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CHAPTER-V
BIBILIOGRAPHY
174
Abdul R. Memon, Diudem Aktoprakligül, Aylin .Zdemür, AnastassiiaVertiiT.Butak,;
Heavy Metal Accumulation and Detoxification Mechanisms in Plants; Turk J
Bot 25 (2001) 111-121.
Abdul, J.A. 2002. Evaluation of Drinking Water Quality in Tiruchirapalli, Tamilnadu,
Indian Journal of Environ. and Health. Vol 44 (2) : 108-112.
Abdullahi, K. and Rooyle (1972): Heavy Metal Contamination of Rivers. Bulletin
Geology, vol.22 (1 and 2) Pp 5-30.
Abernathy, C.O., Marcus, W., Chen, C., Gibb, H., Write, P., 1989. Report on Arsenic
Work Group Meeting, Office of Drinking Water, Office of Research and
Development, USEPA, Memorandum to P. Cork, P. Preuss. Office of
Regulatory Supportand Scientific Management, USEPA.
Abida Begum, M. Ramaiah, Harikrishna, IrfanullaKha and K.Veena; Heavy Metal
Pollution and Chemical Profile of Cauvery River Water; E-Journal of
Chemistry. 2009, 6(1), 47-52N. ISSN: 0973-4945.
Adelekan, B.A. and A.O. Alawode.; Contributions of municipal refuse dumps to heavy
metals concentrations in soil profile and groundwater in Ibadan Nigeria; J.
Appl. Biosci. 2011. Contributions of refuse dumps to heavy metal
concentrations in soil. Journal of Applied Biosciences 40: 2727 – 2737.
Adelekan1 B. A. and K. D. Abegunde;Heavy metals contamination of soil and
groundwater at automobile mechanic villages in Ibadan, Nigeria;International
Journal of the Physical Sciences Vol. 6(5), pp. 1045-1058, 4 March, 2011.
Adepoju-Bello, A.A. and O.M. Alabi, 2005. Heavy metals: A review. The Nig. J. Pharm.,
37: 41-45.
Adriano. D.C. (1984). Trace elements in terrestrial environment.Springer.Verlag, New
York, 1986, p. 228.
Aislabie, J. & M.W. Loutit (1986). Accumulation of Cr (III) by bacteria isolated from
polluted sediment. Marine Environmental Research, 20, 221-232.
Akoteyon, I.S., Mbata, U.A. and Olalude, G.A; Investigation of heavy metal
contamination in groundwater around landfill site in a typical sub-urban
settlement in alimosho, lagos-nigeria; journal of Applied Sciences and
Environmental Sanitation. Volume 6, Number 2 : 155 - 163 , June , 2011.
Alam, I. A., and M. Sadiq, “Metal Contamination of Drinking Water from
Corrosion of Distribution Pipes,” Environmental Pollution, Vol. 57,
No. 2, 1989, pp. 167- 178. doi:10.1016/0269-7491(89)90008-0.
Alexander, M. (1961).Introduction to Soil Microbiology, John Willey and Sons, New
York and London.
Allard, B., Arsenie, I., 1991. Abiotic reduction of mercury by humic substances in
aquatic system-an important process for the mercury cycle.Water, Air, Soil
Pollut. 56, 457–464.
Alloway B.J.. Heavy metals in doils.John Wiley and Sons, Inc. New York. 1990.
American Public Health Association - APHA, American Water Works Association -
AWWA and Water Environment Federation - WEF, 2005.Standard methods for
the examination of water and wastewater.21nd ed. Washington: American
Public Health Association. 874 p.
175
American Public Health Association (APHA), Standard Methods for the Examination of
Water and Waste Water, 20th ed., Washington D.C., 1998.
Anderson, A.R., Polansky, M.M., Bryden, N.A., Roginski, E.E., Mertz, W. & W.
Glinsmam (1983). Chromium supple mentation of human subjects: Effects on
glucose, insulin and lipid variable. Metabolism, 32, 894-899.
Anderson, R.A. (1998). Effects of chromium on body composition and weight loss.Nutr.
Rev., 56, 266-270.
Anon, 1983; Human Salmonella strains; United States (1982); Morbidity and
mortality weekly report, 32 (598-600).
Antonia Moraki. (2010) Assessment of groundwater contamination by hexavalent
chromium and its remediation at Avlida area, Central Greece*Hellenic Journal
of Geosciences, vol. 45, 175-184.
Antonia Moraki; Assessment of groundwater contamination by hexavalent chromium and
its remediation atAvlida area, Central Greece; Hellenic Journal of Geosciences,
vol. 45, 175-184.
Anusha, C.P. Nair, J.K., Jadhav, N., Vasundhara Devi, V. & Pawar, C.S. 2006. Physico-
Chemical study of ground water samples from Nacharam Industrial area,
Hyderabad, AP, India. Journal Aquatic Bio.Vol.21 (1): pp.118-120.
APHA (American Public Health Association) Standard method for examination of water
and wastewater, NW, DC 20036, 1994.
APHA, (1995); Standard Methods for Examination of Water and waste water 19ed.
American Public Health Association and Water Pollution Control Federation,
Washington D.C.
Armah Frederick Ato, Obiri Samuel, Yawson David Oscar, Pappoe Alex NiiMoi and;
Mining and Heavy Metal Pollution: Assessment of Aquatic Environments in
Tarkwa (Ghana) using Multivariate Statistical Analysis; Journal of
Environmental Statistics, February 2010, Volume 1, Issue 4.
Asmatullah, S., Qureshi, N. & A.R. Shakoori (1998).Embryotoxic and teratogenic effects
of hexavalent chromium in developing chicks of Gallus domesticus. Bull.
Environ. Contom.Toxicol., 61, 281-288.
Asogwa SE (1979). The Risk of Lead Poisoning in Battery Chargers and possible hazard
of their Occupation on the Environment. Nig. Med. J., 9(2): 189-193.
ATSDR (2000) Toxicological profile for manganese.Atlanta, GA, United States
Department of Health and Human Services, Public Health Service, Agency for
Toxic Substances and Disease Registry.
AWRC, 1991. A preliminary guide to the standard operating procedures for sampling
contaminated groundwater, Australian Water Resources Council Water
Management Committee, Occasional Paper WRMC No. 2.
Backman, B., Bodis, D., Lahermo, P., Rapant, S., &Tarvainen, T. (1997).Application of a
groundwater contamination index in Finland and Slovakia. Environmental
Geology, 36, 55–64. doi:10.1007/s002540050320.
Bakare-Odunola, M.T., 2005. Determination of some metallic impurities present in soft
drinks marketed in Nigeria. The Nig. J. Pharm., 4(1): 51-54.
176
Balasankar, T and Nagarajan, S. 2000. A Correlation Study on Physico-Chemical
Characteristics of Ground Water in and around Cuddalore, SIPCOT, Tamilnadu,
Indian J. Env.Prot.. 20(6): 427-429.
Basant Kumar Sahu (2008); Environmental Monitoring of Drinking water Sources at
Angual-Talcheru Industrial area, Algal Research loboratory. Berhampur,
Odissa.
Bean EL (1974) Potable water quality goals. Journal of the American Water Works
Association, 66:221.
Bean, E.L. Potable water-quality goals. J. Am. Water Works Assoc., 66: 221 (1974).
Behera, Sahu. 1995. Studies on Population Dynamics, Habitat Utilisation, and
Conservation aspects of Platantistagangeticabetween Bijnor and Narora, Ph.D.
thesis, submitted to Jiwaji University, Gwalior.
Bender J., J. P. Gould, Y. Vatcharapijarn, J. S. Young, P. ,; Removal of Zinc and
Manganese from Contaminated Water with Cyanobacteria Mats Author(s):
Phillips Source: Water Environment Research, Vol. 66, No. 5 (Jul. - Aug.,
1994), pp. 679-683 Published by: Water Environment Federation.
Berman, E., 1980. Toxic Metals and Their Analysis. Philadelphia, PA: Hayden and Sons.
Bertouille, S. (1978). Fertility of red deer in relation to area, age, body mass, and
mandible length, Springer Berlin, 87, 98.
BIS (Bureau of Indian Standards) 10500, Indian standard drinking water- specification,
First revision, 1991, pp 1-8.
BIS Tolerance limits for Inland surface water IS: 2296-1982 and BIS standard 2006.
BIS, (2003); Indian Standard Specifications for Drinking Water IS: 10500.
Boragohain, M., Bhuyan, B. and Sarma, H.P., 2009; Seasonal distribution of trace metals
in ground water of Dhemaji district, Assam, India; Int. Jour. of Chem.Tech.
Reaserch. Vol. 1(4). 1014-1021.
Borah K. K., B. Bhuyan and H. P. Sarma; Heavy Metal Contamination of Groundwater in
the Tea Garden Belt of Darrang District, Assam, India;ISSN: 0973-4945;
CODEN ECJHAO, E-Journal of Chemistry; 2009, 6(S1), S501-S507.
Borah K.K., Bhuyan, B and Sarma, H.P. (2009) Heavy metal contamination of Ground
water in the Tea Garden Belt of Darrang District, Assam, India, J. Chemistry,
6(S1), 501-507.
Bride Mc, M.B.: Environmental chemistry of soils. 1st Edition; Oxford University Press,
1994, 416 p.
BroniusJaskelevicius, VaidaLynikien; Investigation of influence of laps landfill leachate
on ground and surface water pollution with heavy metals; journal of
environmental engineering and landscape management 2009, 17(3): 131–139.
Brown, R. M, McClelland, N. I, Deininger, R. A.andTozer, R. G. (1970): A Water
Quality Index—Do We Dare? Wat. Sewage Wks., 339-343.
Bureau of Indian Standards (BIS), 1991.Indian standard specification for drinking water,
IS 10500, pp. 2-4.
Byragi Reddy. T., Ch. VenkataRamana, Ch. Bhaskar & P. Jagadeeshchandrababu;
Assessment of heavy metal study on ground water in and around
kapuluppadamsw site, Visakhapatnam, AP; I.J.S.N., VOL. 3(2) 2012: 468-471
ISSN 2229 – 6441.
177
Calder, L. M., 1988. Chromium Contamination of Groundwater. IN: Chromium in the
Natural and Human Environments, Vol. 20 (J.O. Nriagu and E. Nieboer,
editors). John Wiley & Sons, New York: 215-230.
Cempel M., G. Nikel., (2006). Nickel: A Review of Its Sources and Environmental
Toxicology. Polish J. of Environ. Stud. Vol. 15, No. 3, 375-382.
Cerbrian, M.E., Albores, A., Aquilar, M., Blakely, E., 1983.Chronic arsenic poisoning in
the north of Mexico.Human Toxicol. 2, 121–133.
Chakraborti, D., Basu, G.K., Biswas, B.K., Chowdhury, U.K., Rahman, M.M., Paul, K.,
Roychowdhury, T., Chanda, C.R., Lodh, D., Ray, S.L., 2001.Characterization of
arsenic-bearing sediments in the Gangetic delta of West Bengal, India. In:
Chakraborty, A.K., Saha, K.C., 1987. Arsenical dermatosis from tubewell water inWest
Bengal. Ind. J. Med. Res. 85, 326–334.
Chakroun, H., Hfaidh, N., Makni-Ayadi, F., Guermazi, F., Kammoun, A. and Elfeki, A.,
(2002).Nickel and fertility in the rat.Sexologies, 12: 1-4.
Chib, WAC.,Passerini, MD., Baio, JAF., Torres, JC. and Tundisi, JG.; Seasonal study of
contamination by metal in water and sediment in a sub-basin in the Southeast of
Brazil; Braz. J. Biol., 2011, vol. 71, no. 4, p. 833-843.
Chu, L. M., K. C. Cheung and M. H. Wong,1994. Variations in the chemical properties
of landfill leachate. Environ. Manage., 18, 105-117.
Clayton G.D., Clayton F.E., (1994). patty‘s Industrial Hygiene Toxicology, 4th ed.; A
wiley-Interscience publication: New york, pp 2157-2173.
Comber SDW and Gunn AM (1996) - Heavy metals entering sewage treatment works
from domestic sources J.CIWEM 10 137-142.
Cornell, R.M., Schwertmann, U., 1996. The Iron Oxides: Structure, Properties,
Reactions, Occurrence and Uses. VCH, New York, pp. 28–29.
Cotman, M., Zagorc-Koncan, J. & A. Zgjnar-Gotvajn. 182 Antonia Moraki Project 35 :17
2/14/11 9:00 PM Page 182(2004). The relationship between composition and
toxicity of tannery wastewater. Water Sci. Tech., 49(1), 39-46.
Cox C.R.(1964), ―Operation and control of water treatment process‖, WHO monograph.
Coynel, A., Schafer, J., Dabrin, A., Rirardot, N., & Blanc, G. (2007).Groundwater
contributions to metal transport in a small river affected by mining and smelting
waste. Water Research, 41, 3420–3428. doi:10.1016/j.watres.2007.04.019.
CPCB, 2005; Manual for water and waste water analysis. Guidelines of Central Pollution
Control Board. India.
Crapper, D.R. and Dalton, A.J. (1973). Aluminum induced neurofibrillary degeneration,
brain electrical activity, and alterations in acquisition and retention. Physiol.
Behav. 10:935-945.
Cyle Keith, Hamid Borazjani, Susan V. Diehl, Y. Su and B.S. Baldwin., (2006).Removal
of Copper, Chromium, and Arsenic by Water Hyacinths.36th Annual
Mississippi Water Resources Conference Proceedings.
D.A. 1994.Arsenic transport in surface and ground water in the Madison and upper
Missouri River Valleys, Montana.American Geophysical Union Fall Meeting,
247.
D‘Itri P.A., and F.M. D‘Itri, ―Mercury Contamination – A Human Tragedy‖, John Wiley
& Sons, New York, 1977.
178
Das K.K., S.N. Das & S.A. Dhundasi, (2008).Nickel, its adverse health effects &
oxidative stress.Indian J Med Res 128, pp 412-425.
Das, P.K. and Malik, S.B. 1988. Ground Water of Khatra Region of Bankura District,
West Bengal, Some Chemical Aspect in Reference to its Utilization. J. Indian
Water Resources Soc. 8(3): 31-41.
Dhanaselvan, M.C.K. and Lakshmanaperumalsamy, P. 1991. Physico-chemical
contamination of well water of Kanpur city. Ind. J. of Envl. Prot. 11(2), 133-
139.
Diagomanolin V., Farhang M., Ghazi-Khansari M., Jafarzadeh N., (2004).Heavy metals
(Ni, Cr, Cu) in the karoon waterway river, Iran.Toxicol.lett. 151 (1), 63.
Dimitris Dermatas, Christos Vatseris, Iraklis Panagiotakis, Maria Chrysochooud;
Potential Contribution of Geogenic Chromium in Groundwater Contamination
of a Greek Heavily Industrialized Area; Chemical Engineering Transactions
Vol. 28, 2012.
DimitrisDermatas, Christos Vatseris, IraklisPanagiotakis, Maria Chrysochoou; Potential
Contribution of Geogenic Chromium in Groundwater Contamination of a Greek
Heavily Industrialized Area; A publication of The Italian Association of
Chemical Engineering. VOL. 28, 2012; ISBN 978-88-95608-19-8; ISSN 1974-
9791.
Dinesh Kumar Tank And C. P. Singh Chandel; Analysis Of The Major Ion Constituents
In Groundwater Of Jaipur City; Report and Opinion 2010;2(5)
Drever, J.I., 1988. The Geochemistry of Natural Waters, 2nd Edition: Prentice Hall, Inc.,
Englewood Cliffs, New Jersey, 402 p.
Drill S. et al (1979)., ―The environmental lead problem, An assessment of lead in drinking
water.
Duruibe, J. O., Ogwuegbu, M. O. C. and Egwurugwu, J. N.; Heavy metal pollution and
human biotoxic effects; International Journal of Physical Sciences Vol. 2 (5),
pp. 112-118, May, 2007.
Elhoussine Derwich, Zineb Benziane, Lahcen Benaabidate and Driss Belghyti; Impact of
urban wastewaters on groundwater quality in the watershed of Middle Sebou
(Morocco); J. Black Sea/Mediterranean Environment Vol. 15:157-164 (2009).
ElhoussineDerwich, ZinebBenziane, LahcenBenaabidate and DrissBelghyti;; Impact of
urban wastewaters on groundwater quality in the watershed of Middle Sebou
(Morocco); J. Black Sea/Mediterranean Environment Vol. 15:157-164 (2009).
Environment Canada. 2001; Priority Substances List Assessment Report:
RoadSalts.HealthCanada.http://www.ec.gc.ca/Substances/ese/eng/psap/final/roa
dsalts.cfm.
Environmental Protection Agency (EPA), 2007; Framework for Metals Risk
Assessment; EPA 120/R-07/001 | March 2007 | www.epa.gov/osa.
EPA. Washington, D.C. ―Drinking water contaminants. Microorganisms‖. 2010; 09-21.
Federal Remediation Technologies Roundtable; Remediation Case Studies and
Technology Assessment Reports; fact sheet; Abstracts of Remediation Case
Studies, Volume 9, July 2005 (EPA 542-R-05-021).
Focazio M. J., Welch A. H., Watkins S. A., Helsel D. R., and Horng M. A. (1999) A
Retrospective Analysis of the Occurrence of Arsenic in Groundwater Resources
of the United States and Limitations in Drinking Water Supply
179
Characterizations. US Geological Survey, Water Resources Investigation Report
99–4279, 11pp.
Food and Agriculture Organization (FAO) (1997b). Annual Report on Food Quality
Control. 1: 11-13.
FRTR, Remediation Technologies Screening Matrix and Reference Guide; Second
Edition, October 1994, Prepared by the DOD Environmental Technology
Transfer Committee.
Garbarino, J.R., 1999, Methods of analysis by the U.S. Geological Survey National
Water-Quality Laboratory—Determination of dissolved arsenic, boron, lithium,
selenium, strontium, thallium, and vanadium using inductively coupled plasma-
mass spectrometry: U.S. Geological Survey Open-File Report 99–093, 31 p.
Garbarino, J.R., and Taylor, H.E., 1994, Inductively coupled plasma-mass
spectrometric method for the determination of dissolved trace elements in
natural water: U.S. Geological Survey Open-File Report 94–358, 49 p.
Garg, V. K., Gupta, R., Goel, S., Taneja, M. and Khurana, B. 2000.Assessment of
Underground Drinking Water Quality in Eastern part of Hisar.Indian J.
Env.Prot.. 20 (6):407-412.
Garge, D. K., Goyal, R.N. and Agarwal, V.P. 1990. Correlation Among Water Quality
parameters of Ground Water. Roorkee City.Indian J. Env.Prot.. 10(5): 355-359.
Garge, D.K., Goyal, R.N. and Agarwal, V.P. 1990. Correlation Among Water Quality
Parameters of Ground Water. Roorkee City.Indian J. Env.Prot.. 10(5) : 355-359.
Garge, D.K., Goyal, R.N. and Agarwal, V.P. 1990. Correlation Among Water Quality
Parameters of Ground Water. Roorkee City. Indian J. Env. Prot.. 10(5) : 355-
359.
Gautham D K., M R Sharma; (2011) India journal of env. Protection 31(6) 464-466.
Georgopoulos P. G., A. Roy, M. J. Yonone-Lioy, R. E. Opiekun, and P. J. Lioy., (2001)
Copper: Environmental Dynamics and Human Exposure Issues. Environmental
and Occupational Health Sciences Institute (EOHSI) Piscataway.
Ghose, N.C., and C.B. Sharma. 1992. Effect of drain water on the physic-chemical and
bacteriological characteristics of the river Ganga at Patna, Bihar. In
Environmental Impact of Sewage and Effluent Disposal on the River System,
ed. J.P. Palharya, 255-269.New Delhi, India; Wheel Publishing.
Gibson, M.J. and J.G. Farmer. (1982). ―Chemical partitioning of trace metal
contaminants in urban street dirt‖. The Science of the Total Environment, 33,
pp.49-57, 1984.
Gnanasundar. D.; Elango, L., (1998). Groundwater quality of a coastal urban aquifer.
Indian J. Environ. Protect., 18 (10), 752-757.
Gnanasundar.D and Elango. L(1999) Ground Water Quality assessment of coastal aquifer
using earth resistivity techniques, International Journal of Environmental
Hydrology, Vol.66, Paper , pp.1-8.
Gobel, P.K.; Dierkes, C. and Coldewey, W.G. 2007.Storm water runoff concentration
matrix for urban areas. J. of Contaminant Hydrology, 91(1-2), 26-42.
Goyer R. Toxic effects of metals. In: Amdur MO, Doull JD, Klaassen CD, editors.
Casarett and Doull‘s toxicology, 4th
ed. New York: Pergamon Press; 1991. p.
623-80.
180
Graham Bird Mark G. Macklin Paul A. Brewer Æ SorinZaharia Dan
BalteanuBasarabDrigaMihaelaSerban; Heavy metals in potable groundwater of
mining-affected river catchments, Northwestern Romania; Environ Geochem
Health (2009) 31:741–758.
Griffin, A.E. Significance and removal of manganese in water supplies. J. Am. Water
Works Assoc., 52: 1326 (1960).
Guidelines for drinking-water quality, 2nd ed. Vol. 2.Health criteria and other supporting
information, World Health Organization, Geneva, 1996.
Gulec, N., Gunal, B., &Erler, A. (2001). Assessment of soil and water contamination
around an ash-disposal site: a case study from the Seyitomer coal-fired power
plant in western Turkey. Environmental Geology, 40, 331–344.
doi:10.1007/s002540000228.
Guru Prasad B (2003). Physico-chemical and bacteriological quality of ground water at
TadepalliMandal of Guntur District, Andhra Pradesh. Nature Environ. Pollution
Tech. 2: 173-178.
Haber L.T., ErdreichtL., Diamond G.L., Maier A.M., Ratney R., Zhao Q., Dourson M.L.,
(2000). Hazardidentification and dose response of inhaled nickel-soluble
salts.Regul.Toxicol.pharmacol. 31, 210.
Halsted, J. et al. (1972) Zinc deficiency in man, Am. J. Med., 53 277-284
Hammer, M.J., and M.J. Hammer, Jr., 2004. Water Quality. In: Water and W aste W ater
Technology. 5th
Edn. New Jersey: Prentice-Hall, pp: 139-159.
Haniffa, M.A; Arockiasamy, S. & Martin, P. 1993. Physico-chemical and microbial
studies in the perennial river Tambaraparani for the assessment of water quality.
Indian J. of Envl.Prot, Vol.13(7), pp.533-538.
Harish Babu, K., Vijaya Kumara and Puttaiah E.T. (2006). ―Physico–chemical
characteristics of ground water at Tarikere, Karnataka, Journal of
Environmental toxicology and Environ. monitoring, Palani, Tamilnadu, 16 (2)
133-137. ISSN; 0971-0965-16-06-133.
Harrison, B.J. 1998. Copper Information Sourcebook. Vancouver, BC, Canada:
University of British Columbia.
Hart, B.T., P. Bailey, R. Edwards, K. Hortle, K. James, A. McMahon, C. Meredith, and
K. Swadling. 1991. A review of the salt sensitivity of the Australian freshwater
biota. Hydrobiologia 210:105–144.
Hegde S.N, S.C. Puranik and A.K. Abbi (1992), ‗Groundwater quality deterioration in
Hubli City area‘, in Indian Journal of Environmental Health, Vol 34, No 2, pp
138-42.
Hem, J.D., 1985, Study and interpretation of the chemical characteristics of natural water:
U.S. Geological Survey Water-Supply Paper 2254, 263 p.
Hem, J.D., 1985, Study and Interpretation of the Chemical Characteristics of Natural
Water, 3rd Edition: U.S. Geological Survey WaterSupply Paper 2254, 249 p.
Hem, John D. 1959.Study and interpretation of the chemical characteristics of natural
water.Geological Survey Water-supply Paper 1473.United States Government
Printing Office, Washington, D.C.
Heredia OS, Ferna´ndezCirelli A (2009) Trace elements distributionin soil, pore water
and groundwater in Buenos Aires, Argentina. Geoderma 149:409–414.
181
Hindmarsh, J.T., McLetchie, O.R., Heffernan, L.P.M., Hayne, O.A., Ellenberger, H.A.,
McCurdy, R.F., Thiebaux, H.G., 1977. Electromyographic abnormalities in
chronic environmental arsenicalism. J. Anal. Toxicol. 1, 270–276.
Hoekman.T., (2005). Heavy Metals Toxicology.http://www.luminethydro/heavymet;html
Heavy Metal Toxicity (HMT) Files. Heavy Metal Toxicity. http:// tuberose
.com/.html.
Holden, A.V. and R. Lloyd, (1 972). Symposium on t h v a t u r e and extent of water
pollution problems affecting inland fisheries in Europe, ElFAC technical
paper no. 16. Rome: FAO.
Hong-Zhang He, Ka-Ho Leung, Wai-Chung Fu, Daniel Shiu-Hin Chan,
Chung-Hang Leung2 and Dik-Lung Ma; Application of a DNA-
based luminescence switch-on method for the detection of
mercury(II) ions in water samples from Hong Kong; Hong-Zhang
He et al 2012 Environ. Res. Lett. 7 044032 doi:10.1088/1748-
9326/7/4/044032 .
Hong-Zhang He, Ka-Ho Leung, Wai-Chung Fu, Daniel Shiu-Hin Chan1, Chung-Hang
Leung2 and Dik-Lung Ma., 2012
; Application of a DNA-based luminescence
switch-on method for the detection of mercury(II) ions in water samples from
Hong Kong;Environ. Res. Lett. 7 044032 doi:10.1088/1748-9326/7/4/044032.
Hopps, H.C. Ecology of disease in relation to environmental trace elements —
particularly iron. Geol. Soc. Am. Spec. Pap., 340: 1 (1972).
Huang, W. H.; Poynton, C. Y.; Kochian, L. V.; and Elless, M. P. 2004, Environ. Sci.
Technol. 38: 3412-3417.
Huang, Y.Z., Quian, X.C., Wang, G.Q., Xiao, B.Y., Ren D.D., Feng, Z.Y., Wu, J.Y., Su,
R.J. and Zhang, F.E..1985. ―Endemic chronic arsenism in Xinjiang.‖ Chinese
Medical Journal, 98(3), pp. 219-222.
Hughes, M.F. 2002. Arsenic toxicity and potential mechanism of action. P. 1-6 In.
Toxicilogy letters. Vol.133.
Human health and hazards, Wisconsin Division of Public Health, 2011, Prepared by the
Wisconsin Department of Health Services.
Hussain I.; L. Raschid; M. A. Hanjra; F. Marikar; W. van der Hoek. 2002. Wastewater
use in agriculture: Review of impacts and methodological issues in valuing
impacts. (With an extended list of bibliographical references).Working Paper
37. Colombo, Sri Lanka: International Water Management Institute.
Hussein K. Okoro , Adeniyi Adeyinka, Omollo E. Jondiko, Bhekumusa J. Ximba and
Sumbu J Kakalanga; Assesment of heavy metals contamination in groundwater:
A case study of central industrial district in Ilorin, Kwara State, Nigeria;
International Journal of Physical Sciences Vol. 7(28), pp. 5078 - 5088, 19 July,
2012.
Hussein K. Okoro, AdeniyiAdeyinka, Omollo E. Jondiko, Bhekumusa J. Ximba and
Sumbu J Kakalanga; Assesment of heavy metals contamination in
groundwater: A case study of central industrial district in Ilorin, Kwara State,
Nigeria; International Journal of Physical Sciences Vol. 7(28), pp. 5078 - 5088,
19 July, 2012.
Indirabai, W.P.S. and S. George: Assessment of drinking water quality in selected areas
of Tiruchirappalli town after floods. Poll.Res., 21(3), 243-248 (2002).
182
IS: 10500, 1992; Tolerance limits, Drinking water specification:; (Reaffirmed 1993).
Isaac, RA, Gil, L, Cooperman AN, Hulme, K, Eddy, B, Ruiz, M, Jacobson, K, Larson, C,
Pancorbo, OC (1997), Corrosion in drinking water distribution systems: A
major contributor ofcopper and lead to wastewaters and effluents,
Environ.Sci.Technol., 31, 3198-3203.
Ishaku J.M, H.I Ezeigb, Seasonal variation in chromium hexavalent and copper
contamination in groundwater of Jimeta-Yola Area, Northeastern Nigeria.
Islam, R., Salminen, R., &Lahermo, P. W. (2000).Arsenic and other toxic elemental
contamination of groundwater, surface water and soil in Bangladesh and its
possible effects on human health. Environmental Geochemistry and Health, 22,
33–53. doi:10.1023/A:1006787405626.
Jadeja B.A, Odedra N.K, Thaker M.R, (2006) Studies on ground water quality of
industrial area of Dharampur, Porbandar city, Saurashtra, Gujrat, India. Plant
Archives, 6(1), 341-344.
Jain, C. K., Singhal, D. C., & Sharma, M. K. (2004). Adsorption of zinc on bed sediment
of River Hindon: Absorption models and kinetics. Journal of Hazardous
Materials, B114, 231–239. doi:10.1016/j.jhazmat. 2004.09.001.
Jain, CK., Ram, D. & Bhatia, K.K.S 1996.Evaluation of ground water quality in district
Hardwar. Ind. J. Environ. Prot. 16(1): 730-737.
Jameel, A.A. and J. Sirajudeen, 2011. Risk Assessment of physico-chemical
contaminants in groundwater of Pettavaithalai Area, Tiruchirappalli,
Tamilnadu- India. Environ. Monit. Assess., 123: 299-312. DOI:
10.1007/s10661-006-9198-5.
Jameel., Abdul., A, J. Sirajudeen and R. Abdul vahith; Studies on heavy metal pollution
of ground water sources between Tamilnadu and Pondicherry, India; Advances
in Applied Science Research, 2012, 3 (1):424-429.
Jensen, D. L. and Christensen, T. H.: 1999, ‗Colloidal and Dissolved Metals in Leachates
from Four Danish Landfills‘, Water Res. 33, 2139–2147.
Jensen, D.L., Holm. P.E. and Christensen, T.H. 2000; Soil and ground water
contamination with heavy metals at two scrap iron and metal
recycling facilities, Waste Management and Research. 18 (1); 52-
63.
Jensen, J. R. 2007. Remote Sensing of the Environment: An Earth Resource Perspective,
2nd Edition, Pearson Education. p. 450.
Jeyakumar, T, Indra. S (2003): Status of ground water quality and public health around
Tiruchendur. India. J.Env.prot. 23(3): 256-260.
Jeyaraj, T., Padmavathy, S. and Jebakumar, S.S.H. 2002. Correlation Among Water
Quality Parameters for Ground Water Samples of Bharati Nagar of
Tiruchirapalli City. Indian J. Env. Prot. 22 (7) : 755-759
Jie Liu &Xue-Hong Zhang & Henry Tran & Dun-Qiu Wang & Yi-Nian Zhu; Heavy
metal contamination and risk assessment in water, paddy soil, and rice around
an electroplating plant; Environ SciPollut Res (2011) 18:1623–1632.
Kabata-Pendias, A., Pendias, H.: Trace elements in soils and plants. 3rd edition, CRC
Press, USA, 2001, 331 p.
183
Kaplay, R.D. & Patode, H.S. 2002.Groundwater pollution due to industrial effluent
Tuppa, Near Nanded, Maharashtra, India. Environ Geol. Vol.46 (6-7): pp.871-
882.
Kaplay, R.D., Patode, H.S., and Panaskar, D.B. 1998. Ground Water Quality in an
Industrial Area of Tuppa, Nanded, Maharashtra.Poll. Res. 17 (3): 251-254.
Kargar, M. KHorasani, N. Karami, M. Rafiee, GH. Naseh, R. Ramazani, M. (2011).
Check of effect of leakaged water of Concentrated waste water from Meydook
concentration complex to changes in the concentrations of arsenic, cadmium
and copper in downstream‘s groundwater resources. First copper international
conference . Bahonar University. Kerman.
Kataria, H.C. and Iqbal, S.A. 1995.Chloride Content in Borewells (Ground Water) of
Bhopal City.Asian J. of Chemistry Reviews. Vol-6: 35-38.
Kaufman, DB et al (1970), American Jr. of Diseases of Children, 374:119.
Kaushal, S.S., P.M. Groffman, G.E. Likens, K.T. Belt, W.P. Stack, V.R. Kelly, L.E.
Band, and G.T. Fisher. 2005. Increased salinization of fresh water in the
northeastern United States. Proceedings of the National Academy of Sciences of
the United States of America, 102(38):13517–13520.
Kaushik, S., Sahu, B.K., Lawania, R.K. and Tiwari, R.K. 1999.Occurrence of Heavy
Metals in Lentic Water of Gwalior Region.Poll. Res. 18 (2): 137-140.
Kebede F. & kaba M (1999). Hygienic behaviour and environmental conditions in Jimma
town, southwestern Ethiopia. Ethiopia journal of health development 2(13).
Khabade, S. K., Mule, M. B. and Sathe, S. S. 2002. Studies on physicochemical
parameters of Iodhe water reservoir from TasgaonTeshil (Maharastra): Indian. J.
Environ and Ecoplan. 6(2): 301-304.
Khabede, S.K., Mule, M.B. and Sathe, S.S. 2002; Studies on physical chemical
parameters of lodie water reservoir from Tasgaon Teshil (Maharastra); Indian. J.
Environ and Ecoplan. 6(2); 301-304.
Kontur PJ, Fechter LD (1988) Brain regional manganese levels and monoamine
metabolism in manganese-treated neonatal rats. Neurotoxicology and
Teratology, 10:295–303.
Krauskopf, K.B. 1979. Introduction to Geochemistry, 2nd
edition. McGraw-Hill, Inc., 617
pp.
Krishnan S.S., D.R. McLachlan, A.J. Dalton, B. Krishnan, S.A. Fenton, J.E. Harrison and
T. Kruck, ―Aluminium Toxicity in Humans, Essential and toxic Trace Elements
in Human Health and Diseases‖, Alan R. Liss., New York, 1988.
Krupanidhi, K. V. J. R. (1984). Mechanism of groundwater pollution in village wells.
Journal of the Geological Society of India, 25(5), 301–302.
Kumar, V., Pal, A.K. and Saxena, N.C. 1997.Pollution Status of Aquatic System of
Central Part of Jharia Coalfield with Special Reference to Heavy Metal.Indian J.
Env. Prot. 17 (4): 248-252.
Lakshmanan, A.R., T.R. Krishna and S. Viswanathan, 1986.Nitrate and fluoride levels in
drinking waters in the Twin cities of Hyderabad and Secunderabad. Indian J.
Environ. Health, 28: 39-47.
Lamikanra A. (1999). Essential Microbiology for Students and Practitioner of Pharmacy,
Medicine and Microbiology. 2nd ed. Amkra books, Lagos, p 406.
184
Langanegger O. (1987). Groundwater Quality, An important factor for selecting hand-
pumps.BP 1850. 01, Abidjan,Cote d‘Ivoire.
Laniyan, T. A; Kehinde Phillips, O. O and Elesha.L., (2011); Hazards of heavy metal
contamination on the groundwater around a municipal dumpsite in Lagos,
Southwestern Nigeria. International Journal of Engineering & Technology
IJET-IJENS Vol: 11 No: 05.
Lansdown, A. B., (1995). Physiological and toxicological changes in the skin resulting
from the action and interaction of metal ions. Crit. Rev. Toxicol, 25: 397-462.
Lauwerys, R. (1992). Toxicologieindustrielleet intoxications professionnelles, 3e édition,
Masson, Paris, France, 693 p.
Lauwerys, R.R., 1979. Health Effects of Cadmium. In: Trace Metal: Exposure and Health
Effects. E. Di Ferrante, (Ed.). Oxford, England: PergamonPress,bpp: 43-64.
Lee, J.Y., Choi, J.C., Yi, M.J., Kim, J.W., Cheon, J.Y., Choi, Y.K., et al. (2005).
Potential groundwater contamination with toxic metals in and around an
abandoned Zn mine, Korea. Water, Air, and Soil pollution, 165, 167–
185.doi:10.1007/s11270-005-4637-4.
Legittimo P.C., L. Ghilardini and F. Pantani, Riv. Ital. Ig., 1985, 45, 1.
LEI Liang-qi, Song Ci-an, XIE Xiang-li, LI Yan-hong Wang Fei Acid mine drainage and
heavy metal contamination in groundwater of metal sulfide mine at arid
territory (BS mine, Western Australia); Trans.
Nonferrous.met.Soci.China20(2010) 1488 – 1493.
Lemo, O. O. (2002): Bacteriology Determination of Water with Long Term Storage.
Unpublished B.Sc. Project Report, UNAAB Abeokuta, pp. 40.
Lenny winkel, michael berg*, manouchehramini, stephan j. Hug and c. Annette
Johnson;2008; Predicting groundwater arseniccontamination in Southeast
Asiafrom surface parameters; nature geoscience VOL 1 AUGUST 2008
www.nature.com/naturegeoscience.
Lenny winkel, michael berg, manouchehr amini, stephan j. Hug and c. Annette Johnson;
Predicting groundwater arsenic contamination in Southeast Asia from
surface parameters; Published online: 11 July 2008; doi:
10.1038/ngeo254.
LingeswaraRao SV, SambasivaRao T, Sreenivasulu S (Dept Zoo, Sri
VenkateshwaraUniv, Tirupati 517502). Analysis of groundwater of Nellore
coast by correlation technique.Nature EnvPolln Techno, 4(4) (2005), 545-549.
Lopez desa A., 26 (207), 65 (1989).
Mahadev, J. and Siamak Gholami, 2010; Heavy metal analysis of Cauvery river water
around KRS Dam, Karnataka, India; E-journal of chemistry. 6(1): 47-52.
Mahadev. J. and SiamakGholami. 2010. Heavy metal analysis of Cauvery river water
around KRS Dam, Karnataka, India.ISSN: 0973-4945; CODEN ECJHAO E-
Journal of Chemistry 2009, 6(1), 47-52.
Makkasap T, Satapanajaru T, 2010. Spatial Distribution of Cd, Zn and Hg in
Groundwater at Rayong Province, Thailand. World Academy of Science,
Engineering and Technology 72.
Makkasap. T. and T. Satapanajaru; Spatial Distribution of Cd, Zn and Hg in Groundwater
at Rayong Province, Thailand; World Academy of Science, Engineering and
Technology 72. 2010.
185
Manjare, S. A., S. A. Vhanalakar and D. V. Muley (2010); Analysis of water quality
using physico-chemical Parameters tamdalge tank in kolhapur district,
Maharashtra. International Journal of Advanced Biotechnology and Research
ISSN 0976-2612, Vol 1, Issue 2, Dec-2010, pp 115-119;
ManjuRawat, A.L, Ramanadhan and V. Subramanian. 2009. Quantification and
distribution of Heavy metals from small scale industrial areas of Kanpur city,
India. Journal of Hazardous Waste Materials, Vol. 172, No.2-3, page 1145-
1149.
Mark, G. B., Paul A. M. Brewer. E. A., Sorin., Zaharia Dan Balteanu Basarab Drig
Mihaela Serban. 2009; Heavy metals in potable ground water of mining-
affected river catchments, Northwestern Romania; Environ.
Geochem.Health.31:741-758.
Maroof , F.B.A. ; Hadi , D.A. ; Khan , A.H. and Chowdhury , A. H., Cadmium and Zinc
concentrations in drinking water supplies of Dhaka city, Bangladesh. Sci . Total
Environ .53, 1986 : 233 - 238.
Maroof , F.B.A. ; Hadi , D.A. ; Khan , A.H. and Chowdhury , A. H., Cadmium and Zinc
concentrations in drinking water supplies of Dhaka city, Bangladesh. Sci .
Total Environ. 53, 1986: 233 - 238.
Maryam Kargar, NeamatolahKhorasani, Mahmoud Karami, Gholam-Reza Rafiee, Reza
Naseh; Study of Aluminum, Copper and Molybdenum Pollution in
Groundwater Sources Surrounding (Miduk) Shahr-E- Babak Copper Complex
Tailings Dam, World Academy of Science, Engineering and Technology 52.
2011.
Masironi, R. 1973. Water quality, trace elements, and cardiovascular disease. WHO
Chronicle, 1973. 27: 534-538.
Maxwell Ocheri and Jonathan Ogwuche; Lead in rural groundwater of Benue state,
Nigeria; Journal of Environmental Science and Water Resources Vol. 1(5), pp.
115 - 119, June 2012.
Mendie, U., 2005. The Nature of Water. In: The Theory and Practice of
Clean Water Production for Domestic and Industrial Use. Lagos:
Lacto-Medals Publishers,pp: 1-21.
Meng, X., Korfiatis, G.P., Christodoulatos, C., Bang, S., 2001. Treatment of arsenic in
Bangladesh well water using a household co-precipitation and filtration system.
Water Res. 35, 2805–2810.
Middelkoop, H. (2000), Heavy-metal pollution of the river Rhine and Meuse flood plains
in the Netherlands. Netherlands Journal of Geosciences 79/4, pp. 400–
428.
Middelkoop. H.,; Heavy-metal pollution of the river Rhine and Meuse floodplains in the
Netherlands; Geologie en Mijnbouw / Netherlands Journal of Geosciences 79
(4): 411-428 (2000).
Minnesota Pollution Control Agency., 1999; Minnesota Water Quality – Water Years
1998-1999. The 2000 Report to the Congress of the United States. St. Paul, MN.
Mishra, N.K., and Sahoo, H.K., 2003. Evaluation of Ground Water Quality in and
Around Deogarh.Indian J. Env. Prot. 23 (6) : 667-672.
Mishra, P., Behera, P., and Patel, R., (2005). Contamination of water due to major
industries and open refuse dumping in the steel city of Orissa.
186
Mittal, S.K. and Verma, N. 1997.Critical Analysis of Ground Water Quality
Parameters.Indian J. Env. Prot. 17(6):426-429.
Mohapatra, U.K. and Singh, B.C. 1998. Inorganic Anions in Drinking Water Collected
from Different Sources in the Old Capital City of Cuttack. Indian J. Env. Prot.
18(7): 532- 535.
Mohemmad Rafi K., N. Md. Akram, M. Umamahesh and T. Ramachar (2011); A
Chemical Analysis of Groundwater and Study on its Pollution Impact in and
Around Jammalamadugu Area of YSR District, Andhra Pradesh, India.
International Journal of African Studies ISSN 1451-213X Issue 4, pp.41-49.
Momodu M.A. and C.A. Anyakora; Heavy Metal Contamination of Ground Water: The
Surulere Case Study; Research Journal Environmental and Earth Sciences 2(1):
39-43, 2010.
Momodu, M. A. and Anyakora, C.A. (2010) Heavy Metal Contamination of Ground
Water: The Surulere Case Study. Research Journal Environmental and Earth
Sciences, 2(1): 39-43.
MridulBuragohain, BhabajitBhuyan and Hari Prasad Sarma; Seasonal variations of lead,
arsenic, cadmium and aluminium contamination of groundwater in Dhemaji
district, Assam, India;EnvironMonit Assess (2010) 170:345–351.
MridulBuragohain, BhabajitBhuyan, Hari Prasad Sarma; Seasonal Distribution of Trace
Metals in Groundwater of Dhemaji District, Assam, India; International Journal
of ChemTech Research, ISSN : 0974-4290; Vol.1, No.4, pp 1014-1021, Oct-
Dec 2009.
Mukherjee Sachidananda and NelliyatPrakash (2006), ―Ground Water Pollution and
Emerging Environmental Challenges: A Case Study of MettupalayamTaluk,
Tamilnadu‖, Working Paper 7/2006, Madras School of Economics, Chennai.
Murrell E. Proc. – AWWA Annu.Conf., 1985, 217.
NabanitaHaloi& H. P. Sarma; Heavy metal contaminations in the groundwater of
Brahmaputra flood plain: an assessment of water quality in Barpeta District,
Assam (India); Environ Monit Assess (2012) 184:6229–6237.
NageswaraRao, K.; Narendra, K. and Venkateswarlu, P. Assessment of ground water
quality in Meghadrigadda watershed Visakhapatnam district, A.P, India: GIS
approach. Pollution Research. 26(3),2007,pp.15-26.
Naidu, M.S., Srinivas, N. and Rao, P.V.V.P. 1998. Urban Water Quality in North Coastal
Andhra Pradesh.Indian J. Env. Prot. 18(4):273-277.
Naidu. , M.S., N. Srinivas and P.V.V.P. Rao (1997); Urban Water quality in north-
coastal Andhra Pradesh. Indian Journal of Environmental Protection 18, 273 –
277.
Narayana AC, GC Suresh (1989) Chemical quality of groundwater of Mangalore city,
Karnataka. Indian Journal of Environmental Health. 31:228-236.
Nasrullah, RafiaNaz, HamidaBibi, MudassarIqbal and M. IlyasDurranipollution load in
industrial effluent and ground water of gadoonamazaiinduatrial estate (gaie)
swabi, nwfp; Journal of Agricultural and Biological Science. Vol. 1, NO.3,
September 2006 ISSN 1990-6145.
Naudet, V., A. Revil, E. Rizzo, J.Y. Bottero and P. Begassat., 2004; Ground water redox
conditions and conductivity in a contaminant plume from geoelectrical
investigations; Hydrology and earth Systems Sciences, 8(1), 8-22.
187
Needleman, H.L., 1993. The current status of childhood low-level lead
toxicity.Neurotoxicology, 14: 161-166.
Nelson Dennis., 2002; Natural Variations in the Composition of Groundwater; Presented
at Groundwater Foundation Annual Meeting November, 2002.
Nimick, D.A., Moore, J.N., Dalby, C.E. &Savka, M.W. (1998) The fate of geothermal
arsenic in the Madison and Missouri Rivers, Montana and Wyoming. Water
Resource Res., 34,3051–3067.
Nimick, D.A. 1994. Arsenic transport in surface and ground water in the Madison and
upper Missouri River Valleys, Montana.American Geophysical Union Fall
Meeting, 247.
Niragu, J.O..Copper in the environment. Wiley, New York. 1979.
Nkansah Asantewah Marian, Ofosuah Juliet and Boakye Sandra (2011) Quality of
Groundwater in the Kwahu West District of Ghana. Environmental Research
Journals 5 (2): 31-37.
Nolte, J. 1988. Pollution source analysis of river water and sewage sludge. Environ.
Technol. Lett. 9:857-868. ICA no.N-520.
Nouri J., A. H. Mahvi, A.A. babaei, G.R. Jahed and E. Ahmadpour., 2006; Investigations
of heavy metals in ground water; Pakistan Jorna; of Bilogical Sciences 9(3):
377-384.
Nouri, J.; Mahvi, A. H.; Babaei, A.; Ahmadpour, E., (2006). Regional pattern distribution
of groundwater fluoride in the Shush aquifer of Khuzestan County Iran.
Fluoride, 39 (4), 321-325 (5 pages).
Nriagu, J. O. 1979. Copper in the Environment. John Wiley & Sons, Inc. New York.
Nriagu, J. O., 1988b. Production and Uses of Chromium.IN:Chromium in the Natural and
Human Environments, Vol. 20 (J.O. Nriagu and E. Nieboer, editors). John
Wiley&Sons,New York: 81-104.
Odukoya A. M.; A. F. Abimbola; Contamination assessment of surface and groundwater
within and around two dumpsites Int. J. Environ. Sci. Tech., 7 (2), 367-376,
Spring 2010. ISSN: 1735-1472.
Odukoya A. M.; A. F. Abimbola; Contamination assessment of surface and ground water
within and around two dumpsites; Int. J. Environ. Sci. Tech., 7 (2), 367-376,
Spring 2010.
Ololade, I.A.1*, Adewunmi, A.1 Ologundudu, A.2and Adeleye, A.; Effects of household
wastes on surface and underground waters; International Journal of Physical
Sciences Vol. 4 (1), pp. 022-029, January, 2009.
Olusegun Peter Abiola; Lead and coliform contaminants in potable groundwater sources
in Ibadan, South-West Nigeria, Journal of Environmental Chemistry and
Ecotoxicology Vol. 2(5), pp. 79-83, June 2010.
Orisakwe, O.E., I.O. Igwilo, O.J. Afonne, J.U. Maduabuchi, E. Obi and J.C. Nduka,
2006. Heavy metal hazards of sachet water in Nigeria. Arch. Environ. Occup.
Health, 61(5): 209-213.
Oyeku O. T. and A. O. Eludoyin.2010 Heavy metal contamination of groundwater
resources in a Nigerian urban settlement; African Journal of Environmental
Science and Technology Vol. 4(4), pp. 201-214, April 2010.
Ozha, D.D.; Varshney, C.P. and Bohra, J.L.1993. Nitrate in ground waters of some
districts of Rajasthan, Ind. J. Envl. Hlth. 35(1), 15-19.
188
Padmavathy, S., Rajendran, T. Ramachadramurthy, T. and Priyadharsini S. 2003.A
Measure of Pollution Load in Lake Water on the Basis of WQI and NSF
Suggestions.Indian J. Env. Prot. 23 (6): 654-659.
Palmer, C.D. and P.R. Wittbrodt, 1990.Geochemical Characterization of the United
Chrome Products Site, Final Report. IN: Stage 2 Deep Aquifer Drilling
Technical Report, United Chrome Products Site, Corvallis, OR, September 28,
1990, CH2M Hill, Corvallis, OR.
Palmer, C.D. and P.R. Wittbrodt, 1991.Processes Affecting the Remediation of
Chromium-Contaminated Sites. Environmental Health Perspectives, 92: 25-40.
Pande, N. and Singh, B.C. 1996. Trace Metals in Drinking Water from Different Sources
in Port City of Paradeep. Indian J. Env. Prot. 16(11): 824-827.
Parisic A.F. and B.L. Vallee, American Journal of Clinical Nutrition, 1969, 22, 1222.
Pastor, J., Aparicio, A. M., Gutierrez-Maroto, and Hernandez, A. J.(2007). Effects of two
chelating agents (EDTA and DTPA) onthe autochthonous vegetation of a soil
polluted with Cu, Znand Cd. Sci. Total Environ., 378: 114-118.
Patel, M. K., Mohanty, K., Tiwary, T.N. and Patel, T. K. 1994. Assessment of the Quality
of Ground Water in Rourkela Industrial Complex: Part-I Physico Chemical
Parameters in Rural Area. Indian J. Env. Prot. 14(5):373-379.
Patil V.T. and P. R. PATIL., (2010); Physicochemical Analysis of Selected Groundwater
Samples of Amalner Town in Jalgaon District, Maharashtra, India; E Journal of
Chemistry; 2010, 7(1), 111-116.
Patil, V.T. & Patil, P.R. 2010. Physicochemical Analysis of Selected Groundwater
Samples of Amalner Town in Jalgaon District, Maharashtra, India. E-Journal of
Chem. 7(1): 111-116.
PawarAnusha C, Nair Jithender Kumar, JadhavNaresh, Vasundhara Devi V,PawarSmita
C (Dept Zoo, UnivColl Women, Osmania Univ, Koti, Hyderabad
500195).Physico-chemical study of ground work samples from Nacharam
Industrial area,Hyderabad, Andhra Pradesh, India. J Aquatic Bio, 21(1) (2006),
118-120.
Peavy, H.S., Rowl, D.R. and Techobunglons, G. 1986.Environmental Engineering. M.C.
Graw Hall Book Company. New Delhi.
Peckenham J.M., Kahl J.S., Mower B. Background mercury concentrations in river water
in Maine, U.S.A. Environ. Monit. Assess. 89, 129, 2003.
Pelig-Ba, K.B., A. Parker and M. Price, 2004. Trace element geochemistry from the
birimian metasediment of the northern region of Ghana. Water, Air
Soil Pollut., 153: 69-93.
Pelig-Ba, K.B., C.A. Biney and L.A. Antwi, 1991. Trace metal concentrations in
borehole water from the Upper regions and the Accra Plains of
Ghana. Water, Air Soil Pollut., 59: 333- 345.
Perwak, J., Bysshe, S., Goyer, M., Nelken, L., and Scow, K. 1980. Exposure and Risk
Assessment for Copper. Washington, DC, USA: Office Water Regul. Stand.,
Environmental Protection Agency. ICA no.P-477.
Peter, A. K. 1974 Sources and Classification of Water Pollutants, In: (N. Irving Sax, Edn)
Industrial Pollution, Van Nostrand Reinhold Company.
189
Pickering, I. J.; Prince, R. C.; George, M. J.; Smith, R. D.; George, G. N.; and Salt, D. E.
2000. Reduction and Coordination of Arsenic in Indian Mustard. Plant
Physiology. 126: 1171-1177.
Poonam T, Buddi D, Rubina C, Sawhney RL (2000) Degradation of ground water quality
due to heavy metals in industrial areas of India-A review, Indian. J Environ Prot
20:174–181.
Poonkothai, M., Parvatham, R., 2005.Bio-physico and chemical assessment of
automobile wastewater, Journal of Industrial Pollution Control, 21 (2), pp 377-
380.
Potawary, K. and Bhattacharya K.G. 2005.Evaluation of drinking water quality of coal
mining area, Assam. Ind. J. of Envl. Prot., 25(3).204-211.
Prakash, K.L and R.K. Somasekhar, 2006.Ground water quality assessment in
AnekalTaluk., Banglore urban dist. Ind. J. of Envi.Biology. 27(4): 633-637.
Prakashan, V.R. 2004. Ground Water Quality of Kerala With Special Reference to
Kollam District. NIT, Rourkela. PMIP. 2004. Page No. 202-204.
Puthiyasekar, M. A. Neelakantan and S. Poongothai; Heavy Metal Contamination in
Bore Water due to Industrial Pollution and Polluted and Non Polluted Sea
Water Intrusion in Thoothukudi and Tirunelveli of South Tamil Nadu, India;
Bull Environ ContamToxicol (2010) 85:598–601.
Rabinove, C.L., R.H., Longford and J.W., Brookhart: Saline water resources of North
Dakota, US Geog. Sur. Water Supply Paper 1428. p. 72 (1958).
Rahman, M.M., Mandal, B.K., Roychowdhury, T., Sengupta, M.K., Chowdhury, U.K.,
Lodh, D., Chanda, C.R., Basu, G.K., Mukherjee, S.C., Saha, K.C., Chakraborti,
D., 2003. Arsenic groundwater contamination and sufferings of people in North
24-Parganas, one of the nine arsenic affected districts of West Bengal, India. J.
Environ. Sci. Health A 28, 25–59.
Raja. G and P. Venkatesan., 2010. Assessment of groundwater pollution and its impact in
and around punnam area of Karur District, Tamilnadu, India. E-Journal of
Chemistry, Vol.7(2) pp.473-478.
Rajankar., P.N., Gulhane., S.R.Tambekar., D.H & Ramteke., d.S., 2009. Water quality
assessment of groundwater resources in Nagpur Region based on WQI; E-
Journal of Chemistry, Vol.6 (3) pp.905-908.
Ramachandra moorthy, T; Paulraj, A.; Sivaraj, C; Kavitha, B. & Bhuraneswari, P. 2004.
Fluoride Ion Concentration in the ground water of Tirchirapali district,Tamil
Nadu. J. Ecotoxicol Environ .monit. Vol.14 (2): pp.147-150.
Ramachandra Murthy, T., Jeyakar, D.A., Chellaraj, R., Edison Raja, T.,Venkatachalam,
R., Sangeetha, Sivaraj, C., 2003. Fluoride estimationin potable water in
Tiruchirapalli Rock-Port Area – dental Xuorosissurvey and deXuoridation with
Emblicaphyllanths. IJEP 239 (3), 317–320.
Ramakrishnaiah C. R., C. Sadashivaiahand G. Ranganna. 2009; Assessment of Water
Quality Index for the Groundwater in TumkurTaluk, Karnataka State, India E-
Journal of Chemistry 2009, 6(2), 523-530.
Ramakrishnaiah C. R., C. Sadashivaiah and G. Ranganna, (2009). Assessment of Water
Quality Index for the Ground Water in TumkurTaluk, E-Journal of Chemistry,
Vol. 6, No.2, pp. 523-530.
190
Ramaswami, V. and Rajaguru, P., (1991) Studies on ground water quality of Madras,
Indian J. Environ.Hlth., 3 J. Environ.Hlth., 33, pp. 481-4867.
Rambabu, C. Rao, B. S. Singanam, M., Ramchnandran, D. and Rao, K. S.
1998.Statistical Studies on the Water Quality Parameters of Chirala Town Open
Wells, Indian J. Env.Prot.18(3):203-205.
Ramesh R. & G. R. Purvaja and Raveendra V. Ika; The problem of groundwater
pollution: a case study from Madras city, India, Man's Influence on Freshwater
Ecosystems and Water Use (Proceedings of a Boulder Symposium, July 1995).
IAHS Publ. no. 230, 1995.
Rana, B.C. and Palria, S. (1988). Assessment, Evaluation and Abatement studies of a
polluted river Bandi (Rajasthan). In Ecology and Pollution of Indian Rivers (Ed.
R.K. Trivedy) pp. 345-359, Ashish Publishing House, NewDelhi.
Rani, D.F.G., Getha, S. and Ebanazar , J. 2003. The Drinking Water Quality
Characteristics of Five Rural Places in and Around Thittagudi, Tamilnadu,
India, Poll Res. 22 (1): 111-115.
Rao, K. S., Prasad, V. V. D.N. Rao, B. S. Rao, M., Kisku, M. and Rambabu, C.
1991.Monitoring the Ground Waters of MusnurMandal, Krishna District, A.P.
Poll. Res.10 (3): 165 – 171.
Rao, K. S., Rao, L.V., Padmavathy, D. and Rambabu, C. 1992. Ground Water Quality in
ChallapalliMandalam.Indian J. Env.Prot.. 2(5):341.347.
Rao, N. and Nagaprapurna. 2005. Statistical Analysis of ground water quality parameters
in an industrial area of Hyderabad. Nature Environmental pollution Technology
4(1): 139-142.
Rao, N.S., and Prasad, P.R. 1997; Phosphate pollution in ground water of lower
Vamsadhra river basin, India. Environ Geo. 31(1-2): 117-122.
Ravichandran, S. and Pundarikanthan, N.V. 1991.Studies of ground water quality of
Madras Ind. J. of Envl.Hlth., 33(4), 481-487.
Raviprakash and Krishna, Rao, G. 1989. The Chemistry of Ground Water in Pravada area
With Regard to their Suitability for Domestic and Irrigation Purpose. Indian J.
Geochem. 4(1): 39 – 54.
Rengaraj, S. 1996. Ground Water quality in Suburban regions of Nmadras City.Poll.
Res., 15 (4): pp.325-328.
Renn, C.E.: Investigating water problems. Educational products division, La
Moltechemical products company, Maryland (1970).
Rizwan Ullah, RiffatNaseem Malik and Abdul Qadir; Assessment of groundwater
contamination in an industrial city, Sialkot, Pakistan; African Journal of
Environmental Science and Technology Vol. 3 (12), pp. 429-446, December,
2009.
Rodier, J., Bazin, C., Broutin, J.P., Chambon, P., Champsaur, H., Rodi, L.
(1996).L'analyse de l'eau: eauxnaturelles, eauxrésiduaires, eaux de mer. Paris:
Dunod, 8e éd; 1 383 p.
Rooney, C.P., RG. McLaren and R.J. Creswell. 1999. Distribution and
Phytoavailability of Lead in a Soil Contaminated With Lead Shot.
Water, Air, and Soil Pollution 116:535- 548.
191
Roychowdhury T, Tokunaga H, Ando M. Survey of arsenic and other heavy
metals in food composites and drinking water and estimation of
dietary intake by the villagers from an arsenic-affected area of
West Bengal, India. Sci Total Environ 2003; 308:15 –35.
Roychowdhury, T., 2008a. Impact of sedimentary arsenic through irrigated groundwater
on soil, plant, crops and human continuum from Bengal delta: special reference
to raw and cooked rice. Food Chem. Toxicol. 43, 2856–2864.
Roychowdhury, T., Uchino, T., Tokunaga, H., Ando, M., 2002b.Survey of arsenic infood
composites from an arsenic-affected area ofWest Bengal, India.Food Chem.
Toxicol. 40, 1611–1621.
Sadiq M. and I. Alam. 1996; Lead contamination of groundwater in an industrial
complex;Water, Air, and Soil Pollution 98: 167-177, 1997.
Salmasi R. and A. Tavassoli; Pollution of south of Tehran ground waters with heavy
metals; Int. J. Environ. Sci. Tech. Pollution of south of Spring 2006, Vol. 3, No.
2, pp. 147-152.
Salmasi, R. - Tavassoli, A. 2006. Pollution of south of Tehran ground waters with heavy
metals. In International journal of Environmental Science and Technology,
vol. 3, 2006, p. 147–152.
Sameer. V. Yamakanamardi, Hampannavar. U.S, Purandara. B. K., 2011; Assessment of
Chloride Concentration in Groundwater: A Case Study for Belgaum City;
International Journal of Environmental Sciences Volume 2 No.1.
Samir M. Saeed and Ibrahim M. Shaker ;Assessment of heavy metals pollution in water
and sediments and their effect on oreochromisniloticus in the northern delta
lakes, Egypt. 8th International Symposium on Tilapia in Aquaculture 2008.
Sarma,V.V.J. and Swamy, A. N. Ground water quality in Visakhapatnam basin, India.
Jour. Water, air and Soil pollution. 16, 1981, pp 317-329.
Schock MR, Neff CH. 1988. Trace metal contamination from brass fittings. J Am
Waterworks Assoc 80:47-56.
Schwartz, F.W., & Zhang, H. (2003).Fundamentals of groundwater (p. 583). New York:
Wiley.
Scott-Fordsmand J.J., (1997). Toxicity of nickel to soil organisms in Denmark. Rev.
Environ. Contam.Toxicol.148, 1.
Shahabpour J, Doorandish M (2008) Mine drainage water from the Sarcheshmeh
porphyry copper mine, Kerman, IR Iran. Environ Monit Assess 141: 105—120.
Shahabpour J., and M. Doorandish,. (2008) ―Mine drainage water from the SarCheshmeh
porphyry copper mine, erman, IR Iran‖. Environmental Monitoring Assessment,
141, pp.105-120.
Sharma, R. S., & Al-Busaidi, T. S. (2001). Groundwater pollution due to a tailings
dam.Engineering Geology, 60, 235–244.doi:10.1016/S0013-7952(00)00104-6.
Sing, R.P., Chauhan, B.S., Devendra S. and Yadav, Y. S. 2000. Seasonal variation in
ground water quality of Agra City Indian. J. Env. Prot., 42(2):59-69.
Singanan M, & Rao KS, (1996) IJEP, 16 (3): 171.
Singh, A.K., S. Bhagowati, T.K. Das, D. Yubbe, B. Rahman, M. Nath, P. Obing, W. S.
K. Singh, C. Z. Renthlei, L. Pachuau and R. Thakur;Assessment Of Arsenic,
192
Fluoride, Iron, Nitrate And Heavy Metals In Drinking Water Of Northeastern
India.
Singh, S.P., Khare, P., Satsangi, G.S., Lakhani, A,,Maharajkumari and Srivastava, S.S.
(2000). Rain watercomposition at a remote semi arid site of India.
Poll.Res.1911):99-105.
Sivakumar R, Mohanraja R, Azeez PA (2000). Physico-chemical analysis of high
altitude water source of Ooty, South India. Pollution Res. 19(1):143-146.
Skalsky, H.L. and Carchman, R.A (1983).Aluminum homeostasis in man. J. Am. Col.
Toxicol. 2(6):405-423.
Smedley, P.L., Edmunds, W.M., &Pelig-Ba, K.B.(1996). Mobility of arsenic in
groundwater in the Obuasigoldmining area of Ghana: some implications for
human health. In Appleton, J.D., Fuge, R. & McCall, J.H. (Eds.), Environmental
geochemistry and health (Geology Society special publication No. 113).
Sohani, D., Pande, S., and Srivastava, V.S. 2001. Ground Water Quality at Tribal Town
Nandurbar (Moharashtra) Indian, J. Environ and Ecoplan. 5(2): 475-479.
Somashekar, R. K. Rameshaiah, and Suvarna, A.C. 2000.Ground Water Chemistry of
ChannapatnaTaluk (Bangalore Rural District) Regression and Cluster
Analysis.Journal ofEnvironment and Pollution. 7(2): 101-109.
Somasundaram MV, Ravindran G and Tellam JH (1993);Groundwater pollution of the
Madras urban aquifer, India. Groundwater. 31, 462-467.
Sood A, Singh KD, Pandey P, Sharma S (2008). Assessment of bacterial indicators and
physicochemical parameters to investigate pollution status of Gangetic
river system of Uttarakhand (India). Ecol. Indicators, 8: 709-717.
Stamatis, G., Voudouris, K., &Karefilakis, F. (2001).Groundwater pollution by heavy
metals in historical mining area of Lavrio, Attica, Greece.Water, Air, and Soil
pollution, 128, 61–83.
Stednick, J.D. 1991. Purpose and need for reactivating the Alsea Watershed Study, pp.
84–93. In: The New Alsea Watershed Study. Technical Bulletin 602.National
Council of the Paper Industry for Air and Stream Improvement, Inc., New York,
NY.
Stumm, W., Morgan, J., 1996.Aquatic Chemistry.Chemical Equilibria and Rates in
Natural Waters.Third Edition.ISBN 0-471-51184-6.
Subba Rao, C. & Subba Rao N. 1993. Chemical quality of groundwater in the industrial
zones of Visakhapatnam. International Seminar of Hydrology held at
Kathmandu, Nepal, April pp.19-21.
Subba Rao, N. 1983. Hydrogeology and Hydro-geochemistry of Visakhapatnam basin,
India. J. water, Air and Soil pollution. 16: 317-329.
Subba Rao, N. and Krishna Rao, G. (1988). Trace Elements in Drinking Waters of
Visakhapatnam Area, Andhra Pradesh. Geophysical Research Bulletin, 26(4),
140-144.
SubbaRao N (2008). Factors controlling the salinity in groundwater in parts of Guntur
district, Andhra Pradesh, India. Environ. Monit. Assess 138:327-341.
SubbaRao N (2009).Fluoride in groundwater, Varaha river Basin, Vishakapatnam
district, Andhra Pradesh, India. Environ. Monit. Assess 152:47-60.
193
SubbaRao N, Gurunadhi VVS, Guptha CP (1998).Ground water pollution due to
discharge of industrial effluents in Venkatapuram area.Visakhapatanam, A.P.
India. Environ. Geol. 33(4):289-294.
SubbaRao, N. (1993). Environmental impact of industrial effluents in groundwater
regime of Visakhapatnam industrial complex. Indian Journal of Geology, 65,
35–43.
SubbaRao, N., & Krishna Rao, G. (1990).Intensity of pollution of groundwater in
Visakhapatnam area, Andhra Pradesh. Journal of the Geological Society of
India, 36, 670–673.
SubbaRao, N., &Madhusudhana Reddy, P. (2006).Monitoring the groundwater quality in
an urban area –An environmental impact assessment and management. Journal
of Applied Geochemistry, 8, 37–56.
Sudhakar MR, Mamatha P (2004). Water quality in sustainable water management, Curr.
Sci., 87(7): 942- 947.
SumanMor, KhaiwalRavindra, R. P. Dahiya and A. Chandra., 2006; Leachate
characterization and assessment of groundwater pollution near municipal solid
waste landfill site; Environmental Monitoring and Assessment, 118: 435–456.
Sumino K et al. (1975) Heavy metals in normal Japanese tissues.Amounts of 15 heavy
metals in 30 subjects. Archives of Environmental Health, 30:487–494.
Tannery effluents in relation to soil and water- A case study from Peshawar, Pakistan.
Journal of Environmental Management 2006; 79: 20-9.
Tariq, S.R., Shah, M.H., Shaheen, N., Khalique, A., Manzoor, S. and Jaffar, M.
Multivariate analysis of trace metal levels in
The Clean Water Team Guidance Compendium for Watershed Monitoring and
Assessment, Version 2.0. Division of Water Quality, California State Water
Resources Control Board (SWRCB), Sacramento, CA.‖
The Washington Times (2005). Heavy Metals. http://washingtontimes.com/ metro0530-
94712-9017. Html.
Thienes, C., and T.J. Haley.Clinical Toxicology. 5th ed. Philadelphia: LeaandFebiger,
1972. 169.
Thomas H.G. et al., Nature, 1979, 282, 712.
Tipton IH, Cook MJ (1963) Trace elements in human tissue. Part II. Adult subjects from
the United States. Health Physics, 9:103–145.
Tiwari, S.N., Bhattacharya, S. and Kumar, P. 2002. Comparative Assessment of Drinking
Water Quality of Residential Colony and Some Other Selected Sources in the
Municipal Corporation of Ranchi.Indian J. Env. Prot. 22 (9) : 978-985.
Tiwari, T.N. and Manzoor Ali.(1988). Water quality index for Indian rivers.In:Ecology
and Pollution of Indian rivers.pp:271–286. Ashish Publishing House, New
Delhi.
Towill LE et al. (1978), Review of the environmental effects of pollutants, III chromium,
Cincinnati, US Dept. of Commerce, National Technical Information Service
(PB-282-796).
Trivedi, R. K. and Goel, P. K. (1984) Chemical and biological methods for water
pollution studies Karad Environmental Publication, pp. 1-251.
Trivedi.P, and P.K. Goel (1986); Chemical and Biologiccal methods for water pollution
studies.Environment Publications pp.215.
194
Tyagi, P., Buddhi, D., Choudhary, R, and Sawhney, R.L. 2000.Physico-Chemical Quality
of Ground Water in Industrial Areas of India. A Review, Poll, Res-19(3):443-
455.
U.S. Environmental Protection Agency. 1999. Special Report on Ingested Inorganic
Arsenic Skin Cancer: Nutritional Essentiality In. Report EPA/625 3-87-13.
UN WWAP. 2003. United Nations World Water Assessment Programme. The World
Water Development Report 1: Water for People, Water for Life. UNESCO:
Paris, France.
Underwood E.J., ―Trace Elements in Human and Animal Nutrition‖, Academic Press,
New York, 1977.
UNICEF, 1999.Arsenic Mitigation in Bangladesh - Mediabrief.United Nations Children's
Fund (UNICEF), New York.
United Nations Development Programme (UNDP). Human Development Report 2006.
Beyond Scarcity: Power, poverty and the global water crisis. 2006.
USEPA (1984) Health assessment document for manganese. Cincinnati, OH, United
States Environmental Protection Agency, Environmental Criteria and
Assessment Office (EPA-600/8-83-013F).
USEPA (US Environmental Protection Agency), 1980; Ambient Water
Quality Criteria for Lead, US Environmental Protection Agency,
Washington DC.
Vasilatos Ch., Megremi I. and Economou-Eliopoulos M; Geochemical characteristics of
natural waters contaminated by hexavalent chromium, in eastern stereahellas,
Greece; Scientific Annals, School of Geology, Aristotle University of
Thessaloniki Proceedings of the XIX CBGA Congress, Thessaloniki, Greece
Special volume 99 347-353;Thessaloniki 2010.
VeenaChoudary, Mukesh Kumar, Mukesh Sharma, and B. S. Yadav. 2010. Studies on
fluoride Boron and Nitrate toxicity in ground water of Nw Rajasthan, India.
Environmental Monitoring and Assessment.Vol: 161, No. 1-4 pp 343-348.
Venugopal, B. and T.D. Luckey. 1978. Metal Toxicity in Mammals-2. Chemical Toxicity
of Metals and Metalloids.Plenum Press. pp. 104-112.
Vijay Kumar, V., Sai, C.S.T., Swami, M.S.R. and Rao, P.L.K.M. (1993) Nitrates in
groundwater sources in Medchal block of Andhra Pradesh. Indian journal of
Environmental Health,35:40–46.
Vincent, J.B. (2000). The biochemistry of chromium. J. Nutr., 130, 715-718.
Viswanadham, V. and Murali, M. 1996.Analysis of ground water pollution at Pedana, A
case study.Ind. J. Envi. Prot., 16(7), 502-504.
Wagner, B. J. And S.M. Gorelick. (1987) Optimal ground water quality management
under parameter Uncertinity, Water Resources research Vol. 23 no. 7. Pp 1162-
1174.
Walton R. Kelly, Samuel V. Panno and Keith Hackley., 2012; The Sources, Distribution,
and Trends of Chloride in the Waters of Illinois.
Wang, Z., Yan, C. and Yan, Q.P.Y., 2011; Concentrations of some heavy metals in water
suspended solids and biota species from Maluan Bay, China and their
environmental significance. Environ. monit. Assess.175:239-249.
Water Quality Standard.Indian Standard. Drinking Water - Specification. IS 10500
: 1991. Technical Terms. BIS (Bureau of Indian Standards).
195
Weber, W.J. Jr. and W. Stun: Mechanism of hydrogen ion buffering in natural waters. J.
Amer. Water Works Assn., 55, 1553-1558 (1963).
Weiner, E.R. (2000). Applications of Environmental Chemistry: a practical guide for
environmental professionals. CRC Press: Florida, USA.
Welch, A.H., Westjohn, D.B., Helsel, D.R., Wanty, R.B., 2000. Arsenic in groundwater
of the United States: occurrence and geochemistry. Ground Water 38, 589–604.
WHO (1981) Arsenic (Environmental Health Criteria 18), Geneva, International
Programme on Chemical Safety.
WHO (1996). Health criteria and other supporting information; second ed. Guidelines
for drinking water quality, Vol.2.World Health Organisation. Geneva.
Switzerland.
WHO (1998) Guidelines for Drinking-water Quality, 2nd Ed., Vol. 2, Health Criteria and
Other Supporting Information, Geneva.
WHO (2000) Guidelines for Drinking-water Quality Training Pack
[http://www.who.int/water_sanitation_sanitation_health/Training_mat/GDWQtr
aining.htm]
WHO (2001) Arsenic and Arsenic Compounds (Environmental Health Criteria 224), 2nd
Ed., Geneva, International Programme on Chemical Safety.
WHO (World Health Organization) (1972). Technical report series No.55 (Evaluation of
certain food additives and contaminant: mercury, lead and cadmium). Pp 20-35.
WHO (World Health Organization) (1973). The Hazards to health and ecological effects
of persistent substances in the environment: report of a working group. WHO
regional office for Europe. Pp 120-135.
WHO (World Health Organization) (1977). Lead. In: Environmental Health criteria.
Geneva Vol.3, Pp 65-80.
WHO (World Health Organization) (1979). Guidelines for Canadian water quality.
Quebec, supporting documentation vol.1.Pp 60-71.
WHO (World Health Organization) (1980). Technical Report series, No.647 In:
Recommended health-based limits in occupational exposure to heavy metals. Pp
45-60.
WHO (World Health Organization) (1984).Guidelines for drinking water quality vol.2 Pp
80-95.
WHO (World Health Organization) (1992). Environmental health criteria 134: cadmium.
Pp 170-180.
WHO (World Health Organization) (2002). Technical Report #3 Review of Data in
heavy Metals in ambient air in Australia. Pp 116-120.
WHO (World Health Organization) Guidelines for drinking water quality, 2nd Ed., 1993,
Vol. 1, p 188.
WHO, (1996); Guidelines for Drinking Water Quality, Vol.3, 2nd
ed. WHO. Geneva.
WHO, 1981.Task Group on Environmental Health Criteria for Arsenic. Environmental
Health Criteria 18. World Health Organization, Geneva, pp. 1.
WHO, 1993. Guidelines for Drinking Water Quality, Recommendation, vol. 1., 2nd
ed.
World Health Organization, Geneva, p. 41.
WHO, 2000. Hazardous Chemicals in Human and Environmental Health: A Resource
Book for School, College and University Students. World Health Organisation,
Geneva.
196
WHO, 2004. Guidelines for Drinking-Water Quality, Recommendations, vol. 1., 3rd
ed.
World Health Organization, Geneva.
WHO, 2007.Water for Pharmaceutical Use. In: Quality Assurance of Pharmaceuticals: A
Compendium of Guidelines and Related Materials. 2nd Updated Edn. World
Health Organisation, Geneva, 2: 170-187.
Wilcox, D. A. 1986a.The effects of deicing salts on water chemistry in Pinhook Bog,
Indiana. Water Resources Bulletin 22:57–65.
Williams, M., 2001. Arsenic in mine waters: an international study. Environ. Geol. 40,
267–278.
Williams, M., Fordyce, F., Paijitprapapon, A. and Charoenchaisri. 1996. ―Arsenic
contamination in surface drainage and groundwater in part of the southeast
Asian tin belt, Nakhon Si Thammarat Province, Southern Thailand.‖
Environmental Geology, 27, pp.16-33.
Wolfe, R.S. Microbial concentration of iron and manganese in water with low
concentrations of these elements. J. Am. Water Works Assoc., 52: 1335 (1960).
Woo, N.C., Choi, M.J., & Lee, K.S. (2002). Assessment of groundwater quality and
contamination from uraniumbearing black shale in Goesan-Boeun areas, Korea.
Environmental Geochemistry and Health, 24, 261–273.
doi:10.1023/A:1016010626263.
World Health Organization (2005), Nickel in Drinking-water Background document for
development of WHO Guidelines for Drinking-water Quality.
Wu, Y. F.; Liu, C. Q.; Tu, C. L., (2008). Atmospheric deposition of metals in TSP of
guiyang, PR China. Bull. Environ. Contam.Toxicol., 80 (5), 465-468 (4 pages).
Ying Hu, Shihua QI, Chenxi Wu, Yanping KE, Jing Chen, Wei Chen, Xiangyi Gong;
Preliminary assessment of heavy metal contamination in surface water and
sediments from Honghu Lake, East Central China; Front. Earth Sci. 2012, 6(1):
39–47.
Yule, W. and M. Rutter, 1985. Effect on Children‘sBehavior and Cognitive Performance:
A CriticalReview. In: Dietary and Environmental Lead (Pb):Human Health
Effects. R. Mahaffey, (Ed.). NewYork: Elsevier, pp: 211-251.
Zaosheng Wang, Changzhou Yan, Qikun Pan Yijun Yan;Concentrations of some heavy
metals in water, suspended solids, and biota species from Maluan Bay, China
and their environmental significance; Environ Monit Assess (2011) 175:239–
249.
Zietz, B.P., J. Lap and R. Suchenwirth, 2007. Assessment and management of tap w ater
Lead contamination in Lower Saxon, Germany. Int. J. Environ. Health Res.,
17(6): 407-418.
Zlotkin SH, Buchanan BE (1986) Manganese intakes in intravenously fed infants:
Dosages and toxicity studies. Biological Trace Element Research, 9:271–279.