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REFERENCE
1. Mariappan, A systematic study of water quality index among the physicochemical
properties of ground water in and around Thanjavur town. Indian. Journ. Env. Prot,
2005, 25(6):551-555.
2. Fresh water pollution, United Nation Environment Programme (UNEP), UNEP,
Gems. Environ. Library, 1991, 6:36.
3. Acharyya, S.K., Chakraborty, P., Lahari.S, Raymahshay, B.C., Guha, S and
Bhowmik, A. Nature, 1991, 401: 545-547.
4. Wang Gen, X.U and Guodang Cheng, Fluoride distribution in water and the
governing factors of environment in arid North – West China, Journ. Arid. Env, 2001;
49:601-614.
5. Hem, H.D., Study and interpretation of the chemical characteristics of natural water.
Water supply paper, 2254, 3rd
edition, US Geological Survey, Washington, D.C, 263.
6. Krishnamohan, K, and Muthukrishnan, N., Fluoride pollution of ground water, 22nd
WEDC Conference Discussion Paper, New Delhi, India, 1996; 273-275.
7. Roberson, C.E and Barnes, R.B, Chem. Geology, 1978; 2: 239.
8. Read ,H.H and Rutleys, Elements of mineralogy, Thomas Murby and Co, London,
1976; 560.
9. Dear,W.A., Howie,R.A and Zussman,J, An introduction to the rock forming minerals,
John Wiley and Sons Inc, New York, 1966; 528.
10. Fleischer, M and Robinson, W.O, R.SOC. Can.Spec.Publ, 1963; 6: 56-75.
!"
11. Koriting, S in Wedepohl (ed.), Handbook of Geochemistry, Springer Verlag, 1974;
Cap. 9 B-O.
12. Adriana, D.C, Trace elements in the terrestrial environment, Springer Verlag, New
York, 1986; 533.
13. WHO. International standard for drinking water, 3rd
Edn, WHO, Geneva, 1971.
14. Bureau of Indian standards (BIS) “Indian Standard Specification for drinking water”,
IS 10500, 1991; 2-4.
15. Galagan, D.J and Vermillion, J.R, Determining the optimum fluoride concentration.
Publ.Health.Rep. Washington, 1957; 72: 491.
16. Weidmann, S.M, Wetherall, J.A and Jackson, D, The effect of fluoride on bone,
Proc.Nutr.Soc, 1963; 22: 105.
17. IPCS, International Programme on Chemical Safety, World Health Organization,
Geneva, 2002.
18. Geever, E. F., Leone, N. C., Geiser, P and Lieberman, J.E, Pathological studies in
man after prolonged ingestion of fluoride in drinking water, Public.Health.Rep, 1958;
73: 721-731.
19. Morris, J.W, Skeletal fluorosis among Indians of the American South West.
Am.Journ. Roentgenol. Radian. Ther. Nucl. Med, 1956; 94: 608-615.
20. Srikantia, S.G and Siddique, A.F, Metabolic studies in skeletal fluorosis, Clin. Sci,
1965; 28: 477-485.
!#
21. Susheela, A.K., Kumar, A., Bhatnagar, M and Bahadas, M, Prevalance of endemic
fluorosis with gastro intestinal manifestations in people living in some North Indian
villages, Fluoride, 1993; 26: 97-104.
22. Agarwal, V., Vaish, A.K and Vaish, P. Ground water quality focus on fluoride and
fluorosis in Rajasthan, current science, 1997; 73(9): 743-764.
23. Manmeri, A.R., Yeddou, H., Lourici, H., Grib, D., Belhocine and Bariou, B,
Defluoridation of septentrional sahara water of North Africa and electro coagulation
process using bipolar aluminum electrodes, Water.Res, 1998; 32(5):1604-1610.
24. Short, H.E., Mc Robert, G.R., Bernard, T.W and Mannadinayar, A.S., Endemic
fluorosis in the Madras Presidency, Indian Journal of Medical Research, 1937; 25:
553-561.
25. UNICEF, states of the art report on the extent of fluoride in drinking water and the
resulting endemicity in India, New Delhi, Report by fluorosis and rural development
foundation for UNICEF, 1999.
26. Misra, A.K., Mishra, A and Premraj, Escalation of ground water fluoride in the
Ganga alluvial plain of India, Fluoride, 2006; 39(1):35-38.
27. Kapoor, B.S., Singh, H.B., Goswami, S.C., Abrol,I.P., Bhargava, G.P and Pal,D.K,
Weathering of micaceous minerals in some salt affected soils, Journ. Indian. Soc.
Soil.Sci, 1981; 29: 286-292.
28. Bargava, G.P., Abrol, I.P., Kapoor, B.S and Goswami, S.C, Characteristics and
genesis of some sodic soils in the Indo – Gangetic alluvial plains of Haryana and
Uttar Pradesh, Journ. Indian. Soc.Soil.Sci, 1981; 29(1): 61-70.
!!
29. ATSDR, Toxicological profile for fluorides, hydrogen fluoride and fluorine. Atlanda,
Georgia, US Department of Health and Human Services, Agency for Toxic
Substances and Disease Registry, 1993; TP – 91/17.
30. Symonds, R., Rose, W and Reed, M, Contribution of Cl and F bearing gases to the
atmosphere by volcanoes. Nature, 1988; 334: 415-418.
31. Kabata – Pendias, A and Pendias, H, Trace elements in soils and plants. 2nd
edition,
CRC press, London, 1992.
32. Fuge, R and Andrews, M.J, Fluorine in the UK Environ, Env. Geochem.Health, 1988;
96:10.
33. Gemmell, G.D., Fluorine in New Zealand soils, Newzealand, Journ.Sci.Tech.B, 1946;
27: 302-306.
34. Gilpin, L and Johnson, A.H, Fluorine in agriculture soils of southern Pennsylvania,
Soil .Sci. Am.Journ, 1980; 44: 255-258.
35. Omueti, J.A.I and Jones, R.L, Fluorosis content of soil from Morrow plots over a
period of 67 years, Soil .Sci. Soc. Am. Journ, 1977; 41:1023-1024.
36. WHO, Fluorine and Fluorides, Geneva, World Health Organization, EHC 36, 1984.
37. Kabata – Pendias, A and Pendias, H, Fluorine. In: Trace elements in soil and plants.
Boca Raton, Florida, CRC press, 1984; 209-215.
38. Elrashidi, M.A and Lindsoy, W.L, Chemical equilibria of fluorine in soils, a
theoretical development, Soil.Sci, 1986; 141: 274-280.
!$
39. Sloof, W., Erens, H., Janus, J and Ros, J. Integrated criteria document. Fluorides.
Bilthoven, National Institute of Public Health and Environmental Protection (Report
No. 758474010), 1989.
40. Barrow, N.J and Ellis, A.S, Testing a mechanistic model –III. The effects of pH on
fluoride retention by a soil, Journ.Soil.Sci, 1986; 37: 287-293.
41. Perrott, K.W., Smith, K.F.L and Inkson, R. H.E, The reaction of fluoride with soils
and soil minerals, Journ.Soil.Sci, 1976; 27: 58-67.
42. Brewer, R.F, Fluorine. In: Chapman HD ed. Diagnostic Criteria for plants and soils.
Riverside, California, University of California, Division of Agricultural Science,
1966; 180-195.
43. Bower, C.A and Hatches, J.T, Adsorption of fluoride by soils and minerals, Soil.Sci,
1967; 103: 151-154.
44. Polomski, J., Fluhler, H and Blaser, P, Accumulation of airborn fluoride in soil,
Journ.Env.Qual, 1982; 11: 457-461.
45. Oelschlager, W, Fluoride uptake in soil and its depletion, Fluoride, 1971; 4: 80-84.
46. Arnesen, A.K.M and Krogstad, T, Sorption and desorption of fluoride in soil polluted
from the aluminium smelter at Ardal in western Norway, water.Air.Soil.pollut, 1988;
103: 357-373.
47. Davison, A, Uptake, transport and accumulation of soil and airborn fluorides by
vegetation. In: shupe, J., Peterson, H and Leone Ned. Fluorides: Effects on
vegetation, animals and humans. Salt lake city, Utah, Paragon press, 1983; 61-82.
!%
48. Hart, E.B., Phillips, P.H and Bohstedt, G, Relationship of soil fertilization with
superphosphates and rock phosphate to the fluoride content of plants and drainage
waters, Am.Journ.Public.Health, 1934; 24: 936-940.
49. McLaughlin, M.J., Stevens, D.P., Keerthisinghe, G., Cayley, J.W.D, and Ridley,
A.M, Contamination of soil with fluoride by long term application of
superphosphates to pastures and risks to grazing animals, Aust.Journ.Soil.Res, 2001;
39(3): 627-640.
50. Clark, R.G., Hunter, A.C and Stewart, D.J, Deaths in cattle and suggestive of
subacute fluorine poisoning following the ingestion of superphosphate. Newzealand,
Vet.Journ, 1976; 24: 193-194.
51. Clark, R.G., Hurter, A.C and Stewart, D.J, Fluorine, In. Grace, N.E (Ed.), The
mineral requirements of grassing ruminants Newzealand Soc. Anim. Prod.
Occasional.Publication, 1983; 9: 129-134.
52. Cronin, S.J., Manoharan, V., Hedley, M.J and Loganathan, P, Fluoride – a review of
its fate and hazard potential in grazed pasture systems, NZJ.Agric.Res, 2000; 43: 295-
321.
53. Pathat, B.D, Occurrence of fluoride in ground water in Uttar Pradesh, Proc.Sym.on
Fluorosis, Hyderabad, 1974; 237.
54. Amalan, S., Ramesh, V.N., Pillai, K.S., Murthy, K.S and Kumar, T, Pollut.Res, 1997;
16: 143.
55. Short, H.E., Mc. Robert, G.R., Bernard, T.W and Mannadiyar, A.S,
Indian.Journ.Med.Res, 1937; 25: 553.
!&
56. Skjelkvale, B.L, Factors influencing fluoride concentration in Norwegian lakes,
Water.Air.Soil.Pollut, 1994; 77: 151-167.
57. Neuhold, J.M and Sigler, W.F, Effects of Sodium fluoride on carp and rainbow trout,
Trans. Am.Fish.Soc, 1960; 89: 358-370.
58. Srikanth, R., Khanam, A and Rao, A.M.M, Fluoride in bore well water in selected
villages of Medak dt, Andra Pradesh, India, Fluoride, 1994; 27: 93-96.
59. Harbo, R.M., Comas, F.T and Thompson, J.A.J, Fluoride concentration in two Pacific
Coast inlets – an indication of industrial contamination, Journ.Fish.Res.Board.Can,
1974; 31: 1151-1154.
60. Van Gaenenbroeck, W and Marivoet, J, A comparison of simple methods for
estimating the mass flow of fluoride discharged into rivers, Water.Sci. Technol, 1987;
19: 729-740.
61. Skjelkvale, B.L, Water Chemistry in areas with high deposition of fluoride,
Env.Sci.Total, 1994(b); 152: 105-112.
62. Somashekar, R.K and Ramaswamy, S.N, Fluoride concentration in the water of the
river Cauvery, Karnataka, India, Int.Journ.Env.Study, 1983; 21: 325-327.
63. Karunagaran, V.M and Subramanian, A, Fluoride pollution in the Uppanar Estuary,
Cuddalore, South India, Mar.Pollut.Bull, 1992; 24(10): 515-517.
64. Environment Canada, inorganic fluorides, Ottawa, Ontario, Environment Canada,
Eco System Science and Evaluation Directorate, Eco-Health Branch, 1994.
65. Ares, J, Fluoride – aluminium water chemistry in forest ecosystems of central Europe
chemosphere, 1990; 21(45): 597-612.
!'
66. Pickering, W.F, Slavek, J and Waller, P, The effect of ion exchange on the solubility
of fluoride compounds. Water Air Soil Pollut, 1988; 39: 323-336.
67. Sahu, N.K and Kerim, M.A, Fluoride influence in Natural waters in Amreli District,
Gujarat, Journ.Geol.Sol.Ind, 1989; 33: 450-456.
68. Brimblecombe, P and Clegg, S.L, The solubility and behavior of acid gases in the
marine aerosol, Journ.Atmos.Chem, 1988; 7: 1-18.
69. Hirayana, N., Maruo, M., Obata, H., Shiota, A., Enya, T and Kuwamoto,, T,
Measurement of fluoride ion in the river water flowing into lake Biwa, Water.Res,
1996; 30(4): 865-868.
70. Compendium of Environmental Statistic, Min Statistics and Programme
Implementation Government of India, New Delhi, 2000; 228.
71. Marua Tatmaja Rao, P.L.K and Mohan Rao, N.V.R. Studies on distribution of
fluoride in water sources of Hyderabad, AP (India), Journal of fluorine Chemistry,
1988; 41: 9-16.
72. Muralidharan, D., Anita, P. Nair and Sathyanarayana, U, Fluoride in shallow aquifers
in Rajgarh Tehsil of Churu District, Rajasthan-an arid environment, Current Science,
2002; 83(6): 699-702.
73. Mane, U.M and Pillai, K.S, Fluoride in Godavari river at Paithan, Marathwada,
Maharashtra State, Aurangabad, India, Fluoride, Ind.Eng.Chem, 1942; 18(1) : 34.
74. Garber, K, Fluoride in rainwater and vegetation, Hamburg, Germany, Fluoride, 1970;
3(1):22.
75. Hem, J.D, U.S.G.S, Water Supply Paper, 1985; 2254: 120.
!(
76. Marier, J.R, Observations and implications of Mg vs F interrelations in biosystems.
“A Review and comments on magnesium intake and fluoride intake in the modern
day world” Ottawa, Canada, Fluoride, 1981; 14(3): 142.
77. Lillie, R.J, Air Pollutants affecting the performance of domestic animals, a literature
review, Agricultural handbook, No. 380, Agricultural Research Service, USDA,
Washington, DC, 1970.
78. Hill, A.C, “Air Quality Standard for Fluoride Vegetation Effects”, Journ.
Air.Poll.Cont.Assoc, 1969; 19(5): 331-336.
79. GU, S.L., Rongli, J and Shouren, C. The physical and chemical characteristics of
particles in indoor air where high fluoride coal burning takes place, Biomedical and
Environmental Science, 1990; 3(4): 384-390.
80. US Environmental Protection Agency, Engineering and cost effectiveness in study of
fluoride emission control, Washington, DC, Jan. 1972.
81. Taylor, G, Coal fired power generation and fluoride emissions impact on grapevines
of the Upper Hunter Valley region. Proceedings of the National Conference of the
Clean Air Society of Australia and New Zealand, New Castle, Eastwood, 6.
82. Kirk, P.W.W and Lester, J.N, Halogen Compounds. In Harrison, R.M and Perry Red.
Handbook of air pollution analysis, 2nd
ed. London, Chapman and Hall, 1986; 425-
462.
83. Sidhu, S, Fluoride levels in air, vegetation and soil in the vicinity of a phosphorous
plant, Journ. Air. Pollut. Control, Assoc, 1979; 29: 1069-1072.
$)
84. Low, P.S and Bloom, H, Atmospheric deposition of fluoride in the lower Tamar
Valley, Tasmania, Atmos.Env, 1988; 22(9): 2049-2059.
85. US NAS, Biological effects of atmospheric pollutants, Washington, DC, US National
Academy of Sciences, Fluoride, 1971.
86. Ramanathan, V, Cicerone, R.J, Singh, H.B and Kiehl, J.T, Trace gas trends and their
potential role in climate change. Journ.Geophys.Res, 1985; 90(D3): 5547-5566.
87. Saxena, A., Kulshrestha, U.C., Kumar, N., Kumari, K.M and Srivastava, S.S,
Distribution of air borne fluoride, vapour phase, particulate, precipitation and dry
deposition, Env.Tech, 1994; 15: 51-59.
88. Chandrawanshi, C.K and Patel, K.S, Fluoride deposition in central India, Env.
Monit.Assess, 1999; 55: 251-265.
89. Soyseth, V., Kongerud, J and Boe, J, Allergen Sensitization and exposure to irritanats
in infancy, Allergy, 1996; 51: 719-723.
90. Liu, Y, Human exposure assessment of fluoride, Beijing, Chinese Health Programme
Monitoring, Technical Corporation Centre of Fluoride, Heal, 1993; 64.
91. Biologic effect of air pollutants, Fluoride, National Academy of Science, Washington,
DC, 1971.
92. Carlsson, C.E and Dewey, J.E, “Environmental Pollution by Fluorides in Flathead
National Forest and Glacier National Park” USDA, U.S. Forest Service, Missoula,
Montana, 1971.
93. Dewey, J.E, Accumulation of fluorides in insects near an emission source in Western
Montana, Env.Entora, 1973; 2: 179-182.
$
94. Bruun, C and Thylstrup, A, Dentrifice usage among Danish Children,
Journ.Dent.Res, 1988; 67: 1114-1117.
95. Kumpulainen, J and Kovistoinen, P, Fluorine in foods, Residue.Rev, 1977; 68: 37-57.
96. Schamschula, R., Duppanthaler, J., Sugar, E., Toth, K and Barmes, D, Fluoride intake
and Utilization by Hungarian Children: associations and interrelationships.
Acta.Physiol.Hung, 1988; 72:253-261.
97. Anusuya, A and Parajape, P.K, Effect of Parboiling on fluoride Dental clinics of
North America content of rice, Fluoride, 1996; 29: 193-201.
98. Xu, R.H., Yuan, H.H and Fan, A, Endemic fluorosis in China from ingestion of food
immersed in hotspring water, Bull.Env.Contam.Toxicol, 1995; 54: 337-341.
99. Warren, J.J and Levy, S.M, Current and future role of fluorine in nutrition,Dental
clinics of North America , 2003; 47: 225-243.
100. Heilman, J.R., Kiristy, M.C., Levy, S.M and Wefel, J.S, Fluoride concentrations of
infant foods, Journal of the American Dental Association, 1997; 128(7): 857-863.
101. Lu, Y., Guo, W.F. and Yang, X.Q, Fluoride content in tea and its relationship with tea
quality, Journ.Agric.Food.Chem, 2004; 52: 4472-4476.
102. Smid, J and Krugen, B, The fluoride content of some teas available in Australia,
Aust.Dent.Journ, 1985; 30: 25-28.
103. Coa, J., Bai, X., Zhao, Y., Zhau, D., Fang, S., Jia, M and Wu, J, Brick tea
consumption as the cause of dental fluorosis among children from Mongol, Kazak
and Yagu populations in China. Food and Chemical Toxicology, 1997; 35(8): 827-
833.
$"
104. Larsen, M.L., Senderovitz, F., Kirkegaard, E., Polusen, S and Fejerskov, Q, Dental
fluorosis in the primary permanent dentition in fluoridated areas with consumption of
either powdered milk or natural cow’s milk, Aarhus,Denmark,Fluoride, 1989; 22(2) :
93.
105. Levy, S.M., Kristy, M.C and Warren, J.J Sources of fluoride intake in children,
Journ.Public.Health.Dent, 1995; 55: 39-52.
106. IPCS, Fluorides, Environmental Health, Criteria, international Programme on
Chemical Safety, World Health Organization, Geneva, 2002; 227.
107. Connett, E, and Connett, P Fluoride: The hidden Poison in the National Organic
Standards, Pesticides and you, 2001; 18-22.
108. Fein, N.J and Cerklewski, F.L, Fluoride content of foods made with mechanically
separated chicken, Journal of Agricultural Food Chemistry, 2001, 49(9): 4284-4286.
109. Murray, J.J (Ed), appropriate use of fluorides for human health, World Health
Organization, Geneva, 1986.
110. Whitford, G, Fluoride in dental products: Safety considerations, Journ.Dent.Res,
1987; 66: 1056-1060.
111. Newburn, E, Current regulations and recommendations concerning water
fluoridation, Fluoride supplements and topical fluoride agents, Journ.Dent.Res, 1992;
71: 1255-1265.
112. Carpenter, R. Limnol and Oceanog Geochem, Cormochim, Acta, 1969; 33: 1153.
113. Baturin, G.N and Shinshkina, O.V, Okeanologyia, 1973; 13(4): 636.
$#
114. Kilham, P and Hecky, R.E, 1973; 18(6): 932.
115. Lucas, J, Fluorine in the natural environment, Journal of fluorine chemistry, 1988;
4(1): 1-8.
116. Gupta, S., Seth, A.K., Gupta, A and Gavane, A.G, Transplacental passage of fluorides
in cord blood, The Journal of Pediatrics, 1993; 137-141.
117. Spak, C.J., Ekstrand, J and Zylberstein, D, Bioavailability of fluoride added to baby
formula and milk, Caries.Res, 1982; 16: 249-256.
118. Cerklewski, F.L, Fluoride Bioavailability nutritional and clinical aspects, Nutr.Res,
1977; 17: 907-929.
119. Ekstrand, J., Alvan, G., Boreus, L and Norlin, A, Pharmacokinetics of fluoride in man
after single and multiple oral doses, Eur.Journ.Clin.Pharmacol, 1977; 12: 311-317.
120. Whiteford, G.M and Pashey, D.H, Fluoride absorption: the influence of gastric
acidity, Calcifi.Tissue.Int, 1984; 36:302-307.
121. Mclvor, M, Accute fluoride toxicity, pathophysiology and management, Drug.Saf,
1990; 5: 79-85.
122. Taves, D.R, Electrophoretic Mobility of serum fluoride, Nature, 1968; 220: 582-583.
123. Whitefored, G., Pashley, D and Reynolds, K, Fluoride tissue distribution: Short –
Term kinetics, Am.Journ.Physiol, 1979; 236: 141-148.
124. Kaminsky, L., Mahoney, M., Leach, J., Melius, J and Miller, M, Fluoride, benefits
and risks of exposure, Crit.Rev.Oral.Biol.Med, 1990; 1: 261-281.
$!
125. Hamilton, M, Water fluoridation, a risk assessment perspective, Journ.Env.Health,
1992; 54: 27-32.
126. Shen, Y.W and Taves, D.R, Fluoride concentrations in the human placenta and
maternal cord blood, Am.Journ.Obstet.Gynecol, 1974; 119: 205-207.
127. Ekstrand, J., Ehrnebo, M., Whiteford, G.M and Jamberg, P.O, Fluoride
pharmacokinetics during acid – base changes in man, Eur.Journ.Clin.Pharmacol,
1980; 18: 189-194.
128. Ekstrand, J., Spark, C and Ehrnebo, M, Renal clearance of fluoride in a steady
condition in man: influence of urinary flow and pH changes by diet, Acta.Pharmaol.
Toxicol, 1982; 50: 321-325.
129. Kono, K., Yoshida, Y., Yamagata, H., Tanimura, Y., Takada, Y., Harada, A and Doi,
K, Fluoride clearance in the aging kidney, fluoride research, Stud.Env.Sci, 1986; 27:
407-414.
130. Schiffl, H and Binswanger, U, Human Urinary fluoride excretion as influenced by
renal functional impairment, Nephron, 1980; 26: 69-72.
131. Spark, C., Berg, U and Ekstrand, P, Renal clearance of fluoride in children and
adolescents, Pediatrics, 1985; 75: 575-579.
132. Stevens, D.P, McLaughlin, M.J and Alston, A.M, Phytotoxicity of the fluoride ion
and its uptake from solution culture by Avena Stativa and Lycopersiconesculentum,
Plant soil, 1998; 200: 119-129.
$$
133. Reynolds, K.L and Lawrence, J.A, Development of common blight and accumulation
of fluoride in red kidney bean plants exposed continuously or intermittently to
hydrogen fluoride, Phytopathology, 1990; 80(2): 211-216.
134. Stevens, D.P., Mc Laughlin, M.J and Alston, A.M, Phytotoxicity of the aluminium –
fluoride complexes and their uptake from solution culture by Avena sativa and
Lycopersicon esculentum, Plant soil, 1997; 192: 81-93.
135. Jacobson, J.S., Weinstein, L.H, Mccune, D.C and Hitchcock, A.E, The accumulation
of fluorine in plants, Journ.Air.Pollut.Control.Assoc, 1966; 16: 412-417.
136. Weinstein, L.H and Alscher – Hermam, A, Physiological responses of plants to
fluorine. In Unsworth, M and Ormrod, D.P ed. Effects of gaseous air pollution in
agriculture and horticulture, London, Butterworth Scientific, 1982; 139-167.
137. Marias, J.S.C, Monofluoroacetic acid, the toxic principle of the Grifblaar
Dichapetabum Cymosum (Hook) Engl Onderstepoort, Journ.Vet.Sci.Anim.Ind, 1944;
201(1): 67-73.
138. Ward, P.F., Hall, R.J and Peters, R.A, Fluoro – fatty acids in the seeds of
Dichapetabum toxicarium, Nature, 1964; 201: 611-612.
139. Leece, D.R., Scheltema, J.H., Anttonen, T and Weir, R.G, Fluoride accumulation and
toxicity in grapeviens vitis vinifera, L in New South Wales, Env.Pollut, 1986; A 40:
145-172.
140. Horntvedt, R, Fluoride uptake in conifers related to emissions from aluminium
smelters in Norway, Sci.Total.Env, 1995; 163: 35-37.
$%
141. Pushnik, J.C and Miller, G.W, The influences of elevated environmental fluoride on
the physiology and metabolism of higher plants, Fluoride.Q.Rep, 1990; 23(1): 5-19.
142. Murray, Fand Wilson, S, The joint action of sulphur dioxide and hydrogen fluoride on
the yield and quality of wheat and barley, Env.Pollut, 1988; 55: 239-249.
143. Mac Lean, D.C., Schneider, R.E and Mc Cune, D.C, Effects of chronic exposure to
gaseous fluoride on yield of field – grown bean and tomato plants, Journ.Am.Soc.
Hortic.Sci, 1977; 102(3): 297-299.
144. Cooke, J.A, The uptake of sodium monofluoroacetate by plants and its physiological
effects, Fluoride, 1976; 9(4): 204-212.
145. Weinstein, L, Fluoride and plant life, Journ.Occup.Med, 1977; 19: 49-78.
146. Lawrence, J.A, Effects of fluoride on plant pathogen interaction. In: shupe J,
Peterson, H and leone Ned. Fluoride, effects on vegetation, animals and humans, Salt
Lake city, Utah, Paragon press, 1983; 145-149.
147. Kabasakalis, V and Tsolaki, A Fluoride content of vegetables irrigated with waters of
high fluoride levels, Fresenius.Env.Bull, 1994; 3(6): 377-380.
148. Sato, T., Yoshitake, K and Hitomi, G, Mechanisms of fluoride absorption from the
gastro intestinal tract in rats, Fluoride.Research. Stud.Env.Sci, 1986; 27: 325-332.
149. Messer, H., Nopakum, J and Rudney, J, Influence of pH on intestinal fluoride
transport invitro, Journ.Dent.Assoc, Thailand, 1989; 39: 226-232.
150. Patten, J., Whitford, G., Stringer, G and pashley, D, Oral absorption of radioactive
fluoride and iodide in rats, Arch.Oral.Blio, 1978; 23: 215-217.
$&
151. Whitford, G, The physiological and toxicological characteristics of fluoride, Journ.
Dent.Res, 1990; 69: 539-549.
152. Messer, H and Ophaug, R, Influence of gastric acidity on fluoride absorption in rats,
Journ.Dent.Res, 1993; 72: 619-622.
153. Whitford, G., Challan, R and Wang, H, Fluoride absorption through the hamster
cheek pouch: a pH – dependent event. Journ.Appl.Toxicol, 1982; 2: 303-306.
154. Rao, G, Dietary intake and bioavailability of fluoride, Ann.Rev.Nutr, 1984; 4: 115-
136.
155. Spencer, H., Osis, D and Lender, M, Studies of fluoride metabolism in man a review
and report of original data, Sci.Total.Env, 1981; 17: 1-12.
156. Shupe, J.L and Olson, A.E, Clinical and pathological aspects of fluoride toxicosis in
animals. In: Shupe, J, Peterson, H and Leone, N ed., fluorides: Effect on vegetation,
animals and humans, Salt Lake City, Uttah, Paragon press, 1983; 319-338.
157. Moule, G.R, Fluoride poisoning of live stock, Queensl. Agric.Journ, 1944; 58: 54-55.
158. Harvey, J.M, Chronic endemic fluorosis of merino sheep in Queensland, Queensland
Journ.Agric.Sci, 1952; 9: 47-141.
159. Peirce, A.W, Studies on fluorosis of sheep, the toxicity of water born fluoride for
sheep maintained in pens, Aust.Journ.Agric.Res, 1952; 3(3): 326-340.
160. Randon, K., Nowak, D., Heinrich-Ramm, R and Szadkowski, D, Respiratory health
and fluoride exposure in different part of the modern primary aluminium industry, Int.
Arc.Occup.Env.Health, 1999; 72: 297-303.
$'
161. Neeley, K.L and Harbaugh, F.G, Effects of fluoride ingestion on a herd of dairy cattle
in the Lubbock, Texas area, Journ. Am .Vet.Med. Assoc, 1954; 124: 344-350.
162. Burns, K.N and Allcroft, R, Fluorosis in cattle, occurrence and effects in industrial
areas of England and Water, 1954-57, London, HMSO, 1964.
163. Jubb, T.F., Annand, T.E., Main, D.C and Murphy, G.M, Phosphorus supplements and
fluorosis in cattle – a northern Austrialian experience, Aus.Vet.Journ, 1993; 70: 379-
383.
164. Choubisa, S.L, Some observations on endemic fluorosis in domestic animals in
Southern Rajsthan (India), Vet.Res.Commun, 1999; 23: 457-465.
165. Swarup, D., Dwivedi, S.K., Dey, S and Roy, S.K, Fluoride intoxication in bovines
due to industrial pollution, Ind.Journ.Anim.Sci, 1998; 68(7): 605-608.
166. Suttie, J.S., Dickie, R., Clay,A.B., Nielsen,P.,Mahan,W.E., Baumann,D.P and
Hamilton,R.J, Effects of fluoride emissions from a modern primary aluminium
smelter on a local population of white – tailed deer (Odocoileus virginianus), Journ.
Wildl.Dis, 1987; 23(1): 135-143.
167. Karstad, L, Fluoride in deer (Odocoileus Virginianus), Bull.Wildl.Dis.Assoc, 1967; 3:
42-46.
168. Philips, P.H and Suttie, J.W, The significance of time in intoxication of domestic
animals by fluoride, Arc.Ind.Health, 1960; 21: 343-345.
169. Hobbs, C.S and Merriman, G.M, The effect of eight year continuous feeding of
different levels of fluoroine and alleviators on feed consumption, teeth, bones and
production of cows, Journ. Anim.Sci, 1959; 18:1526-1529.
$(
170. Suttee, J.W., Miller, R.F and Phillips, P.H, Studies of the dietary NaF on dairy cows.
The physiological effects and the development of fluorosis, Journ.Nutr, 1957; 63:
211-224.
171. Walton, K.C, Fluoride in bones of small rodents living in areas with different
pollution levels, Air Soil Pollut, 1987; 32: 113-122.
172. Baars, A.J., Van Beek, H., Spierenburg, T.T., de Graf, G.H and Beef Tink, W.G.J.N,
Fluoride pollution in a salt marsh: Movement between soil, vegetation and sheep,
Bull.Env.Contam.Toxicol, 1987; 39: 945-952.
173. Adelung, D., Bucholz, F., Culik, B and Keck, A, Fluoride in tissues of Krill
Euphausia Superba Dana and Meganyctiphanes norvegica M.Sars in relation to the
moult cycle, Polar.Biol, 1987; 7(1): 43-50.
174. Sands, M., Nicol, S and Mc Minn, A, Fluoride in Antarctic marine crustaceans, Mar.
Biol, 1998; 132: 591-598.
175. Wright, D.A and Davison, A.W, The accumulation of fluoride by marine and
intertidal animals, Environ.Pollut, 1975; 8: 1-13.
176. Adelung, D., Bossmann, K and Rossler, D, The distribution of fluoride in some
Antarctic Seals, Polar.Biol, 1985; 5: 31-34.
177. Guenter, W and Hann, P.H.B, Fluorine toxicity and laying hen performance, Poult.
Sci, 1986; 65: 769-778.
178. Henny, C.J and Burke, P.M, Fluoride accumulation and bone strength in wild black –
crowned night – herons, Arch.Env.Contam.Toxicol, 1990; 19: 132-137.
%)
179. Walton, K.C, Fluoride in Moles, shrews and earthworms near an aluminium reduction
plant, Env.Pollut, 1986; 42: 361-371.
180. Shroder, J.L, Soil and vegetation fluoride exposure pathways to cotton rats on a
petrochemical – contaminated landfarm, Env.Toxicol. Chem, 1999; 18(9): 2028-2033.
181. WHO. Fluorine and Fluoride, Environmental Health Criteria 36, World Health
Organization,Geneva, 1984; 93.
182. Whitford, G, The metabolism and toxicity of fluoride 2nd
rev. ed. Basel, Karger,
Monograph, 1996; 16: 156.
183. Tyagi, O.D and Mehra, M, A textbook of environmental Chemistry, Anmol
Publication, New Delhi, 1990.
184. Nemade, P.N and Shrivastava, V.S, Radiological Skeletal Changes due to chronic
fluoride intoxication in Udaipur (dt), Journal of Environmental Protection, 1996;
16(2): 43-46.
185. Dinesh Chand, Rajiv Gandhi National Drinking Water Mission, Ministry of Rural
Areas and Employment, CGO complex Lodhi Road, New Delhi, Fluoride and Human
Health Cause for Concern, Indian.Journ.Env.Prot, 1998; 19(2): 81-89.
186. Buckingham, F.M, Surgery, a radical approach to severe hydrofluoric acid burns,
Journ.Occup.Med, 1988; 30: 873-874.
187. Bordelon, B.M., Saffle, J.R and Morris, S.E, Systemic fluoride toxicity in a child with
hydrofluoric acid burns, a case report, Journ.Trauma, 1993; 34: 437-439.
188. Upfal, M and Doyle, C, Medical management of hydrofluoric acid exposure, Journ.
Occup. Med, 1990; 32: 726-731.
%
189. Gupta, I.P, Das, T.K., Susheela, A.K., Dasarathy, S and Tandon, R.K, Fluoride as a
possible etiological factor in non-ulcer dyspepsia, Journ.Gastroenterol.Hepatol.
1992; 7: 355-359.
190. Siddique, A.H, Fluoride in areas of India with a high natural content of water
fluoride. Fluoride and human health, WHO Monograph, 1970; 59: 284-294.
191. Spak, C., Sjostedt, S., Eleborg, L., Veress, B., Perbeck, L and Ekstrand, J, Tissue
response of gastric mucosa after injestion of fluoride, Br.Med.Journ, 1989; 298:
1688-1689.
192. Trivedi, N, Reversible impairment of glucose tolerance in patients with endemic
fluorosis. Fluoride Collaborative Study Group, Diabetologia, 1993; 36(9): 826-828.
193. Li, Y., Li, X and Wei, S, Effect of excessive fluoride intake on mental work capacity
of children and a preliminary study of its mechanism. Hua-Hsi-I-Ko-Ta-Hsueh-TSA-
Chih, 1994; 25(2): 188-191.
194. Augenstein, W.,Spoerke,D., Kulig,K., Hall,A., Hall,P., Riggs,B.,Saadi,M and
Rumack,B, Fluoride ingestion in children, A review of 87 cases, Pediatrics, 1991; 88:
907-912.
195. Yang, Y., Wang, X and Guo, X, Effects of high iodine and high fluorine on children’s
intelligence and the metabolism of iodine and fluorine, 1994; 15(5): 296-298.
196. Dayal, H.H., Brodwick,M., Morris,., Baranowski,T., Trieff,N., Harrison,J.A and
Ansari,G.A.S, A Community – based epidemiological study Epidemiol, 1992; 2: 213-
220.
%"
197. Cummings, C and Mclvor, M, Fluoride – induced hyperkalemia, the role of Ca2+
dependent K+
channels, Am.Journ.Emerg.Med, 1988; 6: 1-3.
198. Tsutsui, T, Induction unscheduled DNA synthesis in cultured human oral
keratinocytes by Sodium fluoride, Mutat.Res, 1984; 140: 43-48.
199. Skare, J., Wong, T., Evans, L and Cody, D, DNA repair studies with sodium fluoride.
Comparative evaluation using density gradient ultracentrifugation and auto
radiography, Mutat.Res, 1986; 172: 77-87.
200. Wu, D.Q and Wu, Y, Micronucleus and Sister Chromatid exchange frequency in
endemic fluorosis, Fluoride, 1995; 28: 125-127.
201. Sheth, F.J, Sister Chromatid exchanges: A study in fluorotic individuals in North
Gujart, Fluoride, 1994; 27: 215-219.
202. Joseph, S and Gadhia, P.K, Sister Chromatid exchange frequency and chromosome
aberration in residents of fluoride endemic regions of South Gujarat, Fluoride, 2000;
33: 154-158.
203. Jolly, S.S., Singh,B.M., Mathur,O.C and Malhotra,K.C Epdiemiological, Clinical and
biochemical study of endemic dental and skeletal fluorosis in Punjab, Br.Med.Journ,
1968; 4: 427-429.
204. Choubisa, S.L, Fluorosis in some tribal villages of Dungapur district of Rajasthan,
India, Fluoride, 1997; 30: 223-228.
205. Belyakova, T.M and Zhavoronkov, A.A, Proceedings of the Biological Laboratory,
1978; 15: 37.
%#
206. Jolly, S.S., Singh, B.M., Mathur, O.C and Malhotra, K.C, Endemic fluorosis in
Punjab, Patiala, India, Fluoride, 1973; 6(1): 4.
207. Dean, H.T, Distribution of Public Health Rep, 1933; 48: 704-734.
208. Dean, H.T, Classification of mottled enamel diagnosis, Journ.Am.Dent.Assoc, 1934;
21: 1421-1426.
209. Weatherell, J., Deuts, D., Robinson.C and Hallsworth, A Assimilation of fluoride by
enamel throughout the life of the tooth, Caries Res, 1977; 11: 85-115.
210. Susheela, A.K, In Fluoride Toxicity, Proc. 13th
Conf. Int.Soc.Fluoride.Res, New
Delhi, 1985; 78.
211. Dean, H.T.,Arnold,F.A and Evolve,E, Domestic waters and dental caries, Public
Health Rep,1941;56:761-792.
212. Dean, H.T.,Arnold,F.A and Evolve,E, Domestic waters and dental caries, Public
Health Rep, 1942; 57: 1155-1179.
213. Richards, L.F., Westmoreland, W.W., Tashiro, M and Mckay, C.M Determination of
optimum fluoride levels for community water supplies in relation to temperature,
Journ.Am.Dent.Assoc, 1967; 74: 389-397.
214. Fejerskov, O., Baelum, V and Richards, A, Dose – Response and dental fluorosis,
Fluoride in dentistry, 2nd
ed., Copenhagen, Munksgaard, 1996; 153-166.
215. Chen, Y, Air pollution – type fluorosis in the region of Pingxiang, Jiangxi, Peoples
Republic of China, Arch.Env.Health, 1993; 48: 246-249.
%!
216. Grimaldo, M.,Borja Abuto,V and Ramirez,A.L, Endemic fluorosis in San Luis Potosi,
Identification of risk factors associated with human exposure to fluoride, Env.Res,
1995; 68: 25-30.
217. Han, Y.Z., Zhang, J.Q., Liu, X.Y and Zhang, X.H, High fluoride content and endemic
fluorosis, Fluoride, 1995; 28: 201-202.
218. Grynpas, M, Fluoride effects on bone crystals, Journ.Bone.Miner.Res, 1990; 5: 5169-
5175.
219. USDHHS, Review of fluoride. Benefits and risks. Report of the Ad Hoc
Subcommittee on Fluoride of the Committee to Coordinate Environmental Health and
Related Programms. Washington, DS, US Department of Health and Human Service,
Public Health Service, 1991.
220. Krishnamachari, K, Fluoride, Trace. Elem.Hum.Anim.Nutr, 1987; 1: 365-415.
221. Krishnamachari, KA.V.R. And Krishnaswamy. K, Genu valgum and osteoporosis in
an area of endemic fluorosis, Lanct, 1973; 2: 887-889.
222. Jackson, W.P.U, Further observations on the Kenhardt bone disease and its relation to
fluorosis, S.Afr.Med.Journ, 1962; 36: 932-936.
223. Krishnamachari, K.A.V.R, Further observations on the syndrome of genu valgum of
South India, Ind.Journ.Med.Res, 1976; 64: 284-291.
224. Michael, M., Basol, V.V and Chinoy, N.J, Investigations of soft tissue functions in
fluorotic individuals of North Gujarat, Fluoride, 1996; 29: 63-71.
225. Tobayiwa, C, Fluoride levels and dental fluorosis in two districts in Zimbabwe, Cent.
Afr.Journ.Med, 1991; 37: 353 – 361.
%$
226. Haimanot, R, Neurological complications of endemic skeletal fluorosis with special
emphasis on radiolo – myelopathy, Paraplegia, 1990; 28: 244-251.
227. Zang, Z.Y, The effect of nutrition on the development of endemic osteomalacia in
patients with skeletal fluorosis, Fluoride, 1996; 29: 20-24.
228. Felsenfed, A and Roberts, M, A report of fluorosis in the United States secondary to
drinking well water, Journ.Am.Med.Assoc, 1991; 265: 486-488.
229. Susheela, A.K.,Kumar,A.,Bhatnagar,M and Bahadur,R, Prevalence of endemic
fluorosis with gastro intestinal manifestations in people living in some North – Indian
Villages, Fluoride, 1993; 26: 97-104.
230. Shivashankara, A.R, A clinical and biochemical study of chronic fluoride toxicity in
children of Kheru Thanda of Gulbara District, Karnataka, India, Fluoride, 2000; 33:
66-73.
231. Saralakumari, D and Ramakrishna Rao, P, Endemic fluorosis in the village Ralla
Ananthapuram in Andhra Pradesh, an epidemiological study, Fluoride, 1993; 26:
177-180.
232. Black, G.V and Mckay, F.S, Mottled teeth, an endemic developmental imperfection
of the enamel of the teeth unknown in the literature of dentistry, Dent.Cosmo, 1916;
58: 129-156.
233. Fomon, S.J, Fluoride intake and prevalence of dental fluorosis, trends in fluoride
intake with special attention to infant, Journal of public Health Dentistry, 2000;
60(3): 131-139.
%%
234. Levy, S.M, Use of fluorosis risk index in a cohort study, the low fluoride study,
Journal of public Health Dentistry, 2006; 66(2): 92-96.
235. Warnakulasurya, K.A.A.S, Determining optimal levels of fluoride in drinking water
for hot, dry climates a case study in Srilanka, Community Dentistry and Oral
Epidemiology, 1992; 20: 364-367.
236. Akpata, E.S., Fakiha, Z and Khan, N, Dental fluorosis in 12-15 years old rural
children exposed to fluorides from drinking water in the Hail region of Saudi Arabia,
Community Dentistry and Oral Epidemiology, 1997; 25(4): 324-327.
237. Al-khateeb, T.L., Al-Marasafi, A.I and O’mullane, D.M, Caries prevalance and
treatment need among children in an Arabian Community, Community Dentistry and
Oral Epidemiology, 1991; 19: 277-288.
238. RGNDWM. Prevention and control of fluorosis in India, Water Quality and
Defluoridation Techniques, Published by Rajiv Gandhi National Drinking Water
Mission, Ministry of Rural Development, New Delhi, 1993; 2.
239. Ragavachari, T.N.S and Venkatraman, K, Endemic fluorosis in Nellore district of
Madras State, Indian.Journ.Med.Res, 1940; 28: 517-532.
240. Ramamohan Rao, N.V and Rajyalakshmi, K, Studies of water quality and incidence
of fluorosis in Andhra Pradesh, Symposium on fluorosis, Hydrabad Proceedings,
1974; 273-284.
241. Brar, J, Hydrochemistry of underground waters of Bhawanigarh block, Sangrur
districts, Indian.Journ.Env.Health, 1984; 26(3): 202-211.
%&
242. Gupta, I, Drinking water and fluorosis in Doda, National Seminar on water for life,
Univ. of Jammu, 1995.
243. Gupta, S.C, Evaluation of quality of well waters in Udaipur district, Rajasthan,
Indian.Journ.Env.Health, 1981; 23(3): 195-202.
244. Gupta, S.C, Chemical characteristics of ground waters in Nagpur District, Rajasthan,
Indian. Journ.Env.Health, 1991; 33(3): 341-349.
245. Dwarakanath, M and Subburam, V, Incidence of fluorosis in a small village
population, Indian. Journ.Env.Health, 1991; 33(2): 182-186.
246. Bhavani Shankar, V and Muthukrishnan, N, Is the ground water in Madras City
Potable, Indian. Journ.Env.Prot, 1994; 14(3): 176-179.
247. Gapalan Viswanadhan, Mapping of fluoride endemic areas and assessment of fluoride
exposure, Science of the Total Environment, 2000; 407: 1579-1587.
248. Ramamohana Rao, N.V., Navaneesh Rao, T and Rao, K.S.P. Incidence of fluoride in
water resources of Andhra Pradesh- Studies of factors influencing the distribution of
the ion. Geological survey of India, Special Publications, 1980; 1: 451-461.
249. Appa Rao, B. V and Karthikeyan, G, Permissible limits of fluoride ion in drinking
water in Indian rural environment. Indian. Journ.Env.Prot, 1986; 6 (3): 172-175.
250. Rao, B.N and Rao, S.V.R and Chowdary, G.V.V.S. Suspected fluorosis at Konda
paten area – a case study. Indian. Journ.Env.Prot, 1990; 10(5): 360-362.
251. Gangal, R.K. and Zubsh, K. Ground water pollution and the effect of rain near Khetri
copper complex. Indian. Journ.Env.Health, 1990; 23(4): 339-344.
%'
252. Sudarshan, V and Reddy, B. R, Pollution of fluoride in ground water and is impact on
environment and socio economic status of the people – a case study in Sivannagudem
area, Indian. Journ. Env.Prot, 1991; 11 (3): 185 – 192.
253. Gupta, M.K, et al, Ground water fluoride levels in a rural area of district Agra.
Indian.Journ. Env.Prot, 1994; 14(5): 370-372.
254. Tripathi, A.K. and Singh, R.C. Fluoride level in ground water and ground water
quality in rural area of district Alwar, Indian.Journ.Env.Prot, 1996; 16(10): 748 –
754.
255. Maithani, P.B., Ravindra Gurjar., Rahul Banerjee., Balaji, B.K., Ramachandran, S
and Rajendra Singh, Anamalous fluoride in ground water from western part of Sirohi
district, Rajasthan and its crippling effect on human health, Current Science, 1998;
74(9): 773 -777.
256. Awadia, A.K., Birkeland, J.M., Hauge Jorden, O and Bjorvatn, K. An attempt to
explain why Tanzanian children drinking water containing 0.2 to 3.6 mg/l of fluoride
exhibit a similar level of dental fluorosis. Clinical Oral Investigation, 2000; 4(4):
238-244.
257. Kausar, R., Ahmad, S., Rahman, K and Ahmad, R, Fluoride status of underground
water of Faisalabad city area, International. Journal of Agriculture and Biology, 2003;
5(4): 536-539.
258. Ncube, E.J and Schutte, C.F. The occurrence of fluoride in South Africa ground
water. A water quality and health problem. Water SA. 2005; 31(1): 35-40.
%(
259. Gandal, R.K. Geochemical study of ground water of Sangner area of Rajasthan and
different methods to mitigate fluoride problem. Asian Journal of Water
Environmental and Pollution. 2007; 4(2):93-97.
260. Pandith Madhnure., Srisikar, D.Y., Tiwari, A.N., Ranjan, B and Malpe, D.B.
Occurrence of fluoride in the ground waters of Pandharkawada area, Maharashtra,
Current Science, 2007; 92(5):675-679.
261. Ragavachari Srikanth., Tripathi Ramesh Chandra and Bhupathi Ravikumar, Endemic
fluorosis in five villages of the Palamau district, Jharkhand, Fluoride, 2008; 41(3):
206-211.
262. Veena Chaudary., Mukesh Sharma and Yadav, B.S. Assessment of water fluoride
toxicity levels in North West Rajasthan, Fluoride, 2008; 41(3): 212-215.
263. Yadav, A.K., Khan, P and Saxena, U. Geochemical observation of fluoride in ground
water of Tonk, Rasayan, Journ.Chem, 2009; 2(4): 994-1000.
264. Girja Shanker Tailor and Singh Chandel, C.P. To assess the quality of ground water
in Malpura Tehsil with emphasis to fluoride concentration. Nature Science, 2008;
8(11): 20-26.
265. Jayawardana, D.T., Pitawata, H.M.T.G. A and Ishiga, H. Ground water quality in
different climatic zones of Sri Lanka: Focus on the occurrence of fluoride. Inter.
Journ.Envi.Sci.and Development, 2010; 1(3): 244-250.
266. Bhupan Kumar Baruah., Ansarul Haque., Bharita Das., Kaushik Misra., Chitrani
Medhi and Abani Kumar Misra, Fluoride ion in drinking water and prevalence of
&)
dental fluorosis among the population in some tea garden belt villages in Golaghat
district of Assam, India, Archieves of Applied Science Research, 2011; 3(1): 175-179.
267. Alagappan Sethuraman., Ekwal Imam., Tesfamichael, G and Yohannes. Fluorible
contamination in estuary water villages located around SIPCOT industrial zone,
Cuddalore, TamilNadu, Journ.Mater.Envir.Sci, 2013; 4(4): 520-525.
268. George Joseph and Prasad, Epidemiological studies on filariasis in the coastal belt of
Kerala, Ball. WHO, 1967; 356-385.
269. Kothari, C.R, Research Methodology, Methods and Techniques, Wiley Eastern
Limited, New Delhi, 1985; 85.
270. WHO, Oral health surveys, basic methods, 4th
edn, Geneva, 1997.
271. Standard Methods for Examination of Water and Waste Water, American Public
Health Association, American Water Pollution Control Federation, 14th
Edition,
Washington, 1976.
272. Vogel’s Text Book of Quantitative Inorganic Analysis including Elementary
Instrumental Analysis”, Published by Longmann, USA, 4th
Edition, 1978; 310.
273. Day, R.A, Underwood, A.L, “Quantitative Analysis” Prentice Hall of India Private
Limited, New Delhi, 1988; 691.
274. Standard Methods for the Examination of Water and Waste Water, American Public
Health Association, American Water Work Association and Water Pollution Control
Federation, 16th
Edition, Washington, 1985.
275. Vogel’s Text Book of Quantitative Inorganic Analysis, 4th
Edition, 1978; 326.
&
276. Sharma, K.K and Sharma, D.S, An Introduction to Practical Chemistry, 3rd
revised
Edition, 1989; 73.
277. Saxena, M.M, Environmental Analysis of Water, Soil and Air, Published by Agro
Botanical Publishers, India, 2nd
Edition, 1990; 48.
278. Fluoride ion selective electrode user Guide, Thermo Scientific Orion fluoride ion
selective electrode model no. Orion, 9609 BNWP.
279. Instructions manual for pH meter systronics, Model No: MK VI.
280. Instruction manual for conductivity bridge Systronics, Model No: MK509.
281. Instruction manual for µ spectrocord 107.
282. Standard Methods for the Examination of Water and Waste Water, American Public
Health Association, American water works Association, water Environmental
Federation, 18th
Edition, Washington, 1992.
283. Saxena, M.M, Environmental Analysis of Water, Soil and Air, Published by Agro
Botanical Publishers, India, 2nd
Edition, 1990; 50.
284. Instruction Manual of Systronics Flame Photometer, unit 121 and Systronics FPM
compress or unit 122.
285. Basheer Ashamed, M., Kannan, N., Premanathan, S., Vivekanandan, S.M and Abdul
Khadir, A, Laboratory manual for “Detailed Analysis of Soil”, Tamil Nadu Dept. of
Agriculture, 1992.
286. Teotia, S.P.S, “Environmental fluoride and metabolic bone disease, an
epidemiological study (fluoride and nutrient interactions)”, Fluoride, 1984; 17: 14-33.
&"
287. Malde,M.K., Greiner,R., Simonsen, K. Julshamn and K. Bjorvatn, “Tea leaves may
release or absorb fluoride depending on the fluoride content of water” Science of the
Total Environment, 2006;366: 915-917.
288. Annapoorna Kubakkadi, Pushpa Bharati and Kasturiba, B, “Effect of fluoride rich
adjuncts and prevalence of fluorosis”, Journ.Hum.Ecolo, 2005; 17: 43-45.
289. Oster, “Dental fluorosis in relation to nutritional status, living habits and occupation
in rural tribal areas of Rajasthan, India, Research Report Fluoride”,2009; 42(3):210-
215.
290. Meenakshi and Maheshwari, R.C., Fluoride in drinking water and its removal, Journ.
Hazard.Material, 2006; 37: 456-463.
291. Ramesh, K and Vennila Soorya, Fluoride contamination in drinking water in
Palacode region, Tamil Nadu, International Journal of Research in Chemistry and
Environment, 2012; 2 (1): 116-123.
292. Hodge, H.C and Smith, F.A, Effect of fluoride on bones and teeth in fluoride
chemistry, Academic Press, New York, 1965; 4: 337-693.
293. Indian Standard Specification for drinking water, ISI; 1991.
294. Bagga, O.P., Gupta, R., Gulati, P.V and Goel, A, “A follow up study of fluorosis a
decade after a change in the source of drinking water preliminary report” New Delhi,
India, Fluoride, 1980; 13(1):25.
295. Sanjay Kumar, Bhatta Charjee, J.W. and Sharma, R.K, Relationship between fluoride,
total hardness and total alkalinity in the ground water of Barmer district, Poll.Res,
1992; 11: 111-116.
&#
296. Saxena, V.K and Ahmed, S, Distribution of fluoride in ground water. A water-rock
interaction study, Environmental Geology, 2001; 40: 1084-1087.
297. Tutmeza, B., Hatipogub, Z and Kaymak, V, Modelling electrical conductivity of
ground water using an adaptive neurofuzzy interference system, Comput.Geoscience,
2009; 32:421-433.
298. Jacks, G., Battacharya, P., Chaudhary, V and Singh, K.P, Controls on the genesis of
some high fluoride waters in India, Appl.Geochem, 2005;20: 221-228.
299. Meybeck, M, Rev. Geol. Dyn. Geogr. Phys, 1997; 27: 215-246.
300. Mithal, A., Trivedi, N., Gupta, S.K., Kumar, S and Gupta, R.K, Radiological
spectrum of endemic fluorosis: relationship with calcium intake, Skeletal Radiol,
1993; 22: 254-261.
301. Hem, J.D, U.S. Geol. Survey, water supply paper, 1985; 2254, 264.
302. Handa, B.K., Ground water, 1975; 13: 275-281.
303. Teotia, S.P.S., Teotia, M and Singh, R.K, Hydrogeochemical aspects of endemic
skeletal fluorosis in India – an epidemiological study, Meerut, India, fluoride,1981;
14 (2): 69.
304. Govardhan Das, S.V., The fluoride problem options for community water supply in
Andra Pradesh (India), Project Report, water, Engineering and Development Centre,
Lough Borough University of Technology, Leice Stershire, England, 1994.
305. Joydev Dutta., Manoranjan Nath., Mridual Chetia., Abanikr and Misra, Monitoring of
fluoride concentration in ground water of small tea gardens in Sonitpur district,
&!
Assam, India, correlation with physivo-chemical parameters; Int.Journ.Chem.Tech.
Research; 2010; 2(2): 1199-1208.
306. Hydrogeological study of the occurrence of fluoride in ground water in parts of
Pandharkawader Tahsil, Yavatmal district, Maharashtra state, Technical report,
Central Ground Water, Ministry of Water Resources, Govt. of India, 2002, 18.
307. Subba Rao, N and Rao, A.T, Fluoride in ground water in a developing area of Guntur
district, Andhra Pradesh, India, Journ.Appl.Geochem, 2003; 5: 94-100.
308. Smedley, P.L and Kinningburgh, D.G, Appl.Geochem, 2002; 17: 517-568.
309. Zhao, X.L., Wu, J.H, Actions of Sodium fluoride on acetyl cholinesferase activities in
rats, Biomed.Env.Sci, 1998; 11: 1-6.
310. Bigay, J., Deterre, P., Pfister, C and Chabre, M; Fluoride complexes of aluminium or
beryllium act on G-proteins as reversibly bound analogues of the gamma phosphate
of GTP. EMBO. Journ, 1987; 6: 2907-2913.
311. Martin, R.B, Ternary hydroxide complexes in neutral solution of Al3+
and F,
Biochem.Biophy .Res.Commun, 1988; 155: 1194-1200.
312. Chabre, M, Alumino fluoride and beryllofluoride complexes: new phosphate analogs
in enzymology; Trends in Biochem. Sci, 1990; 15: 6-10.
313. Caverzasio, J., Imai, T., Ammann, P., Burgenes, D and Bonjour, J.P; Aluminium
potentials the effect of fluoride on tyrosine phosphorylation and osteoblast replication
in vitro and bone mass invivo; Journ. Bone.Miner.Res, 1996; 11: 46-56.
314. WHO, Guidelines for drinking water quality. World Health Organisation,
Geneva,1984; 2: 249
&$
315. Okibe, F.G., Ekwumengbo, P.A., Sallau, M.S and Abanka, O.C, Fluoride content of
soil and vegetables from irrigation farms on the bank of river, Galma, Zaria, Nigeria,
Austr, Journ.Basic.Appl.Sci, 2010; 4(5): 779-784.
316. Sharma, P.D, Environment pollution in: ecology and environment. 7th
Ed, Meerut,
India: Rastogi publications; 2002.
317. Omueti, J.A. I and Jones; R.L. Fluoride distribution with depth in relation to Profile
development in illirosis. Soil.Sci.Soc.Am.Journ, 1980; 44: 247-249.
318. Rao; B., Nagamalleswor, S.V.R. and Chowdary, G.V.V.S, Indian. Journ. Env. Prot,
1990; 10(5): 160-162.
319. Saxena, V.K and Ahmed, S, Inferring the chemical parameters for the dissolution
fluoride in ground water, Environmental Geology, 2003; 43: 731-736.
320. Dissanayake, C.B and Chandrajith, R. Medical geology in tropical countries with
special reference to Sri Lanka. Env.Geo.Chem.Health, 2007; 29: 155 – 162.
321. Bassin, E.B., Wypij, D., Davis, R.B and Mittleman, A.M. Age – specific fluoride
exposure in drinking water and Osteosarcoma, Cancer Causes and Control, 2006; 17
: 421 – 428.
322. Shitumbanuma, V., Tembo, F., Temb, J.M., Chilala, S and Van Ranst, E. Dental
fluorosis associated with drinking water from hot springs in choma district in
Southern province, Zambia. Env.Geo.Chem.Health, 2007; 29: 51-58.
323. Jain, P., Sharma, J.D., Sohu, D and Sharma, P. Chemical analysis of drinking water of
villages of Sanganer Tehsit, Jaipur District, Int.Journ Env.Sci.Tech, 2006; 2(4): 373-
379.
&%
324. Chaudhary, V., Sharma, M and Yadav, B.S, Elevated fluoride in canal catchment
soils of Northwest Rajsthan, India, Fluoride, 2009; 42(1): 46-49.
325. Pouresalmi, H.R., Khazaeli, P and Nooric, G.R. Fluoride in food and water
Consumed in Koohbanan, Iran. Fluoride, 2008; 41(3): 216-219.
326. Gupta, S., Banerjee, S., Saha, S., Datta, J.K and Nondal, N. Fluoride geochemistry of
ground water in Nalhati – 1 block of the Birbhum district, West Bengal, India,
Fluoride, 2006; 39(4): 318-320.
327. Gupta, S., Banerjee, S and Mondal, S. Phytotoxicity of fluoride in the germination of
paddy and its effect on the physiology and biochemistry of germinated seedling.
Fluoride, 2009; 42(2): 142 – 146.
328. Weinstein, L.H and Davison, A. Fluoride in the environment. Effect on plants and
animals. CAB international, Wallingford, 2004.
329. Sabal, D., Khan, T.I and Saxena, R. Effect of sodium fluoride on cluster bean seed
germination and seeding growth. Fluoride, 2006; 39(3): 228 – 230.
330. Horstmar, S., Lithiuma, U., Sluorkalium, A.L.S and Bedinngungun, Z and
Bchtbiding, F.D.G. Journ.Praktische.Chemie, 1986; 84: 140.
331. Bertrand, G, Lesengrar Complementaries, Ber 5, Intern Konger Arrgew Chem. III,
Berlin, 1903; 839.
332. Maze, P. Determination dis elements mineraux raus necessaries au development du
mais Comptes Rendus, 1915; 160: 211 -214.
333. Mitchell, H.H and Edman, M. The fluoride problem in live stock feeding, Nutrition
Abstracts and Reviews, 1952; 21: 787 – 804.
&&
334. Ledbetter, M.C., Mavrodineau, R and Weiss, A.J. Distribution Studies of radioactive
fluoride and stable fluoride in tomato plants. Contribution of the Boyce Thompson
Institute, 1960; 20: 331 – 348.
335. Lavelace, J, Miller G.W and Welkie, G.W. The accumulation of fluoroacetate and
fluorocitrate in forage crops collected near a phosphate plant, Atmospheric
Environment, 1968; 2(2): 187 – 190.
336. Machoy, J and Shomujlo, D. Contents of fluoride in vegetables from areas
contaminated by industrial emission. Fluoride, 1981; 14(3): 112 – 114.
337. Stanly, A.V., Shaleesha, A and Pillai, K.S. Impact of fluoride accumulation in plants
in an industrial area. Journal of Ecotoxicology and Environmental Monitoring, 1988;
8(4): 275-278.
338. Singh, A., Chhabra, R and Abrol, I.P. Effects of fluorine and phosphosus on the yield
and chemical composition of rice grown in soils of two sodicities. Soil Science, 1979;
127: 86-93.
339. Singh, V., Gupta, M.K., Raiwanshi, P., Mishra, S., Srivastava, S., Srivastava, R.,
Srivastava, M.M., Prakash, S and Dass, S. Plant uptake of fluoride in irrigation water
by Ladies finger. Food and Chemical Toxicology, 1995; 33(5): 399-402.
340. Rajyalakshmi, K and Ramamohana Rao, N.V. Fluorosis in Nalgonda District in
relation to Chemical Characterization of potable water and stable food. Fluoride,
1985; 18(4): 198-203.
341. Gupta, S and Benerjee, S. Fluoride accumulation in crops and vegetables and dietary
intake in a fluoride – endemic area of West Bengal, Fluoride, 2011; 44(3): 153-157.
&'
342. Yang, Y. Control technology for atmosphere fluorine pollution. Chinese Journal of
Health Technology, 2000; 13(6): 35-37.
343. Pan, R.G, Study on the Contents of fluorine, sulfur and chlorine in 20 vegetables
grown in suburbs of Nanjing, Rural.Eco.Environment, 1995; 11(30): 26-30.
344. Treshow, M. Environment and plant response. New York, Mc Graw – Hill; 1970.
345. Shikha Modi and Ranjeeta Soni, Merits and Demerits of different technologies of
defluoridation for drinking water, IOSR Journal of Environment Science, Toxicology
and Food Technology, 2013; 3(2): 24-27.
346. Patil, A.R, and Kulkarni, B.M, Study of ion exchange regime and activated alumina
as defluoridation media, Journal of Institution of Engineers, India, 1989; 3: 14-16.
347. Killedar, D.J and Bhargva, D.S, An Overview of defluoridation methods (Part – 1),
Journal of Institution of Public Health Engineers, 1998; 1(1): 6-13.
348. Amarjeet, Dahiya, S and Kaur, A, Studies on removal of fluoride by Coconut Cair
Pith Carbon, Indian.Journ.Env.Prot, 1999; 11: 68-71.
349. Sreenivasulu, A., Sumdaram, E.V and Reddy, M.K, Defluoridation studies using
activated carbon prepared from umbles of parangos Pavularia Lindl, Journal of
Industrial Pollution Control, 1999; 15(2): 24-27.
350. Shrivastava, P.K and Deshmukh, A, Defluoridation of water with natural zeolite,
Journal of Institution of Public Health Engineers, India, 1994; 4: 11-14.
351. Christofferson, J., Christoffersen, M.R. and Larsen, R, Regeneration of surface
coating of bone char used for defluoridation of water, Water Resources Journal,
1991; 25: 223-229.
&(
352. Arulanantham, A., Ramerishna, T.V and Balasubramanian, N, Studies on fluoride
removal by Cocount Shell Carbon, Journal of Environmental Protection, 1992; 12
(7): 531-535.
353. Tembhurkar, A.R and Shilpa Dongre, Studies on Fluoride removal using adsorption
process, Journ.Env.Sci.Eng, 2006; 48(3): 151-156.
354. Mahmoud Shams., Ramin Nabizadeh Nodehi., Mohamad Hadi Dehghani., Masoud
Younesian., Amir Hossein Mahvi, Efficiency of granular ferric hydroxide (GFH) for
removal of fluoride from water, Fluoride, 2010; 43(1): 61-66.
355. Azizian, F, Removal of fluoride from potable water using activated alunmina, Procd
of Int. workshop on fluoride in drinking water, Organised by Govt. of Madhya
Pradesh at Bhopal, 2001; 22-24.
356. Puri, B and Balani, S, Traced determination of fluoride using Lanthanum hydroxide
supported on alumina, Journal of Environmental Science and Health, 2000; 35(1):
109-121.
357. Balusu, K.R and Nawalakhe, W.G, Fluoride in water defluoridation methods and their
applications, Journal of Institution of Engineers, 1979; 60(1): 125-133.
358. Bhakuni, T.S. and Sharma, N.N, Studies on defluoridation, Bulletin, 1970; 7: 77-80.
359. Mohan Rao, N.V.R and Bhaskaran, C.S, Studies on defluoridation of water, Journal
on Fluorine Chemistry, 1998; 41: 17-24.
360. Eckenfemder, W.W. Jr, Industrial water pollution Control, Mc Graw Hill
International Publications, 3rd
edition, Environmental Engg. Series, 2000.
361. Murugan, M and Subremanian, E, Journal On Water Health, 2006; 4: 453-460.
