ventricosa 0 5 1 6 3MOBI 0384 0384 Lasaeidae indet. 2 0 0 2 3MOBI 0456 0530 Macoma carlottensis 5 6 0 11 3MOBI 0456 0540 Macoma elimata 3 1 0 4 3MOBI 0456 0550 Macoma nasuta 0 1 0 1 3MOBI 0456 0570 Macoma sp. 0 0 2 2 3MOBI 0456 0570 Macoma sp. 0 0 5 5 3MOBI 0472 0747 Nutricola tantilla 5 1 0 6 3MOBI 0472 0747 Nutricola tantilla 10 1 0 11 3MOBI 0462 0990 Thyasira flexuosa 1 0 0 1 3MOBI 0478 1015 Yoldia hyperborea 0 1 0 1 3MOBI 0478 1020 Yoldia seminuda 0 0 1 1 3MOGA 0610 0041 Alvania compacta 5 0 0 5 3MOGA 0610 0041 Alvania compacta 10 1 0 11 3MOGA 0528 0250 Cylichna attonsa 5 2 0 7 3MOGA 0528 0250 Cylichna attonsa 1 0 0 1 3MOGA 0606 0680 Odostomia sp. 1 0 0 1 3MOGA 0518 0663 Oenopota elegans 1 0 0 1 3MOGA 0518 0668 Oenopota harpularia 1 0 0 1 3MOSC 0647 0063 Pulsellum salishorum 4 0 0 4 3NTEA 0148 0170 Cerebratulus californiensis 1 0 0 1 3NTEA 0156 0210 Tubulanus polymorphus 0 0 1 1 3POER 0206 0095 Drilonereis longa 1 0 0 1 3POER 0198 0285 Errano sp. 0 1 0 1 3POER 0214 0320 Eteone spilotus 1 0 0 1 3POER 0228 0450 Exogone lourei 4 0 0 4 3POER 0180 0500 Glycera nana 4 0 0 4 3POER 0182 0530 Glycinde armigera 1 0 0 1 3POER 0220 0591 Hesperonoe laevis 2 0 0 2 3POER 0198 0615 Lumbrineris cruzensis 10 1 0 11 3POER 0198 0615 Lumbrineris cruzensis 7 0 0 7 3POER 0220 0679 Malmgreniella nr. berkeleyorum 1 0 0 1 3POER 0220 0675 Malmgreniella scriptoria 2 0 0 2 3POER 0202 0710 Nephtys cornuta 2 0 0 2 3POER 0202 0720 Nephtys ferruginea 1 0 0 1 3POER 0202 0725 Nephtys punctata 2 0 0 2 3
103
Table 13: Continued.
Group Code
Family Code
Species Code
Genus/Species List Adult Intermediate Juvenile Totals Replicate No.
GVRD 2
POER 0208 0830 Onuphis iridescens 6 0 0 6 3POER 0208 0830 Onuphis iridescens 2 0 0 2 3POER 0208 0831 Onuphis nr. iridescens 3 1 0 4 3POER 0186 1025 Podarkeopsis perkinsi 1 0 0 1 3POER 0198 1040 Scoletoma luti 17 4 2 23 3POER 0198 1040 Scoletoma luti 5 7 1 13 3POSE 0242 0020 Amage anops 0 1 0 1 3POSE 0252 0120 Aphelochaeta spp. 1 0 0 1 3POSE 0248 0383 Barantolla nr. americana 1 0 0 1 3POSE 0260 0420 Brada sachalina 1 0 0 1 3POSE 0252 0495 Chaetozone commonalis 1 0 0 1 3POSE 0310 0697 Dipolydora cardalia 5 0 0 5 3POSE 0274 0720 Galathowenia oculata 14 5 0 19 3POSE 0274 0720 Galathowenia oculata 17 3 0 20 3POSE 0248 0750 Heteromastus filobranchus 5 0 0 5 3POSE 0314 0776 Lanassa gracilis 1 1 0 2 3POSE 0310 0805 Laonice spp. 1 0 0 1 3POSE 0276 0850 Levinsenia gracilis 1 0 0 1 3POSE 0276 0850 Levinsenia gracilis 1 0 0 1 3POSE 0266 0920 Maldane sarsi 92 0 0 92 3POSE 0266 0920 Maldane sarsi 30 0 0 30 3POSE 0248 0945 Mediomastus ambiseta 2 0 0 2 3POSE 0248 0945 Mediomastus ambiseta 1 0 0 1 3POSE 0242 0989 Melinna heterodonta 1 0 0 1 3POSE 0266 0987 Microclymene nr. caudata 1 0 0 1 3POSE 0266 0987 Microclymene nr. caudata 15 7 0 22 3POSE 0250 1345 Phyllochaetopterus spp. 0 1 0 1 3POSE 0314 1440 Polycirrus californicus 0 1 0 1 3POSE 0266 1540 Praxillella gracilis 1 0 0 1 3POSE 0310 1610 Prionospio (Minuspio) lighti 0 1 0 1 3POSE 0310 1605 Prionospio (Prionospio) jubata 4 0 0 4 3POSE 0310 1605 Prionospio (Prionospio) jubata 6 0 0 6 3POSE 0310 1630 Prionospio spp. 1 0 0 1 3POSE 0266 1660 Rhodine bitorquata 4 0 0 4 3POSE 0266 1660 Rhodine bitorquata 2 0 0 2 3POSE 0312 1860 Sternaspis nr. fossor 1 0 0 1 3POSE 0312 1860 Sternaspis nr. fossor 3 1 0 4 3POSE 0316 1900 Terebellides californica 1 0 0 1 3POSE 0316 1910 Terebellides reishi 1 0 0 1 3POSE 0316 1924 Imamura) 2 1 0 3 3POSE 0316 1924 Imamura) 2 0 0 2 3POSE 0270 1980 Travisia pupa 1 0 0 1 3POSE 0318 1990 Trochochaeta multisetosa 1 0 0 1 3
GVRD-5CRAM 0844 0600 Heterophoxus affinis 0 2 0 2 1ECEC 1082 0046 Brisaster acutifrons 4 3 1 8 1ECHO 1092 0015 Chirodota albatrossii 5 0 0 5 1ECHO 1096 0125 Molpadia intermedia 3 0 1 4 1ECOP 1058 0051 Amphioplus pugetana 1 1 0 2 1EURA 0323 0010 Arhynchite pugettensis 1 0 0 1 1MOAP 0338 0030 Chaetoderma argenteum 1 1 0 2 1MOAP 0338 0050 Falcidens longus 0 1 0 1 1MOAP 0340 0060 Limifossor sp. 1 0 0 1 1
104
Table 13: Continued.
Group Code
Family Code
Species Code
Genus/Species List Adult Intermediate Juvenile Totals Replicate No.
GVRD 5
MOBI 0462 0060 Axinopsida serricata 0 1 0 1 1MOBI 0478 0590 Megayoldia spp. 0 0 1 1 1MOSC 0646 0050 Polyschides tolmiei 2 0 0 2 1MOSC 0647 0063 Pulsellum salishorum 1 0 0 1 1NTEA 0148 0170 Cerebratulus californiensis 0 1 0 1 1POER 0180 0500 Glycera nana 1 0 0 1 1POER 0182 0530 Glycinde armigera 0 2 0 2 1POER 0220 0582 Hesperonoe complanata 1 0 0 1 1POER 0220 0675 Malmgreniella scriptoria 4 0 0 4 1POER 0202 0710 Nephtys cornuta 1 0 0 1 1POER 0224 0900 Pholoe spp. 1 0 0 1 1POER 0198 1040 Scoletoma luti 0 1 0 1 1POSE 0260 0420 Brada sachalina 1 0 0 1 1POSE 0252 0252 Cirratulidae indet. 1 0 0 1 1POSE 0310 0702 Dipolydora spp. 0 1 0 1 1POSE 0266 0710 Euclymeninae indet. 0 1 0 1 1POSE 0274 0720 Galathowenia oculata 8 1 0 9 1POSE 0248 0750 Heteromastus filobranchus 1 0 0 1 1POSE 0266 0920 Maldane sarsi 5 0 0 5 1POSE 0266 0987 Microclymene nr. caudata 0 2 0 2 1POSE 0252 0997 Monticellina secunda 0 1 0 1 1POSE 0260 1328 Pherusa neopapillata 1 0 0 1 1POSE 0314 1420 Pista wui 0 1 0 1 1POSE 0310 1835 Spiophanes fimbriata 3 0 0 3 1POSE 0312 1860 Sternaspis nr. fossor 1 1 0 2 1SIPN 0330 0080 Nephasoma diaphanes 0 1 0 1 1SIPN 0330 0020 Thysanocardia nigra 0 1 0 1 1CHPY 0668 0026 Anoplodactylus viridintestinalis 1 0 0 1 2CRAM 0844 0590 Harpiniopsis fulgens 1 0 0 1 2CRAM 0844 0600 Heterophoxus affinis 2 1 0 3 2ECEC 1082 0046 Brisaster acutifrons 0 2 0 2 2ECHO 1092 0015 Chirodota albatrossii 2 1 0 3 2ECHO 1096 0125 Molpadia intermedia 1 1 0 2 2ECOP 1074 0058 Ophiura leptoctenia 2 0 0 2 2MOAP 0340 0060 Limifossor sp. 2 0 0 2 2MOBI 0462 0060 Axinopsida serricata 0 1 0 1 2MOBI 0478 0590 Megayoldia spp. 0 0 2 2 2MOBI 0478 0595 Megayoldia thraciaeformis 1 0 0 1 2MOSC 0646 0050 Polyschides tolmiei 1 3 0 4 2MOSC 0647 0063 Pulsellum salishorum 1 0 0 1 2MOSC 0648 0080 Rhabdus rectius 1 1 0 2 2NTEA 0154 0260 Tetrastemma sp. 0 1 0 1 2POER 0216 0866 Ancistrosyllis groenlandica 2 0 0 2 2POER 0228 0450 Exogone lourei 2 0 1 3 2POER 0220 0480 Gattyana treadwelli 1 0 0 1 2POER 0180 0500 Glycera nana 1 0 0 1 2POER 0198 0615 Lumbrineris cruzensis 1 0 0 1 2POER 0224 0895 Pholoe sp. N-1 (Ruff) 2 0 0 2 2POER 0198 1040 Scoletoma luti 0 1 0 1 2POSE 0314 0078 Amphitritinae indet. 0 0 2 2 2POSE 0242 0080 Anobothrus gracilis 1 0 0 1 2POSE 0252 0122 Aphelochaeta sp. 2 1 0 0 1 2POSE 0276 0180 Aricidea lopezi 1 0 0 1 2POSE 0310 0702 Dipolydora spp. 0 1 0 1 2POSE 0300 0709 Euchone spp. 0 1 0 1 2
105
Table 13: Continued.
Group Code
Family Code
Species Code
Genus/Species List Adult Intermediate Juvenile Totals Replicate No.
GVRD-5
POSE 0266 0710 Euclymeninae indet. 0 5 0 5 2POSE 0274 0720 Galathowenia oculata 17 5 0 22 2POSE 0276 0850 Levinsenia gracilis 2 0 0 2 2POSE 0266 0920 Maldane sarsi 3 1 0 4 2POSE 0248 0948 Mediomastus californiensis 1 0 0 1 2POSE 0242 0990 Melinna elisabethae 0 1 0 1 2POSE 0266 0987 Microclymene nr. caudata 0 1 1 2 2POSE 0280 1240 Pectinaria californiensis 1 0 0 1 2POSE 0310 1835 Spiophanes fimbriata 3 0 0 3 2POSE 0312 1860 Sternaspis nr. fossor 1 0 0 1 2SIPN 0330 0080 Nephasoma diaphanes 4 1 0 5 2CRAM 0844 0600 Heterophoxus affinis 0 1 0 1 3CRCU 0700 0075 Diastylis umatillensis 1 0 0 1 3CRIS 0748 0145 Baeonectes improvisus 1 0 0 1 3ECEC 1082 0046 Brisaster acutifrons 3 3 0 6 3ECHO 1092 0015 Chirodota albatrossii 4 1 0 5 3ECHO 1096 0125 Molpadia intermedia 1 1 2 4 3ECOP 1074 0058 Ophiura leptoctenia 0 1 0 1 3EURA 0323 0010 Arhynchite pugettensis 0 1 0 1 3EURA 0322 0030 Nellobia eusoma 1 0 0 1 3MOAP 0340 0061 Limifossor cf. fratula 1 0 0 1 3MOBI 0478 0595 Megayoldia thraciaeformis 1 1 0 2 3MOBI 0384 0675 Neaeromya rugifera 0 1 1 2 3MOGA 0528 0250 Cylichna attonsa 2 0 0 2 3MOSC 0646 0050 Polyschides tolmiei 1 0 0 1 3POER 0216 0866 Ancistrosyllis groenlandica 11 0 0 11 3POER 0182 0530 Glycinde armigera 0 1 0 1 3POER 0198 0615 Lumbrineris cruzensis 1 0 0 1 3POER 0220 0675 Malmgreniella scriptoria 2 0 0 2 3POER 0202 0725 Nephtys punctata 2 0 0 2 3POER 0208 0830 Onuphis iridescens 2 0 0 2 3POER 0186 1025 Podarkeopsis perkinsi 1 0 0 1 3POER 0198 1040 Scoletoma luti 2 0 0 2 3POSE 0276 0185 Aricidea simplex 0 1 0 1 3POSE 0260 0420 Brada sachalina 0 1 0 1 3POSE 0252 0510 Chaetozone spp. 0 1 0 1 3POSE 0274 0720 Galathowenia oculata 9 1 0 10 3POSE 0266 0920 Maldane sarsi 3 0 0 3 3POSE 0242 0990 Melinna elisabethae 0 1 0 1 3POSE 0266 0987 Microclymene nr. caudata 1 4 0 5 3POSE 0310 1610 Prionospio (Minuspio) lighti 1 0 0 1 3POSE 0310 1835 Spiophanes fimbriata 3 1 0 4 3POSE 0312 1860 Sternaspis nr. fossor 0 1 1 2 3POSE 0270 1980 Travisia pupa 1 0 0 1 3SIPN 0330 0080 Nephasoma diaphanes 3 0 0 3 3
GVRD-6CRAM 0844 0590 Harpiniopsis fulgens 1 0 0 1 1CRAM 0844 0600 Heterophoxus affinis 6 7 0 13 1CRAM 0826 1155 Orchomene cf. pinguis 1 0 0 1 1CRCU 0700 0060 Diastylis pellucida 1 0 0 1 1CRCU 0704 0125 Eudorellopsis integra 177 0 0 177 1CRDE 0898 0266 Lebbeus sp. 0 0 1 1 1CRDE 0892 0135 Munida quadrispina 0 0 2 2 1
106
Table 13: Continued.
Group Code
Family Code
Species Code
Genus/Species List Adult Intermediate Juvenile Totals Replicate No.
GVRD 6
CRDE 0932 0240 Pinnixa sp. 0 1 2 3 1CRIS 0750 0141 Pleurogonium sp. 1 0 0 1 1CROS 0674 0020 Bathyleberis sp. 9 0 0 9 1CROS 0682 0060 Euphilomedes producta 61 0 0 61 1ECOP 1058 0030 Amphiodia sp. 0 0 1 1 1ECOP 1058 0040 Amphiodia urtica 0 1 0 1 1ECOP 1074 0058 Ophiura leptoctenia 2 0 0 2 1ECOP 0000 0001 Ophiuroidea indet. 0 0 1 1 1EURA 0322 0030 Nellobia eusoma 1 0 0 1 1MOAP 0338 0030 Chaetoderma argenteum 0 4 0 4 1MOAP 0338 0050 Falcidens longus 0 1 0 1 1MOBI 0462 0060 Axinopsida serricata 0 5 0 5 1MOBI 0456 0520 Macoma calcarea 1 0 0 1 1MOBI 0456 0530 Macoma carlottensis 112 21 30 163 1MOBI 0456 0570 Macoma spp. 0 0 1 1 1MOBI 0478 0595 Megayoldia thraciaeformis 0 4 1 5 1MOBI 0392 0800 Parvilucina tenuisculpta 0 1 0 1 1MOBI 0478 1015 Yoldia hyperborea 0 1 2 3 1MOBI 0478 1020 Yoldia seminuda 1 1 0 2 1MOGA 0516 0090 Astyris gausapata 1 0 0 1 1MOGA 0584 0375 Cryptonatica affinis 0 1 3 4 1MOGA 0528 0250 Cylichna attonsa 8 17 0 25 1MOSC 0647 0063 Pulsellum salishorum 11 0 0 11 1MOSC 0648 0080 Rhabdus rectius 0 0 1 1 1NTEA 0148 0193 Micrura nr. pardalis 1 0 0 1 1NTEA 0156 0210 Tubulanus polymorphus 1 0 0 1 1PHOR 0950 0049 Phoronis psammophila 0 1 0 1 1POER 0180 0500 Glycera nana 5 0 0 5 1POER 0202 0710 Nephtys cornuta 1 0 0 1 1POER 0198 0780 Ninoe gemmea 2 0 0 2 1POER 0224 0890 Pholoe minuta 4 1 0 5 1POER 0224 0895 Pholoe sp. N-1 (Ruff) 12 0 0 12 1POER 0214 0960 Phyllodoce spp. 0 1 0 1 1POER 0186 1025 Podarkeopsis perkinsi 1 0 0 1 1POER 0198 1040 Scoletoma luti 7 1 0 8 1POSE 0242 0042 Ampharete nr. acutifrons 4 0 0 4 1POSE 0252 0120 Aphelochaeta spp. 0 2 0 2 1POSE 0260 0430 Brada spp. 0 0 1 1 1POSE 0252 0510 Chaetozone spp. 0 0 1 1 1POSE 0254 0646 Cossura bansei 2 0 0 2 1POSE 0254 0660 Cossura pygodactylata 0 1 0 1 1POSE 0248 0683 Decamastus nr. gracilis 0 1 0 1 1POSE 0266 0710 Euclymeninae indet. 1 0 0 1 1POSE 0274 0720 Galathowenia oculata 37 4 0 41 1POSE 0248 0750 Heteromastus filobranchus 0 0 2 2 1POSE 0310 0800 Laonice cirrata 1 0 0 1 1POSE 0276 0850 Levinsenia gracilis 2 0 0 2 1POSE 0248 0945 Mediomastus ambiseta 8 0 0 8 1POSE 0248 0948 Mediomastus californiensis 6 1 0 7 1POSE 0280 1240 Pectinaria californiensis 4 0 4 8 1POSE 0310 1610 Prionospio (Minuspio) lighti 34 4 0 38 1POSE 0312 1860 Sternaspis nr. fossor 2 4 1 7 1POSE 0270 1980 Travisia pupa 1 0 0 1 1CNHY 0088 0160 Perigonimus repens 1 0 0 1 2CRAM 0762 0090 Ampelisca hancocki 1 0 0 1 2
107
Table 13: Continued.
Group Code
Family Code
Species Code
Genus/Species List Adult Intermediate Juvenile Totals Replicate No.
GVRD-6
CRAM 0844 0590 Harpiniopsis fulgens 2 0 0 2 2CRAM 0844 0600 Heterophoxus affinis 3 7 0 10 2CRAM 0844 1515 Rhepoxynius barnardi 2 0 0 2 2CRCU 0700 0060 Diastylis pellucida 5 2 0 7 2CRCU 0704 0125 Eudorellopsis integra 253 2 0 255 2CRCU 0704 0175 Leucon magnadentata 1 0 0 1 2CRDE 0892 0135 Munida quadrispina 0 0 1 1 2CROS 0674 0020 Bathyleberis sp. 8 0 0 8 2CROS 0682 0060 Euphilomedes producta 31 0 0 31 2ECHO 1096 0125 Molpadia intermedia 1 0 0 1 2ECOP 1074 0058 Ophiura leptoctenia 1 0 0 1 2MOAP 0338 0030 Chaetoderma argenteum 0 4 0 4 2MOBI 0462 0060 Axinopsida serricata 0 1 0 1 2MOBI 0456 0530 Macoma carlottensis 65 15 16 96 2MOBI 0456 0540 Macoma elimata 1 0 1 2 2MOBI 0478 0590 Megayoldia spp. 0 0 2 2 2MOBI 0478 0595 Megayoldia thraciaeformis 1 2 1 4 2MOBI 0478 1020 Yoldia seminuda 5 0 0 5 2MOGA 0584 0375 Cryptonatica affinis 0 3 0 3 2MOGA 0528 0250 Cylichna attonsa 3 11 0 14 2MOGA 0558 0285 Haminoea virescens 1 0 0 1 2MOGA 0606 0680 Odostomia sp. 2 0 0 2 2MOSC 0646 0050 Polyschides tolmiei 7 0 0 7 2NTEA 0154 0260 Tetrastemma sp. 0 1 0 1 2NTEA 0156 0210 Tubulanus polymorphus 2 1 0 3 2POER 0180 0500 Glycera nana 10 0 0 10 2POER 0182 0530 Glycinde armigera 0 1 0 1 2POER 0198 0780 Ninoe gemmea 1 0 0 1 2POER 0224 0895 Pholoe sp. N-1 (Ruff) 6 0 0 6 2POER 0198 1040 Scoletoma luti 6 1 0 7 2POSE 0242 0042 Ampharete nr. acutifrons 11 0 0 11 2POSE 0252 0120 Aphelochaeta spp. 0 1 0 1 2POSE 0248 0383 Barantolla nr. americana 1 0 0 1 2POSE 0254 0646 Cossura bansei 1 0 0 1 2POSE 0310 0702 Dipolydora spp. 0 1 0 1 2POSE 0274 0720 Galathowenia oculata 30 0 0 30 2POSE 0248 0750 Heteromastus filobranchus 3 0 0 3 2POSE 0276 0850 Levinsenia gracilis 4 0 0 4 2POSE 0248 0945 Mediomastus ambiseta 5 1 0 6 2POSE 0248 0948 Mediomastus californiensis 9 0 0 9 2POSE 0310 1610 Prionospio (Minuspio) lighti 5 0 0 5 2POSE 0310 1605 Prionospio (Prionospio) jubata 1 0 0 1 2POSE 0312 1860 Sternaspis nr. fossor 4 1 1 6 2CRAM 0792 0585 Guernea reduncans 2 0 0 2 3CRAM 0844 0590 Harpiniopsis fulgens 1 0 0 1 3CRAM 0844 0600 Heterophoxus affinis 4 5 0 9 3CRAM 0844 1515 Rhepoxynius barnardi 1 0 0 1 3CRCU 0700 0060 Diastylis pellucida 1 0 0 1 3CRCU 0704 0125 Eudorellopsis integra 199 4 0 203 3CRCU 0704 0175 Leucon magnadentata 2 0 0 2 3CRDE 0932 0230 Pinnixa occidentalis complex 0 1 0 1 3CROS 0674 0020 Bathyleberis sp. 1 0 0 1 3CROS 0682 0060 Euphilomedes producta 28 0 0 28 3ECEC 1082 0046 Brisaster acutifrons 2 0 0 2 3ECHO 1096 0125 Molpadia intermedia 2 1 0 3 3
108
Table 13: Continued.
Group Code
Family Code
Species Code
Genus/Species List Adult Intermediate Juvenile Totals Replicate No.
GVRD-6
ECHO 1098 0150 Pentamera pseudocalcigera 0 0 1 1 3ECOP 1058 0040 Amphiodia urtica 0 1 0 1 3MOAP 0338 0030 Chaetoderma argenteum 1 2 1 4 3MOAP 0338 0050 Falcidens longus 1 0 0 1 3MOBI 0462 0040 Adontorhina cyclia 1 0 0 1 3MOBI 0456 0530 Macoma carlottensis 57 7 11 75 3MOBI 0456 0540 Macoma elimata 0 1 0 1 3MOBI 0478 0595 Megayoldia thraciaeformis 2 2 1 5 3MOBI 0384 0675 Neaeromya rugifera 0 1 3 4 3MOBI 0478 1020 Yoldia seminuda 3 1 0 4 3MOGA 0584 0375 Cryptonatica affinis 0 2 1 3 3MOGA 0528 0250 Cylichna attonsa 12 23 0 35 3MOGA 0606 0680 Odostomia sp. 1 0 0 1 3MOSC 0647 0063 Pulsellum salishorum 12 0 0 12 3MOSC 0648 0080 Rhabdus rectius 0 1 1 2 3PHOR 0950 0049 Phoronis psammophila 0 1 0 1 3POER 0216 0866 Ancistrosyllis groenlandica 2 0 0 2 3POER 0220 0482 Gattyana spp. 0 1 0 1 3POER 0180 0500 Glycera nana 7 0 0 7 3POER 0182 0530 Glycinde armigera 3 0 0 3 3POER 0220 0675 Malmgreniella scriptoria 2 1 0 3 3POER 0202 0710 Nephtys cornuta 1 0 0 1 3POER 0198 0780 Ninoe gemmea 2 0 0 2 3POER 0208 0830 Onuphis iridescens 1 0 0 1 3POER 0172 0875 Parougia caeca 1 0 0 1 3POER 0224 0895 Pholoe sp. N-1 (Ruff) 6 0 0 6 3POER 0198 1040 Scoletoma luti 7 0 1 8 3POSE 0242 0042 Ampharete nr. acutifrons 3 0 1 4 3POSE 0276 0180 Aricidea lopezi 1 0 0 1 3POSE 0260 0420 Brada sachalina 2 0 0 2 3POSE 0254 0646 Cossura bansei 1 0 0 1 3POSE 0248 0683 Decamastus nr. gracilis 0 1 0 1 3POSE 0274 0720 Galathowenia oculata 34 1 0 35 3POSE 0248 0750 Heteromastus filobranchus 0 1 0 1 3POSE 0276 0850 Levinsenia gracilis 5 0 0 5 3POSE 0248 0945 Mediomastus ambiseta 3 0 0 3 3POSE 0248 0948 Mediomastus californiensis 3 0 0 3 3POSE 0280 1240 Pectinaria californiensis 0 0 1 1 3POSE 0310 1610 Prionospio (Minuspio) lighti 4 0 0 4 3POSE 0310 1605 Prionospio (Prionospio) jubata 1 0 0 1 3POSE 0312 1860 Sternaspis nr. fossor 6 0 0 6 3
GVRD-7
BRYO 1016 0027 Bowerbankia gracilis 1 0 0 1 1BRYO 1012 0270 Triticella pedicellata 1 0 0 1 1CRAM 0844 0600 Heterophoxus affinis 1 0 0 1 1CRDE 0932 0230 Pinnixa occidentalis 1 1 0 2 1CRIS 0750 0140 Pleurogonium rubicundum 1 0 0 1 1CROS 0682 0060 Euphilomedes producta 3 0 0 3 1ECHO 1092 0015 Chirodota albatrossii 11 1 0 12 1ECHO 1096 0125 Molpadia intermedia 0 1 0 1 1EURA 0323 0010 Arhynchite pugettensis 1 1 0 2 1MOAP 0338 0030 Chaetoderma argenteum 2 1 0 3 1
109
Table 13: Continued.
Group Code
Family Code
Species Code
Genus/Species List Adult Intermediate Juvenile Totals Replicate No.
GVRD 7
MOAP 0338 0050 Falcidens longus 1 0 0 1 1MOBI 0462 0060 Axinopsida serricata 0 2 0 2 1MOBI 0456 0530 Macoma carlottensis 0 6 9 15 1MOBI 0456 0540 Macoma elimata 3 0 0 3 1MOBI 0450 0900 Solemya reidi 1 3 0 4 1MOBI 0478 1020 Yoldia seminuda 0 1 0 1 1MOGA 0516 0090 Astyris gausapata 2 0 0 2 1MOSC 0647 0063 Pulsellum salishorum 4 0 0 4 1MOSC 0648 0080 Rhabdus rectius 0 0 1 1 1NTEA 0156 0168 Carinomella sp. 0 1 0 1 1NTEA 0148 0170 Cerebratulus californiensis 0 0 2 2 1POER 0180 0500 Glycera nana 2 0 0 2 1POER 0182 0530 Glycinde armigera 1 0 0 1 1POER 0198 0615 Lumbrineris cruzensis 1 0 0 1 1POER 0220 0666 Malmgreniella berkeleyorum 1 0 0 1 1POER 0208 0831 Onuphis nr. iridescens 1 0 0 1 1POER 0224 0900 Pholoe spp. 1 0 0 1 1POER 0214 0960 Phyllodoce spp. 0 1 0 1 1POER 0198 1040 Scoletoma luti 16 2 0 18 1POSE 0242 0042 Ampharete nr. acutifrons 8 1 0 9 1POSE 0252 0122 Aphelochaeta sp. 2 (Ruff) 1 0 0 1 1POSE 0252 0495 Chaetozone commonalis 1 1 0 2 1POSE 0254 0646 Cossura bansei 1 0 0 1 1POSE 0248 0683 Decamastus nr. gracilis 1 0 0 1 1POSE 0310 0700 Dipolydora socialis 7 6 2 15 1POSE 0274 0720 Galathowenia oculata 32 3 0 35 1POSE 0310 0800 Laonice cirrata 1 0 0 1 1POSE 0276 0850 Levinsenia gracilis 2 0 0 2 1POSE 0266 0920 Maldane sarsi 1 0 0 1 1POSE 0248 0945 Mediomastus ambiseta 8 0 0 8 1POSE 0248 0948 Mediomastus californiensis 10 2 0 12 1POSE 0248 0950 Mediomastus spp. 8 0 0 8 1POSE 0266 0987 Microclymene nr. caudata 0 5 1 6 1POSE 0252 0995 Monticellina serratiseta 2 0 0 2 1POSE 0274 1000 Myriochele olgae 1 0 0 1 1POSE 0266 1050 Nicomache personata 34 0 0 34 1POSE 0274 1163 Owenia nr. johnsoni 2 1 0 3 1POSE 0280 1240 Pectinaria californiensis 3 0 0 3 1POSE 0266 1540 Praxillella gracilis 0 1 0 1 1POSE 0310 1610 Prionospio lighti 19 5 0 24 1POSE 0310 1820 Spiophanes berkeleyorum 1 1 0 2 1POSE 0312 1860 Sternaspis nr. fossor 1 0 1 2 1POSE 0318 1990 Trochochaeta multisetosa 1 0 0 1 1BRYO 1012 0270 Triticella pedicellata 1 0 0 1 2CNHY 0088 0160 Perigonimus repens 2 0 0 2 2CRAM 0844 0600 Heterophoxus affinis 1 0 0 1 2CRCU 0700 0060 Diastylis pellucida 0 2 0 2 2CRCU 0704 0125 Eudorellopsis integra 1 0 0 1 2CRDE 0932 0230 Pinnixa occidentalis 0 0 1 1 2CROS 0674 0020 Bathyleberis sp. 1 0 0 1 2CROS 0682 0060 Euphilomedes producta 18 0 0 18 2CROS 0682 0110 Scleroconcha trituberculata 1 0 0 1 2ECEC 1082 0050 Brisaster latifrons 1 1 0 2 2ECHO 1092 0015 Chirodota albatrossii 14 2 0 16 2ECHO 1108 0100 Leptosynapta transgressor 2 6 0 8 2
110
Table 13: Continued.
Group Code
Family Code
Species Code
Genus/Species List Adult Intermediate Juvenile Totals Replicate No.
GVRD-7
ECHO 1096 0125 Molpadia intermedia 2 0 0 2 2ECOP 1058 0040 Amphiodia urtica 0 1 0 1 2ECOP 1074 0058 Ophiura leptoctenia 0 1 0 1 2MOAP 0338 0030 Chaetoderma argenteum 2 0 0 2 2MOBI 0462 0060 Axinopsida serricata 0 3 0 3 2MOBI 0456 0530 Macoma carlottensis 1 12 15 28 2MOBI 0456 0540 Macoma elimata 1 0 0 1 2MOBI 0456 0542 Macoma golkovi 1 0 0 1 2MOBI 0384 0675 Neaeromya rugifera 0 3 0 3 2MOBI 0384 0860 Rochefortia tumida 1 0 0 1 2MOBI 0450 0900 Solemya reidi 0 1 0 1 2MOBI 0478 1020 Yoldia seminuda 3 0 0 3 2MOGA 0518 0672 Oenopota turricula 1 0 0 1 2MOSC 0647 0063 Pulsellum salishorum 2 0 0 2 2MOSC 0648 0080 Rhabdus rectius 0 0 1 1 2NTEA 0148 0170 Cerebratulus californiensis 0 1 0 1 2POER 0198 0870 Cenogenus simpla 1 0 0 1 2POER 0214 0365 Eumida spp. 1 0 0 1 2POER 0180 0500 Glycera nana 1 1 0 2 2POER 0182 0530 Glycinde armigera 2 1 0 3 2POER 0198 0615 Lumbrineris cruzensis 2 0 0 2 2POER 0220 0666 Malmgreniella berkeleyorum 3 0 0 3 2POER 0202 0710 Nephtys cornuta 1 0 0 1 2POER 0208 0830 Onuphis iridescens 2 0 0 2 2POER 0208 0831 Onuphis nr. iridescens 3 0 0 3 2POER 0208 0840 Onuphis sp. 0 0 1 1 2POER 0224 0895 Pholoe sp. N-1 2 0 0 2 2POER 0186 1025 Podarkeopsis perkinsi 0 1 0 1 2POER 0198 1040 Scoletoma luti 22 0 0 22 2POSE 0242 0042 Ampharete nr. acutifrons 8 3 0 11 2POSE 0252 0120 Aphelochaeta spp. 2 0 0 2 2POSE 0252 0495 Chaetozone commonalis 2 0 0 2 2POSE 0310 0700 Dipolydora socialis 1 16 0 17 2POSE 0266 0713 Euclymene nr. zonalis 0 1 0 1 2POSE 0266 0710 Euclymeninae indet. 0 1 0 1 2POSE 0274 0720 Galathowenia oculata 10 1 0 11 2POSE 0276 0850 Levinsenia gracilis 1 0 0 1 2POSE 0266 0920 Maldane sarsi 2 0 0 2 2POSE 0248 0945 Mediomastus ambiseta 1 0 0 1 2POSE 0248 0950 Mediomastus spp. 2 0 0 2 2POSE 0266 0987 Microclymene nr. caudata 0 0 1 1 2POSE 0270 1144 Ophelina spp. 0 1 0 1 2POSE 0280 1240 Pectinaria californiensis 3 0 0 3 2POSE 0310 1610 Prionospio lighti 1 0 0 1 2POSE 0310 1820 Spiophanes berkeleyorum 2 2 0 4 2POSE 0312 1860 Sternaspis nr. fossor 1 0 2 3 2POSE 0316 1905 Terebellides kobei 1 0 0 1 2BRYO 1012 0270 Triticella pedicellata 1 0 0 1 3CNHY 0088 0160 Perigonimus repens 3 0 0 3 3CRAM 0762 0140 Ampelisca unsocalae 0 1 0 1 3CRAM 0844 0600 Heterophoxus affinis 2 0 0 2 3CRCU 0704 0125 Eudorellopsis integra 1 0 0 1 3CRDE 0932 0230 Pinnixa occidentalis 0 1 0 1 3CROS 0682 0060 Euphilomedes producta 7 1 0 8 3CRTA 0712 0040 Leptognathia gracilis 1 0 0 1 3
111
Table 13: Continued.
Group Code
Family Code
Species Code
Genus/Species List Adult Intermediate Juvenile Totals Replicate No.
GVRD-7
ECHO 1092 0015 Chirodota albatrossii 11 16 0 27 3ECHO 1108 0100 Leptosynapta transgressor 0 2 0 2 3ECOP 1058 0040 Amphiodia urtica 0 1 0 1 3ECOP 1074 0070 Ophiura sp. 0 0 1 1 3MOBI 0462 0060 Axinopsida serricata 0 2 0 2 3MOBI 0462 0165 Conchocele bisecta 0 2 1 3 3MOBI 0456 0530 Macoma carlottensis 2 22 9 33 3MOBI 0456 0540 Macoma elimata 1 1 0 2 3MOBI 0478 0585 Megayoldia martyria 0 0 3 3 3MOBI 0384 0675 Neaeromya rugifera 0 5 0 5 3MOBI 0392 0800 Parvilucina tenuisculpta 1 0 0 1 3MOBI 0450 0900 Solemya reidi 0 2 1 3 3MOBI 0478 1020 Yoldia seminuda 1 0 0 1 3MOGA 0516 0090 Astyris gausapata 1 0 0 1 3MOGA 0584 0380 Euspira pallida 0 0 1 1 3MOGA 0634 0706 Ophiodermella inermis 1 0 0 1 3MOSC 0647 0063 Pulsellum salishorum 3 0 0 3 3POER 0220 0034 Bylgides macrolepidus 2 0 0 2 3POER 0214 0320 Eteone spilotus 2 0 0 2 3POER 0180 0500 Glycera nana 3 0 0 3 3POER 0182 0530 Glycinde armigera 1 0 0 1 3POER 0198 0615 Lumbrineris cruzensis 2 0 0 2 3POER 0220 0666 Malmgreniella berkeleyorum 4 0 0 4 3POER 0202 0710 Nephtys cornuta 2 0 0 2 3POER 0198 1040 Scoletoma luti 21 2 0 23 3POSE 0242 0042 Ampharete nr. acutifrons 5 2 0 7 3POSE 0252 0120 Aphelochaeta spp. 1 0 0 1 3POSE 0248 0383 Barantolla nr. americana 1 0 0 1 3POSE 0252 0495 Chaetozone commonalis 1 1 0 2 3POSE 0310 0700 Dipolydora socialis 4 1 0 5 3POSE 0266 0713 Euclymene nr. zonalis 1 0 0 1 3POSE 0266 0710 Euclymeninae indet. 0 1 0 1 3POSE 0274 0720 Galathowenia oculata 7 0 0 7 3POSE 0276 0850 Levinsenia gracilis 2 0 0 2 3POSE 0248 0945 Mediomastus ambiseta 3 0 0 3 3POSE 0248 0948 Mediomastus californiensis 19 0 0 19 3POSE 0248 0950 Mediomastus spp. 8 0 1 9 3POSE 0266 0987 Microclymene nr. caudata 0 2 0 2 3POSE 0252 0995 Monticellina serratiseta 2 0 0 2 3POSE 0251 1342 Phyllochaetopterus pottsi 1 0 0 1 3POSE 0314 1440 Polycirrus californicus 0 0 1 1 3POSE 0310 1610 Prionospio lighti 2 1 0 3 3POSE 0310 1820 Spiophanes berkeleyorum 3 2 0 5 3POSE 0312 1860 Sternaspis nr. fossor 1 0 0 1 3POSE 0318 1990 Trochochaeta multisetosa 1 0 0 1 3
112
Table 14: Results of the benthic foraminifera and thecamoebian taxonomy and counts. Blank cells indicate a count of zero. Taxonomy follows Loeblich and Tappan, 1961.
Sample Fora
min
ifera
l lin
ing
?Hem
isph
aera
mm
ina
brad
yi
Mili
amm
ina
fusc
a
Cun
eata
arc
tica
Lept
ohal
ysis
cat
ella
Hap
loph
ragm
oide
s m
anila
ensi
s
Ade
rcot
rym
a gl
omer
ata
Spi
ropl
ecta
mm
ina
bifo
rmis
Jada
mm
ina
mac
resc
ens
Troc
ham
min
a in
flata
Ver
neui
linul
la a
dven
a
Total
Arc
ella
vul
garis
Arc
ella
sp.
Cen
tropy
xis
acul
eata
Cen
tropy
xis
cons
trict
a
Diff
lugi
a am
pullu
la
Diff
lugi
a ob
long
a
Pon
tigul
asia
con
stric
ta
Hel
eope
ra s
phag
ni
Cyc
lopy
xis
arce
lloid
es
Phr
ygan
ella
acr
opod
ia
Total
0-1 cm 7 1 1 9 1 6 4 111-2 cm 84 7 91 1 12-3 cm 4 4 1 6 73-4 cm 17 17 1 8 8 174-5 cm 11 11 5 1 1 75-6 cm 14 1 15 2 5 76-7 cm 12 19 4 35 11 117-8 cm 3 18 3 24 7 78-9 cm 2 9 17 28 2 42 449-10 cm 3 10 13 2 12 1410-12 cm 5 4 5 29 38 8 2 1012-14 cm 2 5 20 2 29 1 3 414-16 cm 1 3 21 1 26 1 2 316-18 cm 1 12 1 1 12 1 28 9 2 4 1518-20 cm 3 3 15 1 26 1 2 48 14 5 1920-25 cm 18 25 1 44 20 2025-30 cm 1 6 4 17 2 30 1 6 1 830-35 cm 7 5 18 30 1 6 3 1035-40 cm 5 1 9 10 31 2 53 2 207 5 3 21740-45 cm 5 13 3 12 1 29 7 1 2 2 5 17
Sample Fora
min
ifera
l lin
ing
?Hem
isph
aera
mm
ina
brad
yi
Mili
amm
ina
fusc
a
Cun
eata
arc
tica
Lept
ohal
ysis
cat
ella
Hap
loph
ragm
oide
s m
anila
ensi
s
Ade
rcot
rym
a gl
omer
ata
Spi
ropl
ecta
mm
ina
bifo
rmis
Troc
ham
min
a m
acre
scen
s
Troc
ham
min
a in
flata
Ver
neui
linul
la a
dven
a
Total
Arc
ella
vul
garis
Arc
ella
sp.
Cen
tropy
xis
acul
eata
Cen
tropy
xis
cons
trict
a
Diff
lugi
a am
pullu
la
Diff
lugi
a ob
long
a
Pon
tigul
asia
con
stric
ta
Hel
eope
ra s
phag
ni
Cyc
lopy
xis
arce
lloid
es
Phr
ygan
ella
acr
opod
ia
Total
0-1 cm 3 3 15 2 3 201-2 cm 0 2 9 12 232-3 cm 2 5 1 6 3 6 2 5 163-4 cm 1 1 6 1 1 1 7 164-5 cm 3 3 4 7 7 1 6 145-6 cm 2 1 1 1 5 5 5 106-7 cm 0 3 8 117-8 cm 2 2 5 1 4 108-9 cm 2 1 3 13 10 239-10 cm 0 7 2 2 1110-12 cm 1 3 3 11 5 1612-14 cm 1 1 1 5 5 1014-16 cm 2 3 5 1 9 1 4 1516-18 cm 1 6 6 1 14 3 1 3 718-20 cm 2 2 5 7 10 1 4 1520-25 cm 1 2 2 1 5 5 1 7 1325-30 cm 1 4 1 5 17 1 5 2330-35 cm 2 6 1 9 8 3 1 3 15
Foraminifera Thecamoebians
GVRD-3
GVRD-4
ThecamoebiansForaminifera