open file report 86-551h - usgsjeffreys, harold and k. e. builen (1940), seismological tables,...
TRANSCRIPT
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UNITED STATES DEPARTMENT OF THE INTERIOR
GEOLOGICAL SURVEY
EARTHQUAKE DATA REPORT August 1985
NATIONAL EARTHQUAKE INFORMATION CENTER
Open File Report 86-551H
This report is preliminary and has not been reviewed for conformity with U.S. Geological Survey editorial standards
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EDR No. 8-85 U. S. DEPARTMENT OF THE INTERIORJanuary 27, 1986P. 1-138 PART 1 of 2 Geological Survey
EARTHQUAKE DATA REPORT
The Earthquake Data Report (EDR) is issued to those individuals and organizations having a special need for information used in the preparation of the Preliminary Determi- nation of Epicenters (PDE) monthly listing.
Hypocentral coordinates are determined by a modified Geiger's method and may be constrained by reported first arriving P-waves, Pdiff, and the DF branch of PKP. Data are corrected for station elevation and for the ellipticity of the Earth. Outliers may be truncated (ie., removed from the calculation) either automatically or manually. The solution is allowed to converge between rounds of automatic truncation to insure a unique result. Convergence is aided by step length damping.
The error bars of the computed hypocentral coordinates are 90% marginal confidence intervals incorporating Baysian information to stabilize estimates derived from small sam- ples (Jordan and Sverdrup, 1981). It is assumed that the travel-time errors of the data used are independent, unbiased, and have an expected standard deviation of 1 s. Monte Carlo experiments suggest that the error bars are accurate for events constrained by more than about 30 data. However, care should be exercised in interpreting these numbers in terms of absolute location accuracy because of unmodeled biases. Analysis of events with independently known coordinates indicates that most PDE determinations are accurate to a few tenths of a degree in epicentral position and 25 km in depth. For special studies, we urge that inquiry be made to this office for possible recomputation of hypocenters of interest, using more complete instrumental data.
Restricted focal depths occur in four instances. If at any point in the computation the depth becomes negative, the solution is automatically restricted at 33 km and indi- cated by "NORMAL DEPTH". If the unrestricted depth computation is unsatisfactory, and in the judgment of the reviewing geophysicist the earthquake probably has a snallow focus, a solution may be held at 33 km. These are also indicated by "NORMAL DEPTH". The geophysicist may restrain the depth at any value indicated by evidence from available seismograms. These are indicated by, for example, "DEPTH = 100 KM (GEOPHYSI- CIST)". If two or more pP phases are identified, and in general, yield depths within 10 km of the mean, then the depth is automatically restricted to this value and denoted by, for example, "DEPTH = 51 KM (5 DEPTH PHASES)". pP phases may also appear as unidentified second arrivals with associated travel-time residuals. Hypocentral coordinates derived from other sources, such as the California Institute of Technology, the University of California at Berkeley, and the U. S. Department of Energy are noted on the EDR.
Two types of magnitude are computed: body-wave magnitude (nib) and surface-wave magnitude (Msz)- Each is a 25% trimmed mean of individual station values. Station magnitudes not used in the trimmed mean are marked with an X. This includes station magnitudes of either type which deviate significantly from the mean and surface-wave magnitudes determined from horizontal amplitudes. Body-wave magnitudes are computed according to the formula \og(A/T) + Q, derived by Gutenberg and Richter (1956), where A is the P-wave amplitude in micrometers, T is the period in seconds, and Q is the depth- distance factor. Surface-wave magnitudes are computed from the formula \og(A/T) -f 1.66 log(A) H-3.3, where A is the maximum vertical surface-wave amplitude in micrometers,
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T is the period in seconds, and A is the epicentral distance in degrees. Surface-wave magnitudes are determined only for earthquakes whose focal depths (taking into account the computed standard deviations) are potentially less than 50 km, for stations having 20° < A < 160°, and for reported periods of 18 < T < 22 s. No correction for focal depth is used in the MS calculation. Body-wave magnitudes are not determined from PKP arrivals or for station^ having A < 5°. Amplitude values stated in this report are in nanometers (nm) for body-waves and micrometers (/mi) for surf ace-waves.
The travel-time residual (observed - computed) is based on the 1940 Jeffreys-Bullen P and 1968 Bolt PKP travel-time tables. Phases not used in the computation are marked by an X. The azimuth from the epicenter to the station is measured clockwise from north. The epicentral distance is the central angle in degrees.
Hypocenter Symbols
& Indicates that parameters of the hypocenter were supplied or determined by a compu- tational procedure not normally used by the National Earthquake Information Service (NEIS). The source or nature of the determination is indicated by a 2 to 5 letter code enclosed by angle brackets and appearing in the first line of comments. A "-P" ap- pended to the code indicates that the computation is preliminary. These codes are included with the list of abbreviations in the PDE Monthly Listing.
% Indicates a single network solution. A non-furnished hypocenter has been computed using data reported by a single network of stations for which the date and/or origin time cannot be confirmed from seismograms available to a NEIS analyst. Also, if we define rj to be the geometric mean of the semi-major and semi-minor axes of the horizontal 90% confidence ellipse, then 77 < 16.0 km.
* Indicates a less reliable solution. In general, 8.5 < 77 < 16.0 km.
? Indicates a poor solution, published for completeness of the catalog. In general, 17 > 16.0 km. This includes poor solutions computed using data reported by a single network.
The lack of any symbol indicates that 77 < 8.5 km.
Note: On printers available to the NEIS for this publication, the symbol for degrees (°)appears as " v "
References
Bo)t, Bruce A. (1968), Estimation of PKP Travel Times, Bull Seis. Soc. Am., 58, pp. 1305-1324.
Gutenberg, B. and C. F. Richter (1956), Magnitude and Energy of Earthquakes, Ann. di Geofisica, 9, no. 1, pp. 1-15.
Jeffreys, Harold and K. E. Builen (1940), Seismological Tables, British Assoc. for the Advancement of Science, Gray Milne Trust.
Jordan, Thomas H. and Keith A, Sverdrup (1981), Teleseismic Location Techniques and their Application to Earthquake Clusters in the South-Central Pacific, Bull. Seis. Soc. Am., 71, pp. 1105-1130.
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Ic AUG 61. 1985 00h 04m 08.10$37 . 867 N 122.238 WDEPTH - 9.0km
CENTRAL CALIFORNIA ( 39) ML 2.3 (BRK) .Mo-1 . 8» 10* » 19 (BRK). F«lt otBerkeley.
BKS 0.01 1 4 iP 04 09. 09 -0.8IS 04 10. 00
BRK 0.02 290 iPd 04 09.50 -0.3ZSP 0.08 349 iPd 0410.40 0 . u
IS 04 12 . 50PCC 0.38 197 iPd 04 15.59 -0.4MHC 0.71 138 «P 04 21.60 -0.6
e(S) 04 32.30ARM 0.76 132 eP 04 22.20 -0.9GCC 0.86 167 «P 04 23.60 -1.1SLD 1.13 134 «P 04 28.40 -1.0SAG 1.27 150 iPd 04 29.50 -2.3JAS1 1.44 87 iPd 04 33.20 -1.2
e 0450. 56i 0452. 70
10 obs. ossocioted
AUG 01. 1985 01h 02m 06.40± 1.82s51.536 N ±18. 1km 16.143 E ± 9.3kmDEPTH - 10.0km ( geophy s i c i s t )
POLAND (548)
KSP 0,70 172 iP 02 19.00 -1.26.3s 38 . 00nm
i S 02 29 . 008RG 1.53 245 iPg 02 34.60 0.8
iSg 02 54.60PRU 1.85 214 Pg 02 39.70 1.2
So 02 58 . 1 0Sg 03 03.60i 03 09 . 50
CLL 1.98 265 ePn 02 39.00 -1.3«Pg 02 42.00iSg 03 09.00
KRA 2.83 120 «P 02 52.90 0.5eS 03 38.80
KHC 2.92 215 «Pn 02 53.50 -0.2Pg 02 59.40Sn 03 28.00Sg 03 37.00
HOF 2.96 247 ePn 02 53.80 -0.5MOX 2.99 254 (Pg) 03 03.00 8 . 3X
iSg 03 42 . 00WET 3.18 222 eP 03 05.10 7.7XVK'A 3.28 178 ePg 03 07.00 8.2X
e 0334.50i 03 40.60e 03 48.00i (Sg) 03 53.60
GRF 3.64 241 e(Pg) 03 04.70 0.8eSg 04 02 . 30
S . 0 . -1.1 on Bof 11 obs .
AUG 01, 1985 01h 33m 43.64± 1.66s38.819 N ±16. 7km 25.109 E ±13. 2kmDEPTH - 10.0km ( g« o phy s i c i « t )
AEGEAN SEA (365)ML 3. 0 (ATM) .
PRK 1.00 64 «Pb 34 03.50 0.9eSg 34 18.50
EZN 1 . 38 43 iPn 34 09. 90 1.0ATH 1.38 233 «Pb 34 09.00 0.1
«Sb 34 28.20' 7 M 1.74 103 i P n 3414.10 0.6tDC 2.62 54 «Pn 34 26.00 -0.7BNT 2.66 54 «Pn 34 26.00 -1.3DST 2.84 73 «Pn 34 36.30 6.3XVAY 3.17 323 «Pn 34 53.00 18. 5X
S.D.-1.2 on 6of 8 obs .
? AUG 01, 1985 02h 15m 05.50± 1.92s43.860 N ±28. 5km 147.689 E ±17. 9kmDEPTH - 132. 5 ± 16.3 km4 . 2mb ( 4 obs . )
KURIL ISLANDS (221)Felt (II) on Sh i ko ton . Felt (1JMA) ot Kushiro, Hokkoido.
KUS 2 . 56 251 iPd 15 47 . 20 0.2S 15 54. 00
MAT 16.29 228 (P) 17 23.00 -7 8XBJ 1 23.67 272 eP 20 05.00 -67TIA 24.52 262 eP 20 12.70 -1.1LZH 34.16 272 eP 21 40.00 0.2GTA 35 . 66 280 P 21 52 90 04CD2 36.80 264 P 22 02 90 09COL 40.78 36 eP 22 33.90 -66INK 46.11 30 eP 23 18.00 0.6SUF 64.00 334 iP 25 24.60 -1.7
0.4s 1 . 20nm 4 . 2mbNUR 66.12 333 eP 25 38.00 -1.9NB2 69 64 339 P 26 01.20 -67
0.5s 1 . 1 0nm 3 . 9mbKRA 75.97 328 eP 26 40.20 1.2
e 2715.70CLL 77 . 39 333 iP 26 47 . 10 0.2
0.9s 14.00nm 4. 7mbPRU 77.99 331 eP 26 51.50 1.3EKA 78.13 343 P 26 52. 00 1.1
0.9s 3 . 60nm 4 . 1mbKHC 79. 05 331 P 26 57 . 30 1.3ITR 144.63 10 ePKP 34 27.60 -0.5SOB1 144.68 15 «PKP 34 27.90 -0.3
S . D . -1.1 on 18 of 19 obs
* AUG 01. 1985 02h 26m 45.72± 3.25s34.480 S ±15. 7km 70.576 W ±15. 2kmDEPTH - 122.5 ± 33. 9 km
CHILE-ARGENTINA BORDER REGION (127)
CHCH 0.55 353 iPc 27 04.40 -0.2IS 27 17 . 50
PCH 0. 86 3 iPd 27 07 . 00 0.0IS 2721.50
LNV 0.87 307 iPd 27 07.10 0.1iS 2722.10
TACH 0.88 340 iPd 27 07.10 0.0IS 27 22 . 58
SAN 1.03 356 iPc 27 98.50 -0.1i S 27 24 . 60
BACH 1.13 4 iPc 27 09 . 80 0.2i S 27 27 . 00
FCH 1.17 1 2 i PC 2710.60 6.2i S 27 29. 00
PEL 1.34 356 iPc 27 11.80 -9.1IS 27 30. 50
ROCH 1.55 346 i PC 27 14.30 -0.2IS 27 34 . 50
RFA 1.76 109 ePd 27 16.90 0.0S . D . -0.2 on 10 of 10 obs.
AUG 01, 1985 63h 03m 27.40± 0.33s35.496 N ± 7.3km 139.189 E ± 6.3kmDEPTH - 123. 6 ± 2 . 8 km4 . 5mb ( Sobs.)
NEAR S. COAST OF HONSHU, JAPAN (230)Felt (I JMA) ot Yokohomo ondU t sunom i y o .
OYM 0.09 159 iPd 03 43.70 -0.8SRY 0.13 32 iPd 03 43.50 -1.0YOK 0.39 99 iPd 03 45.90 6.6
iS 03 59. 20MIS 0.44 209 iPd 03 45.70 6.1DOR 0.50 0 eP 03 45.90 -0.2TDK 0. 50 68 i Pd 03 46 . 1 0 6.1
i S 03 59. 90KOF 0.54 288 Pd 03 46.30 61
iS 94 00.00KMG 9.67 14P 93 47. 39 0.2
S 94 91 . 69OSH 6 . 75 168 P 93 47 . 89 0.9
S 94 92.69TAT 6 . 76 132 P 93 48 . 29 0.4
IS 94 93. 59KYS 9.84 111 iPd 93 48.70 6.2TSK 1.03 46 iPd 03 49.30 -1.11 ID 1.10271 ePd 03 52. 09 0.9
S 0410.69UTS 1.18 28 eP 0352.00 0.1
S 04 08.30MAT 1.31 323 iPc 03 53.10 -0 2
i S 94 1 1 . 99SHK 5.43 262 ePc 94 48.70 1.4COL 51.36 31 eP 12 21.00 6.2
0.8s 1045 nm *8- 2 5xMEM 147 38 35' PKPd -1 48 & 3 7xKHC 1475634fPKP ' i 46 (' 03DOU 148 06 35b PKPd "i 50. ev 3 " xWLF 14831 354 PKP i 1 51 *0 4 . 7XFLN 149 38 3 ePKP 11 52.90 4.5X
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0 1 d CM h
CDF 149.42 353 ePKF> 11 53.60 5.0XLDF 149.56 2 ePKP 11 53.60 4.9XGRR 149.74 3 ePKP 11 54.20 5.3XHAD 149.93 354 ePKP 11 54.70 5.4X? - r 156.65 353 ePKP 11 55.10 5.5X. - ' '59 ee 3 ePKP 11 54.90 5.4X-"" ' 5 £) 86 : t " iPKP 11 5 - . 80 6.1*
- * '51 03 357 iPKP: 11 5". 40 6 4X- = F '5i 14 35"1 ePKP 11 5^.30 6.1X* s '51.36 357 ePKP 11 57.70 6.3X«-rr '51.55 2 ePKP 11 5S.30 6.6X9 G c '51.61 358 ePKP 11 56.40 6.6X' C F 151.9P 359 ePKP 11 59.00 o . 7 XiSF 151.94 b ePKP 11 58 90 6.6XU/F 151.96 338 ePKP 11 59.40 " . 1 X
S.D. - 6.9 on 27 of 48 obs
AUG 01, 1985 04h 17m 16.54± 1 17s36.278 N ± 7.7km 71.060 E ± 6 6kmDEPTH - 73 . 4 ±12. 9 km5 . 0mb ( 1 e obs . )
AFGHAN ISTAN-USS ' BORDER REGION (717)
KSri 5.02 49 eP 1 8 27 . 00 1.8S 19 24 .00
OUE 6.98 211 eP 18 54.00 1.6eS 20 12.50
NOI 9 18 144 e P 1922.80 -0.5eS 20 57 . 50
MM! 9.34 l'I 4 iPc 19 23.30 -1.5eS 21 01 . 00
»MC 14 79 54 «P 28 35.88 -2.8LS* 18.07 106 «P 21 17.10 -1.5SHL 20.77 115 IP 21 47.20 -0.6GTA 22.88 73 P 22 09.28 0.6GYA 31.79 98 eP 23 3C.20 2.0NUR 38.04 324 iP 24 23.10 0.2
0.5s 25 . 20nm 5 . 4mbKJF 38.11 331 cP 24 22.88 -1.5
0.5s 1 4 . 00nrr, 5.1mbSUF 38.14 328 iP 24 23.20 -0.6
0.6s 1 1 . 1 0nm 5 . 0mbSPC 38.78 306 «P 24 32.70 3. IXSOD 39.96 335 iP 24 38.80 0.0KEV 41.03 338 eP 24 48.88 0.5UPP 41,28 322 iP 24 58.88 0.38RG 42.80 3e8 «P 26 84.88 1.7
1.2s 11. 88nm 4 . 6mbKHC 43.15 3&6 «P 24 51.08 -14. JXHFS 43.27 322 eP 25 85.38 -0.7
0.8s 32.1 0nm 5 .2mbCLL 43.37 369 e(P) 25 89.00 2.1NB2 44. 59 : 23 P 25 16. 08 -0.7
0.9s 21.70nm 5. 0mbEKA 52.48 316 P 26 17.00 -0.8
1.1s ' 3 . 50nm 4 . 9mbBNG 57.62L'58ePd 2652.10 -3.3X
0.3s 3 . 08nm 4 . 9mbid 27 34.58 184kmX
MTO 64.63 222 iPd 27 42.30 -0.4>Ri 65.76 224 i Pd 27 49.78 -0.3MBC 67 . 56 3 eP 28 01 .88 0.5
0.8s 15. 08nm 5 . 0mbBUL 68.99 213 i Pd 28 10.00 -0.3INK 74.12 9 CP 2841.00 1.0COL 74.67 '6 cP 28 42.80 -1.3
1.0s 1 0 . 50nm 4 . 7mbYKA 81.47 3eP 2921.70 1.2rKC 81.49 3 eP 29 20.00 -0.6
S.D. -1.2 on 28 of 31 obs
AUG 01, 1P85 05h 27m 44.18± 0 98s2 190 S ± 8.0km 133.772 E ±18 1km
DEPTH - 33.0km (normol)WEST I R I AN RtG " ON (196)
ftA I 5.77 255 cP 29 10. 20 0.5MTN 10.91 194 CP 30 20.00 -1.1KNA 14.35 20C CP 31 06.00 -1.0
0.5s 6 1 . 08nm S . 6mb XWRA 17.65 178 IPc 31 50.00 0.6
S 34 58.20ASPA 21.35 160 iPd 32 32.38 1.4'. TA 21.57 146 «P 32 38. 80 4.9XC I Z 31 . 59 31 3 «P 34 06. 80 0.5XAN 42.9 329 «P 35 42.00 0.8BJI 45.01 341 cP 35 57.00 -1.4
GTA 51.82 327 eP 36 52.80 0.6LPB 151.49 132 PKP 47 41.00 9.5X
S.D. "1.1 on 9of 11 obs.
AUG 01, 1985 05h 37m 53.48± 0.87s7.566 S ± 3.9km 127.585 E ± 5.4km
DEPTH - 1 29 . 1 ± 8 . 5 km4 . 9mb ( 1 2 obs . )
8ANDA SEA (280)
AA I 3.90 9 ePd 38 58.10 5.4XKUPT 4.70 237 ePd 39 10.00 6 . 5X
eS 40 00.00MTN 6.30 147 eP 39 24.00 -1.3KNA 8.22 172 eP 39 50.00 -1.2
0.2s 150. 00nm 6 . 3mb XTZZ 13.74 81 cP 41 04 . 00 -0.2WRA 13-94 153 iPd 41 02.80 -3.8X
iS 43 29 . 00JAY 14.00 70 ePc 41 07.50 0.1MBL 15.45 208 «P 41 25.00 -0.7
8.5s 11. 00nm 4 . 4mbCGP 16.17 350 iPd 41 40.00 5 . 3X
eS 41 46 . 58ASPA 17.12 160 iPc 41 45.70 -0.7
0.5s 1 85 . 00nm 5 . 6mbWBN 18.58 183 eP 42 03.80 0.5NAU 18.90 217 cP 42 87.00 0.3
0.2s 15.00nm 5. 0mbPMG 19.44 97 iPc 42 16.50 4.1X
0.9s 117. 65nm 5 . 2mbLUG 28.40 95 *P 42 15.80 -7 . 4XCTA 21.96 126 iPc 42 39.40 1.6
1.0s 21 . 00nm 4 . 5mbMRWA 24.15 205 CP 42 59.00 0.1
0.4s 7.00nm 4. 5mbBAL 25.09 203 eP 43 18.00 10. 3X
0.4s 7 . 00nmKL8 25.60 200 eP 43 13.88 0.6
0.5s 11. 00nm 4 . 7mbKGM 26.01 291 ePd 43 18.30 2.0MUN 26.50 202 cP 43 20 00 -0.6NWAO 27.00 199 cP 43 25.00 -0.2
0.6s I3.00nm 4. 7mbSTK 27.49 154 iPc 43 29.70 0.1
0.4s 26.00nm 5.2mbI PM 29.12 294 ePd 43 44.70 0.3ADE 29.12 161 iPc 43 45.00 0.7
0.5s 21.13nm 5. 1mbCMS 29.26 147 iPd 43 45. B0 0,3BFD 32.46 157 iPc 44 14.30 0.8YOU 32.77 147 iPc 44 17.30 1.0OZH 33.48 345 eP 44 22.50 0.1CAN 33.90 148 CP 44 27.00 1.0WAM 34.50 149 iPc 44 32.60 1.5CHTO 38.53 313 cP 45 06.26 1.0GYA 39.45 330 P 45 14.40 1.6WHN 39.96 342 cP 45 1 B . 50 1.7NJ2 40.27 348 cP 45 28.08 0.7KMI 40.51 324 cP 45 23.50 1.8C02 44.55 330 «P 45 54.48 0.2MAT 44.99 12 i Pd 45 56.30 -1.3XAN 45.08 338 P 45 55.60 -2.1BJ I 48.53 348 CP 46 24.50 -0.7LZH 48.82 334 P 46 29.00 1.2LSA 50.99 318 PC 46 44.10 -0.6MDJ 51 . 97 2 cP 46 51 . 50 0.2GTA 53.35 333 PC 47 02.00 0.2PKI 53.70 312 cP 47 04.30 -0.5KKN 53.92 312 cP 47 05.80 -0.4DMN 53.95 312 cP 47 06.38 -0.2
0.5s 43.00nm 5.6mbGBA 54.05 293 P 47 07.00 -0.1
0.5s 2 . 50nm 4 . 4mbWMO 62.59 328 cP 48 05.58 -8.6SBA 73.10 172 c(P) 49 11.50 8.6BSF 116.82 328 ePKP 56 22.80 -8.9LPG 116.77 317 «PKP 56 23.88 -8.9LOR 118.08 320 ePKP 56 25 90 -8.8L8F 118.10 320 «PKP 56 26.10 -0.7SMF 118.31 319 «PKP 56 26.38 -8.9SSF 118.38 328 «PKP 56 26.78 -8.6AVF 118.57 328 «PKP 56 26.80 -8.9BGF 118.98 328 ePKP 56 27.88 -8.7MZF 119.27 319 «PKP 56 28.58 -8.6TCF 119.49 319 «PKP 56 28.98 -8.6LSF 119.94 328 ePKP 56 29.58 -8.8
CAF 120.88 318 ePKP 56 30.50 -0.2GRR 128-56 323 ePKP 56 32.10 0.7LPO 120.75 318 ePKP 56 31.90 00LPF 120.82 322 ePKP 56 31.40 -0.5MFF 120.87 321 ePKP 56 31.56 -0.5LFF 120.96 318 ePKP 56 32.20 0.0EPF 121.93 317 ePKP 56 34 19 -0.1ALO 123.56 53 ePKP 56 37.20 -0.7
1.0s 5 . 50nmJCT 138.20 56 iPKP 56 50.50 0.0
0.8s 1 1 . 94nmTUL 131.40 48 ePKP 56 49.70 -2.9X
1.0s 5 . 40nmRLO 131.86 47 ePKP 56 53 90 0.4KIC 132.68 272 ePKP 56 55 00 -0 6BHO 132.73 49 ePKP 56 56.10 1.8
0.6s 1 . 1 0nmTP2 148.33 156 PKP 57 29,80 6.1XVAO 149.16 190 ePKP 57 28.90 4.3XITA 149.30 194 c(PKP)57 20.00 -5 . 1 XARE 149.56 142 ePKP 57 38.80 4.4XCNCB 151.30 148 iPKP 57 36.00 7.4XLPB 151.47 147 PKPc 57 36.20 7.6X
0.5s 28 . 1 7 nmZOBO 151.67 147 PKPd 57 36.50 7.4X
0.6s 1 1 . 6 1 nmCCH 151.74 151 PKP 57 36.90 8.0X
S.D. - 8.9 on 65 of 81 obs.
AUG 81. 1985 88h 01m 29 . 35± 1.44s18.875 S ± 6.7km 168.391 E ±10. 3kmDEPTH - 38 .8 ± 1 1 . 8 km5 . 1mb ( 8 obs . )
/ANUATU ISLANDS (186)
PVC 1.13 356 iPd 01 50.50 1.6i S 02 87 . 00
NOU 3.87 208 iPd 82 27.80 -0.9iS 03 88. 00
HNR 12.45 318 «P 84 26.00 -0.9RMO 19.62 244 «P 85 59.88 1.2KRP 19.98 163 P 86 80.88 -0.6CTA 28.90 263 iPd 06 18.98 -0.2
8.9s I3.45nm 4 3mbPMG 22.62 292 «(P) 86 45.00 16. 8XTCW 22.83 168 PC 86 38.38 0.2YOU 23.50 225 cP 86 38.50 1.7
e 06 48.60CAN 23.73 222 «P 86 48.88 1.8CMS 23.91 234 «P 86 41.00 0.3WAM 24.35 221 cP 06 46.10 1.2WRA 32.18 262 PC 07 52.60 -2.8
1.8s 7 . 58nm 4 . 5mbASPA 32.44 255 iPc 87 56.90 -1.5
8.9s 46 . 88nm 5 4mbWBN 39.17 252 «P 88 55.00 -0.6MBL 45.54 259 cP 89 46.70 -8.8MEK 46.38 251 cP 89 53.88 -1.1
8.7s 48 . 88nm 5 . 5mbSBA 59.82 188 i PC 11 26.38 -1.8
1.8s 27 . 88nm 5 . 3mbMAT 62.86 333 cP 11 47.88 -1.5
1.2s 48 . 63nm 5 . 4mbSPA 71.24 188 cP 12 44.78 -1.9
1.8s 19. 58nm 5 . 1mbPSI 71.53 280 «Pd 12 47.88 -1.2CN2 73.73 329 PC 13 08.88 -0-5GYA 74.96 385 P 13 89.48 0.5BJI 76.15 321 (P) 13 15.08 -0.2XAN 77.28 313 eP 13 22-48 0.7KMI 77.48 382 eP 13 23.50 0.6
pP 13 35.80 38kmXCHG 77.77 295 eP 13 26.88 1.3CHTO 77.77 295 «P 13 25.58 0-8
8.8s 3-48nm 4.4mbMAW 78.47 282 «P 13 28.08 0.4CD2 79 .38 388 P 13 34.58 1.1COL 89.97 17 «P 14 22.88 -2.8SNA 98.81 183 IPd 14 38.58 8.9EUR 91.25 49 «P 14 31.88 -1.4SOB1 139.84 132 «(PKP)28 48.88 -8.2X
« 28 51 .68« 28 55. 18
ITR 141.88 134 «PKP 28 46.38 -13. 6XVAY 143.28 315 «PKP 28 56.48 -5 . 0XKBA 145.23 338 IPKPd 21 83-18 -1.7
1.0s 1 9 . 88nm
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SSF
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LSF
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i 21 56. 00«S 24 56.00
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-
010 12h
GBA
BOM
ANP
DL2
OUE
1 PM
KODTSISNY
BAG
PS 1
KLMKGM
CN2
PP 1KKMMH 1
MDJ
KH 1SHKCGPDAV
MAT
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GUMOGUAHR 1JERPRN 1KJF
DSTSUF
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22.60 230 PC 18 43.70 -0.41.2s 153. 70nm 5.3mb22.81 248 iPc 18 49.40 3.3X
IS 22 52 . 4023.75 93 «P+ 19 05.00 9 . 6X
iS 23 1 1 . 0023. 90 59 iPd 18 58.00 1.4
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24 . 52 279 «P 19 03 . 40 0.4eS 23 20.00
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«S 23 52.0026 .58 172 «Pd 19 28. 50 -1.50.7s 5 1 . 60nm 5 . 2mb26. 65 165 «Pc 19 25 . 00 2328.10 163 «Pd 1935.70 -0.2
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i 23 35.00 74kmX55.36 280 «Pc 23 18.00 -0.155. 40 337 eP 23 18. 00 0.21.0s 50 . 08nm 5 . 5mb
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2 18s 4 . 80 urn 5 . 6Ms z
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-
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0. 10. 1
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0.7s 18.84nm 5. 1mbi S 36 10. 50
TOO 81.42 142 eP 26 00.00 0.2CAN 81.78 138 eP 26 03 00 1.3IFR 82. 19 304 i PC 260600 1.7
i 26 20 00 48kmWAM 82.32 139 eP 26 05.70 1.2AVE 83.95 305 eP 26 11.00 -2.1
i 26 27.00 56kmXEVA 84.13 235 eP 26 15.00 0.8
1.4s 88 . 37nm 5 . 6mbSWZ 87.25 237 i Pd 26 29.50 0.0
1.1s 56 . 96nm 5 . 7mbWIN 91.03 245 iPd 26 48.00 0.5EDM 94.27 17 ePd 27 03.30 1.4FFC 95.14 10 cP 27 06.00 0.2
1.2s 12. 00nm 5 . 2mbNEW 97.65 21 eP 27 20.00 2.6RSON 99.93 6 e(P) 27 44.00 16. 4XJAS1 105.40 29 ePKP 32 02.50 -3.3XEUR 105.79 25 iPKP 32 08.50 1.7
1.0s 1 . 92nmALO 113.04 19 e(Pdif28 23.00 -3.4XTUL 114.44 10 e(PKP)32 23.20 0.2
1.3s 7 . 50nmSBA 114.55 167 e(PKP)32 23.70 1.7BHO 116.08 9 e(PKP)32 37.00 10. 8XJCT 118.98 15 iPKP 32 31.20 -0.7
0.8s 1 3 . 06nmSPA 119.01 180 ePKP 32 30.40 -0.5
1.2s 1 4 . 79nmLTX 119.10 19 ePKP 32 26.50 -5.7X
Z 20s 0.69um 5.3MszSNA 119.67 203 ePKP 32 32.80 0.9ITR 132.03 285 ePKP 32 41.70 -15. 6XSOB1 134.34 287 ePKP 33 12.60 10. 9XITA 143.37 271 e(PKP)33 31.00 12. 7XBAD 143.54 284 PKPc 33 16.00 -2 . 5XBOG 144.84 341 ePKP 33 21.50 0.4VAO 145.55 271 ePKP 33 19.20 -2 . 5XPSO 148.96 345 ePKP 33 30.00 2-120BO 159.97 306 PKP 33 43.70 1.0
LR 31 20.00LPB 160.13 306 PKP 33 45.00 2.4CNCB 160.23 305 PKP 33 45.00 2.1TPZ 161.11 290 PKP 33 47.20 3.8YJA 161.25 287 ePKPd 33 46.80 3.1XTCA 162.39 258 ePKPc 33 45.30 1.2
S.D. - 1.1 on 219 of 244 obs .
AUG 01, 1985 14h 35m 03.14± 0.21s45.711 N ± 2.2km 26.506 E ± 2.0kmDEPTH - 107 . 3 ± 2. 5 km5 . 3mb ( 61 obs . )
ROMANIA (35B)Felt (VI) in the Vronceo regionond (V) ot Buchorest. Also feltin northeastern Bulgaria ond otKishinev, USSR .CENTROID, MOMENT TENSOR (HRV)Data Used: GDSNL. P . B. : 13S . 24CCentroid Location:Origin Time 14.35: 6.4 1.0Lot 46.77M 0.16 Lon 26.95E 0.15Dep 102.7 5.5 Half-duration 1.6Moment Tensor; Scale 10««23 D-CM
Mrr- 0.65 0.65 MM 0.23 1.22Mf;--0.42 0.97 MM--4.60 0.46Mrf--6.38 0.46 Mtf- 2.50 1.04
P r i nc i po I Axes:T Vol- 9.27 Pig-42 Azm-130N -2.61 8 32P -6.65 46 293
Best Double Coup 1 e : Mo-8 . 0 * 1 0 23NP1 : S t < i ke-288 Dip- 9 Slip- -14NP2: 32 88 -98
VR I 0.22 44 iPd 35 18.00 0.2CVO 0.26 296 iPc 35 19.00 1.0BRD 0.43 117 iPd 35 20.00 0.5MLR 0.45 241 i PC 35 20.00 0.21 SR 0 .57 1 77 iPd 35 2 1 . 00 0.5B 1 R 0.96 54 i P 35 24 . 09 0.1CLI 1.00 32 iPc 35 34.00 9.6X
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6. 426.45
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CHG 64.6tf 89 iPc 45 31 26 000.9s 37 40nm 5 . 3mb
CHTO 64.68 8 £ i P 453130 0108s 3 1 . 66nrr 5 . 3mb
G A 6494 7 7 P 453380 03if" 65 32 :52 iPd 45 3 '_ 96 f 8
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pP 45 5" 60 8: nnXeui 6 5 5 e ' " 8 i P c 453-70 04
16s 38 . 56nnr 5 . 3mbi pP 46 0C 66 1 1 4 kmX
CH2 6559 52 Pd 45 3~ 40 02pP 46 0 1 00 9 " k m X
B D T 6570 :- 0 e P 4 5 3 e 0 0 -02A V r 6 7 1 5 1 5 3 i P d 454406 - 5 5 XWHN 67. 4 5 69eP 454856 -07NST 67.55 99 eP 45 50.66 0.6Y K C 67.7b342eP 455060 -0.5
1.2s 39 66nm 5 . 2mbYKA 67.75 342 eP 45 5:. 96 2 3RSNT 67. 76 342 P 4550.60 -0.6
pP 46 1 6 . 30 104 kmXIMA 68.56 0 eP 45 56 50 0.8COL 69.64 357 eP 46 02 00 -0.1
0.8s 27.61nm 5.1mbFBA 69.64 357 eP 46 02.50 8.4RSON 70.83 325 eP 46 08.40 -1.2
1.0s 21 . 00nm 4 . 9mbFFC 70.84 331 «P 46 19.00 9.4X
1.0s 1 "* . 00nm 4 . 7mbTT A 71.69 1 eP 4615.70 1.101 Z 72.05 81 eP 46 18 . 20 0.8CVL 72.89 307 P 46 21.30 -0.7PMR 72.99 353 P 46 22.30 0.1
1.0s 22 . 00nm 4 . 9mbPNL 74.35 353 eP 46 31.20 1.1p Sl 75.83 101 IP 46 39.00 -0.2
0.8s 24 . 60nm 5.1mbIPM 75.94 98 ePd 46 40.10 6.3
e 47 05 . 90GFM 76.99 398 P 46 40.00 -0 7
pP 47 07 . 00 1 05kmXSES 77.45 334 eP 46 48.00 0.2
0.9s 58 . 00nm 5 . 4mbpP 47 1 4 . 00 1 00kmX
MAT 77.63 5fe (P) 46 49.00 0.1FVM 79.25 314 eP 46 56.90 -0.9
0.6s 1 3 . 00nm 4 . 9mbpP 47 23.80 104kmX
ITR 79.31 246 eP 46 57.80 -0.5RSSD 80.39 326 eP 47 04.20 0.2
0.5s 5.54nm 4. 6mbP'NT 80.86 3-8 eP 47 06.00 -8.1
0.6s 8.00nm 4. 7mbNEW 81.15 3>6 eP 47 07.40 -0.3
0.9s 2 . 00nm 3 . 9mb XSOB1 81.23 247 eP 47 08.10 -0.4LRM 81.93 332 IPc 47 12.70 0.7RLO 82.95 316 ePc 47 16.90 -0.3
e 4748.40TUL 83.53 316 iPc 47 26.60 0.5
0.7s 58 . 20nm 5 . 6mb2 18s 0.11 urn 4.3Msz
e 4746. 00BDW 83.62 329 eP 47 20.50 -0.3
1.0s 13.40nm 4. 8mbHP I 84.01 332 P 472400 1.2
pP 47 56 00 98kmXBHO 84.30 315 iPc 47 24.50 0.5
0.6s 2 . 20nm 4 . 2mb Xe 47 56 . 30
GOL 84.66 325 eP 47 26.00 -0.1BAD 90.61 248 ePd 47 55 00 0.3
e 4824.50LTX 92.69 318 «P 48 03.90 -0.3
0.9s 3 . 08nm 4 . 6mbpP 48 31 . 90 105kmX
S.D. - 1.0 on 238 of 254 obs.
AUG 01. 1«'85 15h 1 5m 12.63± 1 90s4.674 S ±27. 7km 153.744 E ±12. 9km
DEPTH - 96 . 5 ± 18 . 8 kmNEW IRELAND KEGION (190)
RAB 1 .64 287 eP 15 41 .00 0.1iS 16 65. 00
BGA 2.05 136 eP 15 46.00 -0.3
eS 1619.00PAA 2 . 37 133 eP 15 51 . 00 0.3
eS 1624.00BIAL 2.76 257 eP 15 55.50 -0.3PMG 8.06 234 eP 17 09.00 0.3WRA 24.24 230 eP 20 21.80 -0.1
e 20 29.30S.D -0.4 on 6of 6obs.
% AUG 01, 1985 15h 34m 08.57± 1.06s40.099 N ± 9.4km 29.300 E ± 7.6kmDEPTH - 18.0km (geophysicist)
TURKEY (366)
DST 0.71 227 ePg 34 21 30 -1.4i Sg 34 32 . 30
HRT 0.77 21 iPg 3422.70 -1.0i Sg 34 37 . 20
GPA 0.80 76 ePg 34 25 . 20 1.1i Sg 34 40 20
ISK 0.98 349 ePn 34 26.70 -0.5BNT 1.09 284 iPn 34 30.00 1.0EDC 1.13 283 ePn 34 30 . 80 1.1CTT 1.24 328 iPn 34 31.20 -0.4
S.D. -1.3 on 7 of 7 obs.
AUG 01, 1985 16h 35m 31.26± 1.90s41.229 N ±19. 2km 20.178 E ±12. 2kmDEPTH - 10.0km (geophysicist)
ALBANIA (391)ML 2 .6 (TTG) .
OHR 0.48 104 iPg 35 40.70 -0.4ISg 35 49.60
SKO 1.20 51 iPn 35 54.00 0.3i Sn 36 1 3 . 70
PVY 1.37 354 ePg 35 56.00 -0.5i Sg 36 1 8 . 50
TTG 1.38 331 i Pgd 35 55.70 -0.8i Sg 36 15 .60
VAY 1.81 86 iPn 36 03.00 0.4BRY 2.07 324 ePn 36 07.60 1.1
eSn 36 38.50S.D. -0.9 on 6 of 6obs.
AUG 01. 1985 I6h 53m 15.45± 0.81s6.646 S ± 8.3km 148.850 E ± 8.3km
DEPTH - 4 1 . 3 ± 14.1 km4 . 3mb ( 2 obs . )
NEW BRITAIN REGION (192)
LAT 1 . 84 270 eP 53 45 .50 0.4LMG 2.35 197 iPd 53 53.00 0.4BIAL 2.56 59 eP 53 56.00 0.6PMG 3.22 211 iPc 54 08.90 4.1XMDG 3.35 294 eP 54 07.00 0.3ALOA 3.93 158 eP 54 14.00 -0.9KVG 4.49 26 eP 54 22.00 -0.8WEW 6 04 300 e(P) 55 01.00 16. 3XWRA 19.32 225 PC 57 38.30 -2.0
0.4s 2.80nm 3. 9mbRMO 19.73 180 eP 57 46.00 1.2BRS 20.97 170 i(P) 58 10.80 13. 3XASPA 22.20 219 eP 58 10.00 0.1SPA 83.40 180 eP 05 40.30 0.6
1.0s 9 . 00nm 4 . 8mbS D . -1.1 on 10of 13 obs .
« AUG 01. 1985 17h 43m 30.38± 3.64s33.559 S ± 6.6km 71.821 W ±27. 1kmDEPTH - 1 1 . 3 ± 5 . 3 km
NEAR COAST OF CENTRAL CHILE (135)
LNV 0.52 139 iPc 43 41.20 0.2i S 43 47 . 00
TACH 0.74 98 i PC 43 44.90 0.1IS 43 54 . 00
ROCH 0.90 49 iPc 43 48.00 0.4SAN 0.97 84 iPd 43 49.00 0.2
iS 44 05.00PEL 1 .64 67 IPd 43 56. 60 0.7
i S 4407.00PCH 1 . 09 94 IP 43 51 . 00 6.1
i S 44 06. 10BACH 1 13 80 iPd 43 51.70 0.2
IS 44 1 0 . 20FCH 1.30 86 iPd 43 54.50 -0.1
i S 44 1 4 . 20JACH 1.35 50 iP 43 55.00 -0.2MDZ 2.58 76 eP 44 18.00 5.2X
iS 44 55.50RFA 3.03 114 eP 44 19.10 -0.1RTCV 3.25 59 ePc 44 26.00 3.8XRTCB 3.28 52 eP 44 26.30 3.5XTCA 6.50 72 ePc 45 08.20 -0.2
e(S) 46 26.80S.D. - 0.3 on 11 of 14 obs
AUG 01. 1985 17h 55m 20 . 1 3± 1.50s20.332 N ±11. 4km 99.139 E ±23. 3kmDEPTH - 33.0km (normol)
BURMA (296)
CHG 1 . 52 187 iPn 55 45.80 0.4iPg 55 52.40iSg 56 24.00
CHTO 1.52 187 ePn 55 45.80 0.5BDT 3.07 182 ePn 56 06.50 -1.6
ePg 56 19.50eSg 57 12.00
LOE 3. 81 1 39 eP 56 18 .00 0.1NST 4.73 168 eP 56 37.00 6.0XKMI 5.81 34 eP 56 46.50 0.0
eS 57 54.00S.D. -0.8 on 5of 6 obs .
AUG 01. 1985 18h 59m 50.22± 1.53s51.394 N ±14. 5km 16.151 E ± 8.4kmDEPTH - 10.0km (geophysicist)
POLAND (548)ML 3 . 3 (VKA) . 3.3 (KBA) .
KSP 0.56 171 IP 00 62.50 0.9i S 01 1 1 . 50
BRG 1.48 250 iPg 00 16.00 -0.9iSg 60 35.00
PRU 1 . 74 217 Pn 00 20 . 80 0.2Pg 00 22.50eSn 00 39.00Sg 66 46.60
CLL 1.98 269 (Pg) 00 26.00 2.0iSg 00 49.00
KRA 2.75 118 eP 00 34.80 -0.4eS 0117.60
KHC 2.80 217 ePn 00 36.00 0.1Pg 00 41 .50Sn 01 10.00Sg 01 23.00
HOF 2.92 250 ePn 00 44.30 6.8XMOX 2.96 257 ePn 00 37.00 -1.1
ePg 60 44.00iSg 01 23 . 00
WET 3.08 224 IPnc 00 39.40 -0.4VKA 3.13 178 iPgc 00 50.50 9.9X
i Sg 61 33.00GRBl 3.51 237 ePg 66 46.00 6.1
eSg 01 30.60KBA 4.69 204 iPnc 01 02.50 -6.4
iSg 02 22.30S.D. -1.0 on 10 of 12 obs.
« AUG 01, 1985 20h 52m 16.93± 1.59s24.467 N ±13. 6km 123.465 E ±13. 4kmDEPTH - 33 . 0km (normol )4 . 6mb ( 1 obs . )
SOUTHWESTERN RYUKYU ISLANDS (246)
TWC 1.48 276 iPc 52 41.50 0.6TWO 1.75 258 iPc 52 45.30 -0.1
eS 53 03.30TWZ 1.83 290 iPc 52 46.50 0.0TATO 1.87 286 eP 52 47.20 0.1
eS 53 05.70TWF1 2.27 241 iPd 52 53.00 0.1
eS 53 17.00TWG 2.74 234 iPc 52 59.50 0.0WRA 45.39 166 Pd 00 34.30 0.0
0.8s 6 . 20 rim ' . 6mbS.D. - 0.1 on 7 of 7 obs.
AUC 01. 1985 20h 54m 1 1 . 99± 0.61s39.983 N ± 5.6km 21.572 E ± 4.7kmDEPTH - 10.6km (geophysicist)3 . 7mb ( 2 obs . )
-
01d 20h
GREECE (364)ML 3. 4 (ATM) .
KZN 0.36 25 ePgd 54 20.00 0.6LIT 0.71 80 ePd 54 25.90 -0.2
«S 54 37.80GRG 1.16 33 i Pd 54 34. 00 0.3
eS 54 52.96THE 1 . 25 58 Pd 5435.70 0.6OHR 1.27 333 Pn 54 34.40 -1.2
Sn 54 52.00VAY 1.54 29 Pn 54 39.30 -0.2
Sn 55 01 . 88KNT 1.55 40 ePc 54 39.70 0.0SOH 1.60 58 iPd 54 41.00 0.6
S 55 02.90PAIG 1.62 91 «P 54 39.70 -1.0OUR 1.88 78 «Pd 54 44.30 -0.1SRS 1.91 53 iPd 54 44.70 -0.2VLS 1.96 203 «Pn 54 47.50 1.9
eSb 55 16.50SKO 1.99 357 iPn 54 45.50 -0.5
iPg 54 49.50«Sn 55 13.50
MMB 2.29 45 iPd 54 50. 0« -0.5ATH 2.61 140 «Pn 54 53.50 -1.4
eSn 55 24.50PVY 2.87 336 «Pn 55 00.00 1.2VTS 2.89 25 iPc 54 59.00 0.2TTG 3.00 325 «Pn 55 00.60 0 2
cSn 55 37.00KDZ 3.31 59 «P 55 05.00 0.1HCY 3.38 318 ePn 55 05.00 -0.9
eSn 55 45.00DIM 3.67 55 «P 55 18.00 8 . 0XPVL 4.16 39 eP 55 18. 00 1.2GZR 5.48 9 ePd 55 40.56 4.8XMLR 6.38 29 ePc 55 51.00 2.6XCEY 7. 78 320 eP 56 14.30 6. 3X
«Sn 57 31 . 50i (Sn) 00 47 . 70
LJU 7.95 322 ePn 56 12.10 1.8e(Sn) 57 35.00
VOY 8.26 320 e(Pn) 56 12.30 -2.4e(Sn) 57 42.00
NUR 20.64 4 eP 58 43.00 -10. 9XN82 22.03 347 P 59 03.60 -4 . 5X
0.7s 2 . 00nm 3 . 7mbSUF 22.94 5 eP 59 13. 00 -4 .0X
0.7s 2 . 00nm 3 . 7mbS .0. - 1 . 1 on 23 of 30 obs .
AUG 01. 1985 20h 56m 20.61± 0.91$40.035 N ± 7.8km 21.580 E ±10. 7kmDEPTH - 10.0km (geophy s i c i s t )
GREECE (364)ML 3 . 4 (ATH) .
KZN 0.31 28 ePgd 56 28.00 0.9iSg 56 34.50
OHR 1.23 331 iPn 56 42.50 -1.0iSn 57 00.20
VAY 1.49 30 iPn 56 48 . 00 0.6iSn 57 07 . 30
SKO 1.94 357 ePn 56 53.00 -0 9iPg 56 58.20i (Sn) 57 24 . 70
VLS 2.01 203 ePn 56 56.50 1 5ULC 2.61 31B ePn 57 05.00 1.4
e(Sn) 58 06.00ATH 2.65 140 ePb 57 02.50 -1.6
eSb 57 34.50TTG 2.96 325 ePn 57 08.00 -0.5
«(Sn) 58 10. 00'VA 3.10 337 ePn 57 12.00 1.4
eSn 58 10.00HCY 3.35 317 ePn 57 12.00 -2.0
eSn 58 10.00S . D . -1.5 on 10 of 10 obs .
AUG 01. 1985 21h 13m 56.96± 0.81s45.857 N ±10. 6km 10.823 E ± 5.0kmDEPTH - 10.0km (geophy s i c i s t )
NORTHERN ITALY (545)ML 3 . 3 (KBA) . 2.9 (LOG) .
OSS 0 . 95 331 iP 14 15. 40 01
OGA 1.02 8 iPgd 14 15.60 -0.8VDL 1.13 304 iP+ 14 19.10 0.8TMA 1 . 38 281 eP 14 23. 50 1.1LLS 1.62 309 eP 14 28.50 2.7SAX 1.73 324 eP 14 30.80 3.3XMMK 2.00 277 eP 14 35.00 3.6XTRI 2.06 93 ePg 14 30 . 60 -1.5
i Sg 14 55. 00KBA 2.13 54 iPgd 14 32.70 -0 5
i 14 36 . 10i Sg 15 00 . 00
FUR 2.33 7 eP 14 39 . 80 3. 8XZUL 2.33 315 eP 14 42.10 6. IXSLE 2.49 321 eP 14 39.06 6.8CEY 2.52 91 ePn 14 28.50 -10. 2X
iPg 14 32 .20i 14 33.90i 1453.50i Sg 1459.10
CEY 2.52 91 e(Pg) 14 40.70 2.0i Sg 1509.80
LJU 2.60 85 ePg 14 41 . 20 1.5e 1443.60iSg 15 12.60
LPG 2.88 264 Pn 14 43.60 -0.4*BSF 3. 40 307 Pn 14 51 . 80 0.6
Sn 15 33 .30CDF 3. 52 318 Pn 14 54. 00 1.1
Sn 15 36 . 40GRB1 3.58 9 ePg 15 04.00 10. 3X
eSg 15 51.00HAU 3.74 307 Pn 14 56.30 0.2
Sn 15 42 . 00KHC 3.77 29 ePn 14 54.00 -2.4
Pg 15 06 . 40Sn 15 38 . 00Sg 15 53. 00
PRU 4.83 30 eP 15 55.00 43. 6XeSg 16 27 .00
LBF 4.87 286 Pn 15 10.60 -1.4Sn 16 07 .50
SMF 4 .91 282 Pn 15 1 1 . 50 -1.0Sn 16 07 . 60
LOR 5.01 289 Pn 15 12.40 -1.5Sn 1610.60
AVF 5.26 283 Pn 15 16.80 -0.7BGF 5.58 280 Pn 15 21.20 -0.8
S . D . - 1 . 4 on 20 of 27 obs .
AUG 01. 1985 23h 15m 14.88± 0.70s57.725 S ± 4.7km 25.320 W ± 4.4kmDEPTH - 30. 7 ± 4 . 7 km5.6mb ( 19 obs.) 4.9Msz ( 5 obs.)
SOUTH SANDWICH ISLANDS REGION (153)CENTROID, MOMENT TENSOR (HRV)Doto Used: GDSNL.P . B. : 15S . 29CCentroid Loco t i on :Origin Time 23:15:23.8 0.5Lot 57.54S 0.06 Lon 25.67W 0.09Dep 24.5 3.8 Ho I f-du r o t i on 1.9Moment Tensor; Scole 10*»24 D-CM
Mrr- 1.11 0.05 Mtt- 0.27 0.07Mff 1.38 0.07 Mr t 0.29 0.13Mr f- 1 . 89 0. 31 Mt f- 0. 38 6 06Principol Axes:T Vol- 2.13 Pig-62 Azm-265N 0 . 35 3 170P -2 48 28 79
Best Double Coup 1 e : Mo-2 . 3* 1 0 24NP 1 : S t r i ke-1 62 Dip-17 Slip- 81NP2: 351 73 93
SNA 15.99 151 eP 18 58.00 -0.80.7s 1 65 . 75nm 5 . 3mb
AIA 19.76 232 eP 19 46.50 1.7VBA 30.93 294 ePd 21 28.50 -2.4SPA 32.45 180 iPc 21 44.40 0.2
1.0s 225 . 00nm 6 . 0mbe 21 52.80e 22 01 . 80
BMA 37.56 331 eP 22 30.20 2.2ITA 38.01 330 eP 22 34.20 2.1
i 22 36.60e 2241.60e 22 46. 10
VAO 38.06 327 eP 22 34.10 1.9
MAWMDZ
1 TB7PCHFCH1 TBTACHLNV8ACH
1 TB 1PELROCHJ ACHSLASBA
HJABAOSWZ
TPZ
PRY
SLR
SOB1
ITR
CCH
CNCB
LP8
2080
BUL
DRVKR IMTDK 1 CBCAO
BNG
PSOBOGTRN
NA 1
UAVSDvCARMSZUPA
TCWSJGKRPTOOBFDMUN
WAMADE
CAN1 FR
i 22 35. 16e 22 37 . 10e 22 38 . 86e 22 44.86
38 . 19 142 eP 22 36 . 00 3 . 3X38 .44 291 eP 2235.36 0638 53 315 e(P) 22 35.90 -0 238 69 289 ePc 22 36.00 - 1 438.81 289 eP 72 38.56 -e . 238 . 84 316 e(P) 22 39 . 90 1.238.88 288 eP 22 38 56 -0 438 88 287 iPd 22 36 . 50 -0 438 89 289 i P 22 3C 7C' -0 *39 04 31 5 eP 22 46 . 60 e 339 15 289 iPd 22 41.0? - 339.45 289 ePc 22 42-6? -' *39.47 296 eP 22 43.00 -1 e43 63 302 eP 2316.86 -'34447 184 i PC 2326.06 181.6s 167.00nm 5.8mb44 89 303 ePd 23 28.08 -0.245 . 33 329 i Pd 2333.30 1.546 64 71 iPc 23 42.26 0.00.5s 38 . 73nn 5. 6mb47 92 306 P 23 42.86 -9.8X
i 25 18 . 0647.95 73 i Pd 23 52 . 50 0.01.6s 1 5 . 00nm 5 . 0mb49 . 34 73 eP 24 03. 66 0.41.5s 1 1 1 . 1 1 nm 5 . 7mb
Z 22s 2.78um 5.2MSZ49 . 88 340 eP 14 07 . 48 0.2
e 24 10 . 46e 2415.00
49.89 343 iPc 24 07.80 0.5e 24 10 . 70e 24 25 . 1 6e 25 28 . 10
50 34 306 PC 24 10.20 -0.9i 25 29.06
51 65 304 iP 24 21 .56 0.1i 25 35.40
51 . 95 304 iPc 24 24.00 0.68.9s 62.18nn 5. 6rr>c
S 31 29. 0eLR 40 12. 00
52. 19 304 iPd "4 24 . 90 -0.60.9s 7 1 . 37 nm 5. 6mb
i 2537. 30LR 4004.00
54.15 70 i PC 2440.76 1.30.9s 1 6 . 8 1 nm 5.1mb55.44 173 «P 24 47.20 -0.957 45 68 iPc 25 03.50 6.358 48 70 iPc 25 69. 96 -6.56602 22 iP 2601.00 6.571 28 47 eP 2632.16 -1.01.2s 1 8 . 40nm 5 0mb
Z 20s 0 . 69um 4 . 9Msz71 28 47 iPc 26 33 . 06 -6.21.0s 36 . 00r.m 5 . 3mb
i 26 50 . 8071 77 364 eP 26 37 . 00 6.473 43 309 eP 26 45 . 00 -1.374 . 26 323 i P 2651.36 0.80.9s 324.90nm 6 3mb74 .37 67 eP 76 57 . 00 5 4X0.8s I8.66nm 51mb75 86 313 eP 27 01 30 137592314 eP : 7 0 e 7 0 0476 01 318 eP 26 59 50 -' 377 38 190 P 27 67 50 -0 479 68 305 iPc+ 27 21 00 6.21.0s 1 40 . 00nm £ . 9mt
Z 20s 0 . 39um 4 7Ms r80 07 195 Pd 2723.00 6.482 80 321 i PC 27 36 . 30 -6.883 1 1 196 P 2738.70 0.28475173iPd 27 47. 20 0.384 91 170 eP 27 47.00 -0.784.97 148 eP 27 48.00 0.00.9s 48.00m 5 7mb86 31 175 iPd r 7 55.40 0.78669167iPc 2757.30 071.2s 62.50nm 57mb8 7 1 9 1 7 e> e P 2759.80 0892 47 1 ^ i p 2822.50 -11
-
we*<
ASP A
WRA
: T /
ALO
CUESCHMH !
GOLRSSD
HFS
NSTNB2
UPPBD*
PR t8DTFR 1E'JR
UNAPRSLLAJ AS 1OWN
GCCCHGCHTO
MHCPK 1
KKN
BMNNUf?
PCCBKS
BRKORVFRBLRMM 1 NSUF
WDCF oCFFC
K J F
SES':LX. DM- K-MN t «
SOD
: DM. NT
E V', < k
»0
. J2"MO'C
K A_ZHGTA
53 . 1 9 55 i Pd 28 27 88 06'0s 35 . 00nrr, 5 . 7m&97 . 07 i 6' eP 28 45 00 68' 6s 35 66nm 5.8mo
;-e 79 161 Pdiffc29 01 20 -e 58s 360 nrr. 5 . 0m;
s.46 r:-e CPKP 33 41 70 e i6s 1 60nm
114 41 297 ePKP 33 52 60 -0 92 20s 0 32um 4 . 9M 3 z116 14 "5 ePKP 33 56 00 -0 3117.09 315 ePKP 33 56 00 -1 1117.27 65 -PKP 33 58 00 -6 2117.733m 'KP 335900 -62120.65 3t'5 ePKP 34 03 50 -1 08.8s 26 . 42nm121.46 22 ePKP 34 03 90 -1.38.2s 1 . 60nm121.76 113 ePKP 34 07 00 00121.83 :0 PKP 34 05 50 -0 41.8s 14. 40nm
122. 0i 24 iPKP 34 85.60 -0 6122.10 3?* ePKP 34 06 38 -1.01.2s 23 1 9nm
122.41 287 ePKPc 34 09.50 1.6122.53 111 ePKP 34 88 00 -0.5122 58 289 ePKPc 34 08.98 0 9i::.62 293 iPKP 34 09 60 06e 8s 2 . 95nm122.96 291 ePKP 34 09 80 8.9122.92 237 ePKPc 34 09.90 1 1122.92 287 ~PKPc 34 09.70 0.9123.66 289 PKPc 34 11.20 1.0123.72 91 PKP 34 10.80 -0.28 9s 44.00nm123.78 28^ e PKP 34 10.40 0.0123.82 116 ePKP 34 11.50 0.4123.82 1 1 e ePKP 34 11.10 0.11.0s 7 . 25nm
Z 20s e.26um 4.9Msz123.83 288 ePKPc 34 16.96 0.2123.86 91 PKP 34 16.66 -0.70.9s 44 . eenm123.96 91 PKP 34 10.96 -0.50.7s 36.00nm123.97 293 i PKP 34 11.70 6.8124.23 27 iPKP 34 16. 40 -0.10.9s 20 . 30nm
124 33 287 «PKP 34 12.26 0.7124.54 287 ePKPc 34 13.00 1.18 8s 363 00nm
124 . 55 287 , PKP 34 12.70 0.8125.44 289 aPKPc 34 13.80 0.2125.59 338 sPKPd 34 12.88 -0.3125.76 301 ePKPc 34 15.10 0.7126.09 298 ePKP 34 15.00 -0.1126.51 27 i PKP 34 14.10 -0.80.9s 12. 20nm126.74 289 ePKPc 34 15.80 -0.3127.64 289 ePKP 34 19.10 1.3127.99 314 ePKP 34 17.00 -1.013s 31 . 00nm
128. 14 26 iPKP 34 17 . 50 -0.41.0s 72 . 00nm
eSKP 37 32.00ePKS 37 50.80
128.52 305 uPKP 34 18.00 -1.2128.76 301 iPKPc 34 19.90 -0.1129 03 361 iPKP- 34 20.10 -0.1129 50 301 i PKP- 34 20.90 -0.4129 72 300 « 0 KP 34 20.80 -0.8136.55 24 iPKP 34 21.80 -0.7
:SKP 37 41 . 50131.54 307 iPKPc 34 24.20 -0.6131 64 299 i P K P d 34 26.08 0.9
i e« 46 eenm13? 60 22 ePKP 34 46.00 1 3 . 7 X13408 112 PKP 34 31.00 0.4'34 30 2 iPKPd 34 27.90 -1.5e 6s '4 . 33nm
: 36 22 105 PKP 34 34.88 -0.5137.23 79 ePKP 34 29.80 -7.0X138.04 316 ePKP 34 30.00 -6.8X
1 8s 66 80nm138.18 316 ePKP 34 28.70 -8.2X140.29 101 ePKP 34 41.80 -1.0140.61 93 ePKP 34 35.20 -7.2X
XAN 141.36 108 PKP 34 37.38 -6 . 5XSIT 143.81 300 ePKP 34 44.68 -2.5XNJ2 144.60 121 iPKPd 34 48.00 -1.3SSE 144.84 125 PKPd 34 49.88 -0.7MBC 145.93 335 i PKPc 34 51.08 0.7
0.8s 111. 00nmTIY 146.00 108 PKPc 34 52.00 0.3BTO 146.89 102 ePKP 34 52.50 -0.5PNL 146.95 302 ePKP 34 55.00 2.6XTIA 147.18 115 ePKP 34 55.48 1.9INK 147.74 319 ePKP 34 53.00 -8.4
0.9s 167 00nmHHC 147.88 103 iPkPc 34 58.00 3.4XBJ 1 149.67 169 ePKP 35 02.08 4.8XPME 152.08 302 ePKP 35 07.78 7.5XPMR 152.12 302 PKP 35 07.68 7.4XCOL 152.39 309 iPKP 35 07.50 7 . 0X
1.0s 1 88 . 00nmi 35 18 . 70
FBA 152.39 309 ePKP 35 87.10 6.6XKDC 152.39 293 ePKP 35 08.20 7.5XIMA 155.00 311 ePKP 35 14.10 9 . 9XTTA 155.56 303 ePKP 35 05.50 0.4BRW 155.96 324 ePKP 35 15.50 10. 3XMAT 156.15 146 (PKP) 35 17.00 10. 4XCN2 157.08 115 ePKP 35 03.00 -4.5X
S.D. - 0.9 on 121 of 143 obs .
? AUG 01, 1985 23h 54m 51.53± 2.23s18.540 N ±21. 4km 102.258 W ±20. 1kmDEPTH - 108.3 ± 19.6 km
MICHOACAN, MEXICO ( 57)
PIM 0.44 126 IP 55 08.00 0.0i S 55 14 . 00
OXM 2.55 72 i P 55 33 . 00 0.5TAC 3.02 73 i P 55 46 . 00 7 . IXTPM 3.86 81 iP 55 38.50 -0.7
i 56 1 3. 00MC 3. 09 66 iP 55 44 . 08 4 . 2X
IS 56 20.60VHO 5. 42 103 IP 56 12. 00 0.4
IS 57 06.00PBJ 6.86 107 eP 56 31.00 -0.2LTX 10.82 353 eP 57 24.70 0.0
S.D. -0.7 on 6 of Sobs.
? AUG 02, 1985 00n 47m 03.32±10.09s23.890 N ±52. 9km 122.851 E ±57. 9kmDEPTH - 10.0km (geophy s i c i s t )
TAIWAN REGION (243)
TWC 1.16 308 iPd 47 25.08 0.0eS 47 34 . 20
TWO 1.16 280 iPc 47 25.00 -0.1TATO 1.65 311 IP 47 32.70 0.3TWZ 1.67 316 iPd 47 33.00 8.3
«S 47 48.50ANP 1.77 317 eP 47 33.70 -0.6
S.D. -0.5 on 5of 5obs.
? AUG 02, 1985 81h 26m 50 . 28± 3.74s36.878 N ±32. 6km 22.175 E ±13. 3kmDEPTH - 69 . 4 ± 1 9 . 1 km3 . 3mb ( 1 obs . )
SOUTHERN GREECE (36B)
ATH 1.64 48 ePn 27 18.00 0.4eSn 27 42.00
VLS 1.81 316 ePn 27 19.50 -0.4eSb 27 47.00
KZN 3.44 355 ePn 27 43.00 0.4OUR 3.73 22 eP 27 46.40 -0.2SOH 4.04 13 «P 27 50.90 -0.2
eS 28 09.80GRG 4.08 2 eP 27 50.80 -0.8KNT 4.32 7 «P 27 54 . 90 0.0SRS 4.38 14 eP 27 55.50 -0.3VAY 4.45 4 ePn 27 55.50 -1.2SKO 5.12 354 ePr, 28 08.50 2.3NB2 25.16 347 P 32 10.20 -0.1
0.6s 0.70nm 3. 3mbS.D. - 1.1 on 11 of 11 obs.
% AUG 02, 1985 01n 38m 12.33± 8.75s39.101 N ±76. 3km 29.158 E ±13. 7kmDEPTH - 10.8km ( geophy s i c i s t )
TURKEY (366)
DST 0.65 321 i Pg 38 25.20 -0.1iSg 38 34 . 20
GPA 1.49 37 i Pn 38 39.60 0.5BNT 1 . 57 323 !Pn 38 40 . 40 0.1EDC 1.59 322 ePn 38 40.30 -0.3HRT 1.76 13 ePn 38 41.20 -1.9ISK 1.96 358 ePn 38 47.70 1.7CTT 2.12 345 ePn 38 51.70 3.5X
S.D. -1.5 on 6of 7 obs.
& AUG 02, 1985 02n 42m 27.34s58. 984 N 154.204 WDEPTH - 1 24 . 4km
ALASKA PENINSULA ( 12) .
PDB 8.81 0 P 4247.32 -0.9S 43 02.97
1 LM 1 . 39 30 P 42 53 . 63 -0.6S 4313.64
KDC 1 . 53 1 43 P 42 53 . 99 -1.8S 4316.45
CNPM 1.62 69 P 42 56.07 -0.8NNL 1.82 53 P 42 59 . 47 0.2RDT 1 . 84 29 P 42 58 . 76 -0.7BRLK 1.87 64 P 42 58.87 -1.0SVW 2.25 342 P 43 03.48 -1.2
eS 43 29 . 59NKA 2.31 39 eP 4306.51 1.1SPU 2.45 25 eP 43 06.30 -1.0SLKM 2.53 51 eP 43 06.91 -1.4CGLM 2.58 24 IP 43 08.08 -8.9SEW 2.67 63 eP 43 08.47 -1.5MPA 2.88 56 eP 4311.57 -1.2SUA 3.03 33 IP 43 14 . 02 -0.9
eS 43 49. 13PTE 3.22 52 eP 43 15.88 -1.4PMS 3.25 44 eP 43 16.44 -1.3SKT 3.28 23 eP 43 16.69 -1.5PWA 3.43 37 eP 4319.10 -1.0MTU 3.49 70 IP 43 19.90 -1.1PME 3.70 42 eP 43 21 . 59 -2.1KNK 3.76 47 eP 43 22.94 -1.7GHO 3. 83 41 eP 43 23.42 -2.2MSE 3.87 40 eP 43 23. 44 -2.7GLI 4.05 59 eP 43 26.08 -2.4TTA 4.06 348 eP 43 27.01 -1.6SML 4.06 43 eP 43 25.85 -2.8HIN 4.15 67 eP 43 28 . 28 -1.6FID 4.28 62 eP 43 28.64 -2.9SGAM 4.80 68 eP 43 36.60 -2.0KLU 4.83 55 iP 43 37.00 -2.2GLB 5.74 60 eP 43 49.47 -2.0BALM 6.29 66 eP 43 57.88 -2.1YAH 6.46 72 eP 44 80.20 -1.3
34 obs. ossocioted
AUG 02, 1985 02h 57m 36.61± 0.84s41.709 N ± 7.0km 23.714 E ± 8.3kmDEPTH - 1 3 . 4 ± 6 . 7 km
GREECE-BULGARIA BORDER REGION (363)
MMB 0.12 175 iPgc 57 40.00 -0.1SRS 0.60 189 eP 57 47.70 -0.7
eS 57 56.20KNT 0.82 229 eP 57 52.40 0.2
eS 58 03.90SOH 0.93 197 eP 57 53.60 -0.4
eS 58 06.50VTS 0.97 337 i Pg 57 54.00 -0.7KDZ 1 . 23 93 IP 58 00. 00 0.9GRC 1.24 233 «P 58 00.80 1.4
eS 58 18 . 00OUR 1.39 172 Pd 58 00.90 -86
eS 58 20.00S.D. "1.0 on 8of 8 obs .
AUG 02, 1985 03h 05m 47.46± 1 15s24.439 S ± 8.5km 179.800 E ± ,3kmDEPTH - 505. 5 ± 14.4 km5 . 0mb ( 21 obs . )
SOUTH OF FIJI ISLANDS (171)CENTROID, MOMENT TENSOR (HRV)Doto Used: GDSNL. P.B. : 8S, 10C
-
02d 03h
NOUAF 1
MNG
RMOT0I
CANPPN
TVO
CMS
CTA
PMO
VAH
TOOTPT
RUV
TAUSTKPMG
ADE
ASPA
WRA
WBN
KNA
DRVGUA
GUMOPJGSBANWAOBAL
MUNMRWA
CGPSPA
MAT
M^WKGMPSI
WHNCN2T 1 YXANCHG
CHTO
LTX
Ce n t r o i d Locotion:Or i q i n T i me 03:05:55.71.7Lot 25.31S 0.31 Lon 179. 69E 0.20Dep 523.4 8.8 Ho 1 f-du r o t i on 1.2Moment Tensor; Scole 10**23 D-CM
Mrr 3.01 0.64 Mtt--0.59 1.10Mff- 3 60 0.78 Mrt 1.98 0.93Mr f 2. 30 1.19 Mtf--0.28 0.76
P r i nc i po 1 Axes:T Vol- 4.34 Pig-18 Azm- 94N 0.35 23 193P -4.69 60 330
Best Double Coup 1 e : Mo-4 . 5 * 1 0 * * 23NP1 : S t r i ke-1 53 Dip-33 Slip 135NP2: 23 67 -65
12.44 277 iPc 08 32 . 00 0.413.15 39 P 0B 36. 00 -3 . 1 X
S 10 53 .0016 . 54 192 P 09 1 1 .50 -1.5
S 1 1 55. 7028.07 259 i Pd 1 1 00 .90 1.728.10 94 iP 1 0 59 . 90 0.50.8s 45.00nm 5 . 1mb2B. 72 241 eP 1 1 05 . 80 1.029 . 49 82 eP 1 1 1 1 . 00 -0.60.9s 50 . 00nm 5 . 1mb29.58 83 eP 1 1 12 .00 -0.40.9s 60.00nm 5. 1mb30. 73 249 iPd 1 1 22 . 40 0.30.3s 1 8 . 00nm 5 . 1mb31 . 30 271 i Pd 1127.80 0.70.5s 122.89nm 5.7mb31.76 79 i P 1131.30 0.40.9s 50 . 00nm 5 . 1mb31.91 79 i P 1133.30 1.10.9s 25.08nm 4.8mb32.01 238 iPd 1 1 33.80 0.932 .01 79 i P 1 1 33 . 40 0.30.9s 70.00nm 5.2mb32. 15 80 i P 1 1 34 . 40 0.20.9s 45.00nm 5. 0mb32 . 43 227 eP 1 1 37 . 00 0.634 . 36 249 iPd 1 1 53 . 30 0.634 . 50 290 iPd 1 1 53. 50 -0.50.8s 89.55nm 5.4mb36.98 244 iPc 12 14 . 90 0.50.8s 37.31nm 5. 0mb41.77 261 iPd 12 53. 30 -0.1
eS 18 31 .0042 . 19 267 eP 12 55.20 -1.5
i ScP 17 44.10eS 18 36.30
47 .87 256 eP 13 40.00 -0.70.4s 60.00nm 5.4mb48.48 270 iPd 13 45.20 -0.20.5s 29 . 00nm 5 . 0mb48 98 200 eP 1 3 47 . 50 -1.050.84 314 e(P) 14 02.00 -0.80.8s 89 . 55nm 5 . 3mb50 . 91 31 4 eP 1402.10 -1.250 .91 314 eP 14 02 . 20 -1.153. 83 183 e(P) 1425.40 1.754 .85 246 eP 14 29 . 00 -2.555.66 249 eP 14 34.00 -3.2X0.4s 1 7 . 00nm 4 . 7mb55. 85 247 eP 1437.00 -1.556 .53 250 eP 1442.00 -1.20.3s 9.00nm 4. 6mb62 .89 294 ePd 15 24 . 50 -1.165 . 7 1 180 i Pd 1543.40 0.30.9s 17.27nm 4. 7mb72 . 24 326 eP 1622.00 -0.20.9s 2 1 . 85nm 4 . 7mb77 . 18 201 eP 1650.00 0.678. 55 278 ePd 16 57 . 90 0.382 . 81 276 iPc 17 19 . 50 0.00.8s 28 . 50nm 4 . 9mb83 . IB 308 P 1722.30 1.384.21 324 Pd 17 26 . 20 0.488 . 42 313 eP 1747.70 1.588.93 308 Pd 17 49. 80 1.289.70 291 iPd 17 52 . 80 0.41.0s 205 . 00nm 6 . 0mb89. 70 291 eP 1754.10 1.81.88 17.75nm 4. 9mb90.87 58 eP 1 7 55. 00 -2.7
1.4» 2 . 79nmCD2 91.22 303 eP 1801.20BUL 127.55 215 iPKPd 23 56.90
0.7s 4 . 45nmSOB1 128.09 125 ePKP 23 56.90MTD 128.62 220 iPKPd 23 58.50KJF 136.25 343 ePKP 23 56.00SUF 137.86 342 ePKP 24 04.00NUR 140.06 341 ePKP 24 19.00UPP 142.47 345 iPKP 24 18.70NB2 142.58 351 PKP 24 19.20
0.9s 8 . 40nmHFS 143.04 348 ePKP 24 21.00
0.4s 30 . 30nmHRI 147.44 294 iPKP 24 36.50JER 148.04 291 iPKPc 24 38.50MKT 148.13 290 i PKP 24 38.50KRA 150.01 334 ePKPd 24 41.20
e 2451. 00MLR 150.22 321 ePKP 24 42.00SPC 150.55 332 ePKP 24 43.60KSP 150.72 338 iPKPd 24 43.00
0.8s 45 . 00nmWIT 151.19 351 ePKP 24 45.00CLL 151.31 343 iPKPd 24 44.20
1.1s 40 . 00nmBRG 151.43 341 iPKPd 24 44.50
0.8s 46 . 00nme 24 55.20
WTS 151.97 351 ePKP 24 45.500.8s 1 6 . 00nm
PRU 152.03 340 PKP 24 46.30e 24 58.50
KHC 153.08 340 PKP 24 34.50e 24 49.00i 2503.00
BNG 153.14 225 iPKPc 24 40.900.5s 1 0 . 00nm
i 24 48.30i 30 15. 90i 30 55.60
BCAO 153.15 225 ePKP 24 40.700.7s 1 . 59nm
KIC 161.50 166 ePKP 24 51.30e 25 39.90
S . D . -1.1 on 51 of 71
& AUG 02, 1985 03h 06m 52.7161 . 726 N 150.844 WDEPTH - 68.6km
SOUTHERN ALASKA.
SUA 0.27 170 IP 07 03 . 19SKT 0.41 308 i P 0704.33PWA 0.47 99 iP 07 04.48CGLM 0.70 234 iP 07 07.51
iS 07 18. 67CRP 0.78 234 iP 07 08.72
i S 07 20 . 41PMS 0 . 78 128 i P 0707.51SPU 0.80 227 iP 07 08.56
i S 0720.11PMR 0.83 99 eP 07 07 . 88
iS 07 20.99PME 0.87 96 eP 07 08.77
iS 07 22. 29MSE 0.90 82 i P 07 09 . 60
iS 07 23. 1 1GHO 0.91 86 eP 07 09.88NKA 1.00 191 eP 07 12.64KNK 1.19 104 iP 07 13.20SML 1.20 85 iP 07 13. 35PTE 1 . 23 1 34 i P 0713.42SLKM 1 . 26 166 iP 07 13 . 59RDT 1 . 38 214 iP 0716.19
iS 0734.15MPA 1 . 44 149 eP 0716.28SCM 1.67 85 eP 07 19.88NNL 1 .70 188 eP 07 21 . 44SEW 1.76 157 eP 07 22 . 371 LM 1 . 82 21 3 eP 0722.35BRLK 1 . 97 181 eP 07 24. 49
eS 07 49.25GLI 2.00 113 iP 07 22.99LOU 2 . 00 1 28 i P 0722.20CNPM 2.22 185 eP 07 27.95
4 . 0mb X2 .00 . 1
-0 . 9-0 . 3
-1 5 . 8X-10 . 8X
0 . 2-4 . 3X-4 . 1 X
-3.0X
4 . 2X5.2X5. IX5 . 6X
5.7X6 . 9X6.3X
7 .8X6.7X
6.8X
7 . IX
7 . 7X
-5.6X
-0. 4
-0.6
0 . 2
obs .
s
( 2)
-0 . 6-0 .5-0. 7-0.3
-0. 1
-1 .2-0 . 4
-1 .3
-1 .0
-0. 7
-0 .51 .2
-0 .6-0 . 7-1 . 0-1 . 2-0 . 3
-0 .8-0.60. 60 .8
-0. 10. 0
-1 . 9-2.80 . 0
TOA 2.24 78 eP 07 28.28 -0.1FID 2.33 113 eP 07 26.91 -2.5KLU 2 . 36 94 eP 07 28. ?4 -1.8SVW 2.38 257 eP 07 29.57 -0.7PDB 2.55 222 eP 07 32 06 -0.4
31 obs. ossocioted
AUG 02, 1985 03h 20m 36 29± 1 24s35.977 N ± 9.3km 70 769 E ± 6 9kmDEPTH - 90 . 8 ± 1 3 . 6 Hr>4 . 8mb ( 7 obs . )
HINDU KUSH REGION (718)
KSH 5. 38 48 eP 21 57 dS T . 2S 22 58.00
NDI 9.08 141 iPd 22 46.50 0.10.5s 45.77nrr, 5. 6mb
MHI 9.14 275 iPc 22 46.90 -0.5eS 24 23. 00
KHI 10.12 263 eP 23 02 . 50 1.7DMN 14.75 120 eP 23 59.80 -1.8KKN 14.76 120 eP 23 59.70 -2.0PKI 14.98 120 eP 24 02.40 -2.3WMO 15.14 54 eP 24 02.40 -4.0X
S 26 47 . 00HYB 19.73 158 eP 25 03.00 1.7SHL 20.84 114 iP 25 13.40 8.6GTA 23. 18 73 iPc 25 37 . 10 1.5
i sP 26 15. 10CHG 30.13 117 eP 26 42.88 2.4XAN 31.16 82 eP 26 48.68 8.8GYA 31.96 97 P 26 56.68 6.8NUR 38.15 325 iP 27 46.90 -1.8
i 28 12.88KJF 38.26 331 «P 27 48.00 -8.8SUF 3B.28 328 iP 27 48.80 -0.9
0.5s 6 . 10nm 4 . 8mbSOD 40.14 335 iP 28 04.68 0.3REV 41.22 339 eP 28 14.08 0.8IPM 41.84 131 «Pc 28 20.40 1.5PRU 42.47 307 P 28 26.00 2.3
e 30 05.50BRG 42. B1 309 e(P) 28 28.00 1.6KHC 43.15 306 eP 28 32.58 3.2X
i 30 43.20HFS 43.37 322 «P 2B 29.50 -1.3
0.4s 5 . 08nm 4 . 7mbNB2 44.70 323 P 28 40.00 -1.6
0.9s 6 . 30nm 4 . 4mbEKA 52.55 316 PC 29 42.40 0.3
0.9s 6 . 90nm 4 . 7mbDAG 55.21 344 eP 38 00.00 -1-4BCAO 57.32 250 eP 30 15-78 -1.5MBC 67. B7 3 eP 31 27.90 0.8
0.7s 16. 00nm 5 . 1mbINK 74.45 9 ePc 32 86.40 6.7KIC 74.58 267 eP 32 96.40 -1.8COL 75.02 16 eP 32 88.80 -1.1
0.8s 1 0 . 87nm 4 . 7mbYKA 81.78 3 «P 32 46. 10 8.3YKC 81.80 2 eP 32 45.88 -8.9WRA 81.86 122 eP 32 46.20 -8.7
S . D . - 1 . 4 on 33 of 35 obs .
% AUG 02. 1985 04h 34m 30 . 85± 1.32s45.022 N ± 7.0km 6.845 E ±20. 3kmDEPTH - 10.0km ( geophy s i c i s t )
FRANCE (538)ML 2.5 ( LOG) .
LPG 0.48 352 Pg 34 40.70 8.0Sg 34 48.60
FRF 1.47 186 Pg 34 56.80 -0.6Sg 35 15.10
LRG 1.61 193 Pg 34 59.90 8-6Sg 35 20.60
SMF 2.65 309 Pn 35 14.70 0.3Sg 35 57.20
BGF 3.19 300 Pn 35 21.70 -0.3S.D.-8.7 on 5of 5 obs .
* AUG 82, 1985 06h 50m 59.15± 1.32s13.200 N ± 9.3km 120.342 E ± 9.9kmDEPTH - 56. 3 ± 1 1 .9 km4 . 7mb ( 8 obs . )
MINDORO. PHILIPPINE ISLANDS (250)
-
12
OCR 1.60 2 C i P 512700 1.6MAN 162 °6 iPd 51 2 6. 00 11.3
e S 51 51.00BAG 3.20 4 eP 51 47.00 -1 3PIP 510 3 ePc 521'. 10 0.2t'KM 8 19 :ie ePd 53 04.60 6.5X017 1 1 6 3 3 6 1 e P 534260 -2.4
I PM 20.90 248 ePc 55 4C-.00 0.8e 56 21 . 30
CHG 21.30 288 eP 55 44.00 0.7XAN 23.20 335 eP 56 07.80 5.9XCD2 23 . 33 32? P 56 04 . 60 1.4TIV : 5 . 4 1 3 4 3 P 562350 0.4BJI 16.99 353 e(P) 56 36.50 -1.0WRA 35.70 157 PC 57 53 50 -6.8
6 . 6s 4 . 20nm 4 . 5mbKKN 35.76 299 eP 57 55.50 0.5
0.7s 7 . 00nm 4 . 7mbDMN 35.85 299 eP 57 57.30 1.4
0.7s 9 . 00nm 4 . 8mbASPA 38.97 160 eP 58 22.00 0.3WMO 41.40 324 eP 58 43.10 1.5KEV 78 87 339 eP 02 57.00 -0.5SOD 79.35 ^37 eP 03 06.00 -0.1KJF 79.37 334 IP 03 06.10 -8.2
0.6s 1 7 . 00nm 5 . 2mbSUF 80.30 332 iP 03 04.50 -6.7
0.5s 3 . 30nrr, 4 . 5mbK-P 81 41 230 iP 03 11.00 -6.1
0.8s 1 1 . 80nrr 4 . 9mbHFS 86.74 331 eP 03 37.50 -0.6
0.7s 2 . 1 0nrr, 4 . 4mb2 13s 9 . 75um 6. 4MszX
LR 54 47 . 00NB2 87.54 333 P 03 41.30 -0.7
6.8s 5 . 90nm 4 . 8mbSD. -11 on 22 of 24obs
* AUG 02, 1985 07h 42m 29.00* 2.79s45 092 N ±'8. 2km 2.837 E ±21. 1kmDEPTH - 10.0km (geophysicist)
FRANCE (538)ML 2.4 ( LOG) .
CAF 0.57 253 Pg 42 40.90 0.3Sg 42 56.90
RJF 0.96 28. P n 4245.40 -1.8Pg 42 49.90Sg 43 1 1 .60
MZF 1 . 14 3f 1 Pg 42 50 .60 0.3Sg 43 12.80
LPO 1.24 251 Pg 42 52.90 0.8Sg 43 16.20
T C F 1 . 2 7 3 4 0 P g 4253.90 1.2Sg 4318.70
LSF 1.48 322 Pg 42 59.00 3.4XSg 43 27 . 40
LOR 2-29
-
13
02d 07h
ATH
THE
VA Y
1 I TNUR
K JF
SUF
01 Z
SKO
KZNJOSSPC
KRA
PSZ&ZH
BUD
MCOVLSNJ2
AAETTG
SODSRO
H f C
DL2
zr. T
SNY
EV
pP 54 22.00 !21kmX$P 54 32.00PcP 56 1 2 . 50S 59 35.00ScS 03 52.40
37 .28 287 i PC 53 56. 00 1.0IS 59 36 . 90
37 .37 292 Pd 53 56.00 9.3eS 5519.00
37 . 56 293 iPc 5357.70 0.41.3s 0 . 35nm 3 . 0mb X37.82 291 iPc 53 59.00 -9.537 . 99 325 i PC 54 01 . 00 0.40.5s 926 . 30nm 6 . 9mb
i 55 23.50eS 59 36.00
38. 99 331 iPc 54 02 . 00 9.60.5s 6l4.70nm 6. 7mb
i 55 12 . 00eS 59 44 . 00
38 . 1 1 328 iPc 54 02. 09 0.40.6s 224 . 30nm 6 . 2mb38.30 196 Pd 54 03.59 -0.2
pP 54 28.00 106kmXPP 55 35.00IS 59 48.00
38.31 294 iPc 54 03.89 9.2E 18s 9 . 30 urn
i 54 38.50iPP 55 48.50iPPP 56 09.50i (S) 59 04.00
38.32 291 iPc 54 04.00 0.238. 46 305 iPc 54 06. 30 1.538.66 306 iPc 54 08.50 1.9
i 54 10. 70i 54 42.50i (PP) 55 41 . 50
38 .87 307 iPc 54 09. 00 0.91.0s 1 476 . 00nm 6 . 7mb
Z 1 6,s 5.59um S.SMszXN 13s 2.80umE 13s 1 . 90um
i 5410.60i 5414.50eS 00 04.00
38 . 9 1 304 i Pd 54 09 . 80 1.238.93 98 i PC 5409.90 1.0
pP 54 34.00 104kmXiS 00 01 . 00
39.51 303 i PC 5413.80 0.31.3s 212. 30nm 5 . 8mb39 . 58 99 i P 5415.40 1.139.65 288 iPc 54 14.00 -0.739.79 82 PC 5416.99 0.8
pP 5441.50111 kmXsP 54 52.70ScP 59 55.69iS 09 1.59
39. 71 235 eP 54 7.10 1.339.85 295 i PC 54 6.29 -0.'
e(S) 03 7.2039.96 335 IP 54 7 . 49 0 . '.39 . 97 304 i P 54 7.90 -9.2
e 004.00e 0106. 00
39.98 98 i P 5419.20 1.6i sP 54 43.90iPP 56 07 . 00i S 0018.00
iSS 93 13.9039.99 70 P 5418.90 0.5
i S 9917.9940 . 76 304 iPc 54 22.70 -1.0
e(pP) 54 34.00 40kmXe($P) 54 39.50e 5607. 50e 00 24.00
40.88 65 iPc 54 24.00 -0.8pP 5451.0011 8kmXsP 55 00.00PcS 00 12.-50IS 00 27 . 50i sS 01 10.50ScS 04 15.50
41 . 04 338 IP 54 26 . 20 0.50.5s 729 . 80nm 6 . 7mb
SOPKSP
VI E
VKA
TSIZAG
SSE
CN2
1 PM
PSI
OZH
PRU
BRG
LJU
KMR
CEYKHC
BRLBRN
VOY
CLL
i 55 54.00 ipP 55 20.90 169kmXeS 0028.00 eS 0106.00
41.16 394 iPc 54 28.90 1.0 TRI 43.29 301 iPc 54 A4.50 0.141.20 398 iPc 54 27.59 0.2 i pP 55 16.90 !40kmX0.6s 319.09nm 6.2mb iPP 56 31.00
iPP 56 92.50 iPcP 56 44 0041.26 394 iP+ 54 28.80 1.9 iS 01 90.00
i 5607.00 isS 0140.0060337.00 i SS 04 20. 00i 0630.00 i sSS CM 56 . 00
41.28 395 iPc 54 28.89 0.8 KBA 43 40 303 iPc 54 45.50 6.0i 55 05.09 1.0s 324.00nn 6.0mbi 5604.09 i 5447.60i 5645.20 i 5616.50i 0019.50 i 5639.40i 9342.00 i 0433.60i 93 49.09 WET 43.49 306 iPc 54 46.10 ? 'i 0494.69 eS 0110.00
41.40 135 ePc 54 28.49 -0.8 TRO 43 50 336 i P+ 54 46.00 % 341.73 301 iPc 54 32.50 0.8 COP 43.55 316 i Pc+ 54 46.70 0.4
iS 91 22.90 0.8s 1253. 73nm 6 7mb41.89 82 Pc+ 54 34.09 0.8 i 55 24.004.0s 8.90nm 3.9mb X iS 01 15.00
N 12$ 3.80um BMG 43.63 394 eP 54 47.59 0.3E 10S 1.70um HOF 44.04 398 iPc 54 51.09 9.6
pP 54 58.09 103kmX MOX 44.18 308 i Pc+ 54 51.50 0.9PPP 56 56.00 1.8s 1077. 00ni 6.3mbiS 00 42.00 i pP 55 28.00 !65kmXsS 9128.00 i PP 56 4 1 . 90SS 0358.90 eS 0120.00ScS 04 17.00 e 02 09.00
41.92 62 iPc 54 32.70 -0.5 iSS 04 40.00epP 54 55.00 94kmX eLQ 05 00.90ePP 56 16.00 eLR 07 40.90PcP 56 26.00 GRF 44.51 307 iPc 54 55.60 1.4PcS 00 17.60 Z 18s 6.00um 5 6MszS 0041.00 e 5508.70i ScS 04 2 1 . 09 i 55 r 1 . 50
41.98 131 ePd 54 34.89 0.8 eS 91 30.300.9s 431.49nm 6.2mb NB2 44.53 323 P 54 53.60 -0.7
i 54 51.60 FUR 44.65 305 iPc 54 55.70 0.3e 55 09.30 1.9s 806.00nm 6.4mb
42.26 136 ePd 54 35.00 -1.3 MDJ 44.72 60 PC 54 55.50 -9.40.8s 259.09nm 6.0mb pP 55 20.50 197kmX42.29 92 PC 54 36.59 0.9 sP 55 32.50
epP 55 00.90 100kmX PcP 56 36.00PP 5617.00 iS 0125.90iS 0048.00 sS 0206.00sS 01 33.00 GAP 44 88 304 eP 54 E-6.50 -0.7SS 03 49.00 OG^ 45 00 303 iPc 54 57.90 -0.4
42.35 307 iPc 54 37.50 0.8 KONO 45 23 32l i P+ o 4 59.50 -9.21.7s 1229. 19nm 6.4mb MUD 45 38 317 iPc 55 01.90 1 9
i pP 55 12.90 160kmX 1.0s 340.00nm 6.1mbPP 5617.29 i 5512.90e 0048.00 i 0052.00e 93 34.00 KGM 45 39 131 ePd 55 02.00 0.5e 94 00.00 0.8s 204.29nm 5 9mb
42.69 399 iPc 54 39.99 9.5 i 55 26.801.5s 600.09nm 6.1mb OSS 45.62 303 i P+ 55 82.70 -0.6
e 55 17.00 PP I 45 67 136 eP 55 03.50 -0.2e 56 28.00 1.0s 661.40nm 6 3mbe 58 17.00 SAX 46 07 304 i P+ 55 06.20 -0 7eS 0104. 09 VDL 461230 3 iP-t- 5506. 40 -08e 01 44.09 TNS 46 23 30e iPc 55 08.00 0 1e 0415.99 i 5544.60
42.71 391 ePc 54 40.60 0.9 i 57 00.00i pP 55 17.10 166kmX LLS 46 37 303 i P+ 55 08.20 -1 0ePP 5629.10 SLE 4656305 iP-t- 5599. 5 C' -09eS 91 02.90 BUH 46 59 306 iPc 55 1 9 . 6 n -0.1e(SS) 04 96.00 TMA 46.59 30: i P + 55 99. 5 U -1.4
42.76 304 iP-f 54 40.60 0.5 ZUL 46 67 304 i P+ 55 19.20 -1.2i 55 16.60 ODD 46 72 322 IP 55 12.00 0.5i 56 24.90 FEL 46 86 305 ePc 55 12.20 -0.8i 56 49.90 GWF 46.94 396 ePc 55 13.60 0.2
42.83 301 iPc 54 41.00 0.3 BNS 46 95 309 iPc 55 13.70 0.343.03 396 iP 54 43.00 0.7 1.5s 840.09nm 6 3mb
e 56 25.40 HYA 46 98 323 iP 55 14.00 0.5e 01 36.90 WTS 47 05 311 i PC 55 14.30 0.1e 94 25.09 6.7s 358.00nm 6 2mb
43.04 311 eP 54 43.00 9.8 e 55 5 1 . 5 k<43.09 311 iPc 54 43.80 1.1 STB 47.21 309 iPc 55 15.80 0.3
i pP 55 19.90 159kmX PIP 47.21 98 ePd 55 17.70 1.943.15 301 iPc 54 43.40 0.0 MMK 47.22 302 i P+ 55 14.5k.' -1.5
epP 55 19.10 16!kmX CDF 47.26 306 i PC 55 15.60 -0 4e(PP)5622.00 BBS 4727304 6 Pc 5515.20 -08
43.26 309 iPc 54 44.59 0 4 ECH 47 37 305 ePc 55 1 6 . 4 k- -0 *1.2s 759.00nm 6.3mb ASk 47 46 322 IP 55 17.10 -0 . i
-
820
GSHk LLD 1 XROFSUEBSFMEMENN
WLF
EMSri A uDBN
V 1 T FLPCBAG
FOUFFRFDOU
UCC
SNF
LMRNA 1LRG
MAN
LBFLOR
SHKSMFSSFAVF8C-FMiF
TCFK KM
CAFLSFPJFESr
.OF_ p o LN
LD !
£K A
EBH
. FFfSK
ELO
.-RR JFF.PFLAB
47.48 309 ePc 55 17.80 0.247.53 309 iPc 55 17.50 -0.547.60 303 iP+ 55 18.30 -0.647.63 3^5 ePc 55 18.40 -0.447 . 67 323 iPd 55 19. 30 0.447.6C 305 iPc 55 19.10 -0.247 . 73 309 PC 55 1 9 . 50 0.047.76 309 iPc 55 20.00 0.30.6s 1 80 . 00nm 6 . 0mb
e 55 56.0047.78 30P Pc + 55 20.50 0.6
sP 5557.50PP 57 15 00e 5747.00
47.91 303 iP+ 55 20.50 -0.847.94 305 i PC 55 2 1 . 30 0.148.03311 i P+ 55 23 . 00 1.2
i pP 55 59.00 160 kmXePP 57 17.00epPP 57 42.00eS 02 1 6 . 00eSS 05 52.00
48.14 396 ePc 55 22.20 -0.548.17 302 iPc 55 23 10 -0.248. 22 191 ePc+ 55 24 . 40 0.5
iS 02 I 7 . 0048 . 36 301 P 5524.10 -0.348.69 299 iPc 55 26.50 -0.548.70 308 Pc+ 55 27.50 0.5
sP 5604.00PP 57 21 . 00S 0226. 00
48.73 3C9 Pc+ 55 27.00 -0.2sP 56 04 . 00PP 57 1 9 . 00e 57 50.00S 0227. 00SS 06 26.00
48.83 :09 PC 55 28.00 0.0sP 56 05 . 10
48. 84 299 eP 55 27 .90 -0.348.87 J28 «Pc 55 30.00 1.148.92 299 iPc 55 28.60 -0.11.1s 1 1 4 . 40nm 5 . 6mb49.61 1 02 eP 5534.60 0.3
eS 07 36.6049.72 304 iPc 55 34.20 -0.749.74 305 iPc 55 34.20 -0.81.4s 299 . 50nm 6 . 0mb49 .74 V3 iPc 55 35.10 -0.149 .89 304 iPc 55 35.70 -0.550.02 305 iPc 55 36.50 -0.650.18 304 iPc 55 37 . 80 -0.650 . 58 304 iPc 55 40.70 -0.750 . 84 304 i PC 55 43 . 50 0.151. 07 304 iPc 55 45.00 -0.251 . 23 M5 ePd 55 47 . 90 1.11.0s I73.10nm 5. 9mb51.52 302 iPc 55 48.60 0.051.53 304 iPc 55 48.00 -0.751.79 303 iPc 55 50 . 90 0.351 . 99 317 iPc 55 50 . 90 -1.00.9s 521.00nm 6.4mb
i 56 28.0052.03 30' iPc 55 51.78 -0.652.19 302 iPc 55 53.40 -0.252.22 30& iPc 55 53.00 -0.7d7s 1 55 . 00nm 6 . 0mb52.30 3>7 iPn 55 53.20 -1.00.9= 561.00nm 6.5mb
i 5630. 5052.40 316 PC 55 54.00 -1.00.9s 490.40nm 6. 4mb52.42 317 iPc 55 54.20 -0.90.9s 682 . 00nm 6 . 6mb
i 56 31 . 8052.42 303 iPc 55 55.30 0.052.43 316 ePc 55 54 .00 -1.21.0s 640.00nm 6.5mb52.49 31^ iPc 55 54.40 -1.31 0s 350 . 00nm 6 . 2mb
e 56 31 . 9052.56 307 iPc 55 55.30 -0.952.56 30: iPc 55 55.50 -0.852.77 397 i PC 55 56.60 -1.252.89 317 iPc 55 57 60 -0.90.9s 368.08nm 6.3mb
MAT
EPFSAP
JAUPGEEBR
LHEATEMAOFISSFBOHDDRSRYOYMETA
TSKECP
DAG
ECBKYSLGR
CGP
AKU
VAL
BNG
BCAO
TOL
ALM
DAV
CRTNPA
REYALE
STSPTO
1 FR
MKSLI S
CLK
AVE
TET
MTD
53. 241 . 0s
2 20s
53. 2653. 33
53. 7553 . 7853 . 86
53. 9753 . 9754 .0354. 0554 . 1854.1854 . 3954 . 4354. 752.1s54.7954 . 981 .0s55.020.6s
55 . 1855.2055 . 431 . 7s
56. 13
57.221 .5s57 . 34
57.370. 8s
57 . 38
57 .441 .2s
57 . 451.1s
57 . 66
58. 1559. 05
59 . 2459 . 341.1s59. 4360. 15
60. 82
61.3961 .53
61 . 69
62.63
62 . 81
64 . 40
68 iPc340 . 00nm
2 . 66umiS
300 iPc60 eP
eS301 PC301 PC298 eP
ee
301 PC301 PC301 PC301 PC301 PC68 eP69 eP69 eP
313 i PC1 890 . 00nm68 iPc
313 i PC7 1 0 . 00nm
344 iPd1 00 . 00nm
i313 iPc69 eP
301 iPc1 . 00nm
i PcPePPeS
106 ePdi S
331 iPc1 400 . 00nm313 i P
S249 iPc217 . 00nm
iii
249 iPcPP
298 iPc35 . 00nm
i PcPi PPii PPPi SePSeScSiSS
294 iPgd4 . 1 0nmiSg
1 06 ePi S
295 iPc216 i PC
ippi S
329 iPc354 iPc432 . 00nm
303 iPn301 iPc
ii S
292 iPci
122 i PC299 iPc
i220 iPc
i S293 iPc
i221 iP
eSe
222 iPc
56 00. 1065
03 22.8056 00 . 2056 01 . 0003 23. 0056 04 . 0056 04. 1556 05. 0058 44.0003 30 . 0056 06 . 2756 05 . 3056 05.4556 06.6056 07 .0056 06 . 8056 08 . 4056 08 . 7056 11.00
656 10.7056 12.80
656 13.20
503 52.0056 13. 2056 06. 8056 17 .80
357 06.0058 29.0004 27 .0056 21 6056 48.0056 31 . 00
656 30.0004 20 . 0056 29 . 90
656 49 . 9059 03.3004 17.8056 29.6056 54.2056 33.00
557 08.0058 33.0059 16 . 0000 36.0004 56.0005 42.0007 00.0008 40.0056 31 . 30
457 08.3056 35.0004 28.0056 34 . 8056 44 .0057 09.0004 43 . 0056 45 . 2056 44 . 30
656 45.8056 38. 20 -57 26.0004 30.0056 55.0057 23.5056 57 . 5056 59 . 5057 36.2057 02.2005 18 . 5057 06.0057 39.5057 08.0005 30.0006 11.0057 18.80
-1 . 3. 3mb. 3Msz
-1 . 3-0.9
-1.3-1 .2-0.8
-0.5-1.4
-1.7-0.8-1 .3-1.6-1.4-1 . 5-1 . 2
. 7mb-2.0-1.1
. 6mb-0. 7
. 9mb
-2. 1-8.9X0.5
. 5mb X
-1.0
1 . 4. 7mb-0 . 7
-1 .5. 2mb
-1 . 91 00kmX
1 . 4. 2mb
-0.33mb X
1 .6
-1 . 81 .0
1 01 kmX
1 .50.0
4mb0.5
-12. 0X
-0.2
-1 .5-0. 1
1 .2
-1 .0
-0.3
0.0
LSZ
KR 1
BRWMBCBUL
SMYGUMO
PJGGUA1 MAJOZ
SLR
MBL
EVA
1 NK
TTAAOKK 1CCOL
Z
FBAPRYBFS
KNA
FRB
JAYSWZPME
PMRWl N
TZZMRWA
WEWBAL
KDCMBOMUN
WBN
NWAO
YKAYKC
K LG
WRA
RKG
SCH
STJSUR
LATASPA
65. 101 .2s
65.53
67 . 6667 .6768 . 76
69.3269 . 33
69.3369 . 4072. 4973.041 .0s73.481 . 3s
73.500. 7s73.711 .2s74 .260. 6s74.3974 . 4074.5974 .83
1 7s
74 .8374 . 8775.201 .0s75.260.5s75.320.8s75.4176.2077.331 .0s77.3377.361 .0s77.5277.710.4s78.3579. 190.7s79 .6279.8680.040. 9s81 .300.7s81 .320. 7s81 .5881 .600.8s81 .840. 4s81.97
82.130.8s82.320.9s
82.5482.690. 7s82.8984.211 .0s
ipPi P P '
226 iPd1 7 0 . 00nm
iiii
224 iPcipPi P P
15 eP3 iPc
223 iPciSi P ' P '
39 eP88 eP
eS88 eP88 e(P)17 eP
216 i PC1 90 . 00nm
219 i Pc +278 . 85nm
S133 eP200 . 00nm
218 iPc5 1 2 . 50nm9 iPc
277 . 00nm28
-
15
02d 07h
SIT 84 .54 14 «P 59 15. 99 1.4PMG 84.68 106 iPd 59 13.59 -1.5
e . 9s 1 68 . 07nm 5 . 9mbLMG 85.16 105 «P 59 16.90 -1.5RA8 85.52 98 «(P) 59 19.90 -9.2
IS 09 32 . 09ISO 86.12 119 !Pc 59 23.59 1.4ALOA 87.74 194 «P 59 39.90 0.1FFC 89.25 356 i PC 59 36.70 9.1
1.1s 244 . 99nm 6 . 2mbHNME 90.03 333 «P 59 40.99 9.5CTA 90.57 115 iPc 59 42.69 -9.5
1.9s 234 . 09nm 6 . 3mbi 60 69.00IS 03 44.90iScS 19 92.49i 19 25. 28
EDM 99.90 2 iPc 59 44.89 9.5pP 59 55.99 32kmX
PHC 92.01 11 «Pc 59 49.60 0.2RSON 92.27 350 «P 59 59.39 -9.3
1.9s 76 . 90nm 5 . 9mb220s 1 . 13 urn 5 . 3Msz
MNT 92.58 336 iP 59 54.40 2.3OTT 93.35 337 «P 59 55.99 -9.7RSNY 93.72 336 «P 59 58.50 1.1
1.9s 34 . 00nm 5 . 6mbZ 28s 1 . I3um 5 . 3Msz
SES 93.79 1 «P 59 57.59 -9.21.2s 219 . 90nm 6 . 4mb
LHC 93.92 347 «Pc 59 58.99 -0.3PNT 94.38 7 IP 00 00.90 -0 4
0.8s 89 . 90nm 6 . 2mbPGC 94.69 9 eP 90 92.90 9.6STK 94.74 126 «P 00 01. 00 -1.0ADE 94.91 130 i PC 99 92.99 -9.8
1.2s 62 . 59nm 5 . 9mbYKM 95.14 4 iPc 99 94.39 0.2LDM 95.57 4 iPc 00 06.30 0.3NEW 95.64 5 eP 00 06.70 0.4
2 29s 2 . 90um 5 . 7MszGMW 95.77 9 P 00 08.00 1.2BFW 96.76 10 P 00 12.40 1.0ELF 97 . 02 340 P 00 1 4 . 00 1.5LDN 97.12 340 P 00 1 4 . 20 1 . ?SHW 97.18 9 P 00 14 . 40 1.1LRM 98.33 2 ePc 00 18.60 -0.1COR 98 .61 10 iPc 00 21 . 00 1.4BRS 99. 71 117 iP 00 26 . 10 1.3
i 03 56.00RSSD 99.94 356 «P 00 26.20 0.1
0.7s 1 4 . 88nm 5 . 7mbHp| 100.41 3 Pdiff 00 29.00 1.0TOO 100.79 129 «Pdiff00 29.00 -0.5BDW 101.43 0 «Pdiff00 31.20 -1.3CAN 101.72 125 «Pdiff00 36.90 3.2XWDC 102.65 10 «(Pdif00 37.00 -0.6
«PP 05 29.00« 1 1 16 . 00ePKKP 16 35.00
MIN 103.01 10 «(Pdif00 41.90 2.5XBMN 103.41 6 «Pdiff00 41.00 -0.2MAW 103.63 183 «Pdiff00 43.00 1.7GFM 103.70 337 Pd i f f 00 43.00 0.4ORV 103.80 10 e(Pdif00 42.20 -0.6
« 1122.00«PKKP 16 35.00
DUG 103.93 3 Pd iff 00 44. 70 1.2GLD 104.36 357 «Pdiff00 46.00 0.5
2 22s 5. 56um 6 . 1MszGOL 104.42 357 «Pdiff00 46.00 0.2
2 22s 4.71um 6.0MszEUR 104.46 5 iPdiff00 47.20 1.2
0.9s 4 . 97nm 5 . 5mb:NA 105.31 7 «(Pdif00 50.00 0.3
« 1 1 29 . 00MNA 105.31 7 «PKP 05 10.80 7.6X
«pP 05 2 1 . 50BKS 105.34 11 «(Pdif00 49.00 -0.6
Z 29s 5.00um 5.9MszXN 29s 5.00umE 29s 3.20um
«PP 05 40.00eSKS 11 24.00«S 12 46.00«PPS 15 22.00«PKKP 16 27 . 00
eLO 32 14.00eLR 36 45.00
JAS1 105.54 9 e(Pdif00 49.60 -1.0e 1128.00ePKKP 16 27.00
JAS1 105.54 9 ePKP 05 05.50 2.0i pP 0516.90ePcP 06 04 . 00
FRI 106.56 9 e(Pdif00 55.30 0.3RLO 106.83 348 «Pdif
-
HRl 3.34 M6 :P 03 06.00 -6.5Y E R 3.92308iPn 0315.30 6.7JER 3.94 139 iP 03 1 5 . 50 6.6
i S 04 03 . 58PRN I 5 . 03 1 SI i P 03 36 . 20 -0.3
iS 0432.00IZM 53431*ePn 0334.00 -6.7
SO. -97 on 6of 6obs
AUG 02, 1985 09h 26m 48 1 0± 0 65s40 661 N ± 6.6km 30.045 E ± 5 5kmDEPTH - 10 0km ( geophy s i c i s t )
TURKE i ( 366)
HRT 0.33 299 i Pg 26 54.20 -0.7GPA 0 42 151 iPg 26 56.80 0.1
eSg 27 04.80ISK 0 85 299 iPg 27 03 60 -0.9
i Sg 27 1 5 30 : E 1 22 59 iPn 27 10.50 -0.3r-'~ 1 32 192 ePn 27 12.20 -0.2CS* 1 51 126 ePn 27 15.20 -6 . 1* « 1 65 :6£ iPn 27 16.70 -6.5ECC 1 69 :SB iPn 27 1 - . 50 -6.3DMK 2 0R 3d5 iPn 27 24.60 1.2tin 2 97 :5o ePn 27 36.50 0.4iZM 3.12 124 ePn 27 46 10 7.8XJMB 3 16 3*6 eP 27 4". 00 8.1XDIU 363294 eP 274700 1.5KDZ 3.6C287JP 2755.00 8.8XYER 3.78 282 ePn 27 58.80 11 1XMMfl 4.86 263 iPc 27 56 00 -7.0X
S D . - 0 6 on 11 of 16obs.
«£ AUG 02, 1985 10h 22m 31. 66s60.077H 152. 95 0 WDEPTH - 167 4km
SOUTHERN ALASKA ( 2)
1 LM 0.12 32 IP 22 46 . 14 0.9iS 22 57 .93
RDT 0.57 28 iP 22 48.29 -0.7POB 0.69 246 iP 22 49. 26 -0.7
iS 2303.12NNL 0.83 92 eP 22 51 .2* 0.0CNPM 1.C3 122 iP 22 52.56 -0.7
iS 2308.82NKA 1.03 51 eP 22 54.70 0.9BRLK 1.09 166 eP 22 53.06 -0.8SPU 1.19 : 1 i P 2254.25 -0.9
i S 2312.26CRP 1.26 18 eP 22 55.42 -0.6
eS 2314.42CGLM 1.32 20 iP 22 55.98 -0.6
iS 23 15 . 12SLKM 1.43 71 eP 22 56.49 -1.3SVW 1.68 30£ «P 22 59.53 -1.4SEW 1.75 8P «P 22 59.94 -1.9SUA 1.76 3"1 «P 23 01.38 -0.7
eS 23 24 . 27MPA 1.84 75 iP 23 01.46 -1.4SKT