Hostname: page-component-848d4c4894-75dct Total loading time: 0 Render date: 2024-05-09T04:42:45.429Z Has data issue: false hasContentIssue false
  • English
  • Français

Effects of Herbicides on Water and Its Inhabitants

Published online by Cambridge University Press:  12 June 2017

W. R. Mullison
W. R. Mullison*
Affiliation:
Agricultural Department, The Dow Chemical Company, Midland, Michigan
Get access Rights & Permissions [Opens in a new window]

Abstract

There is little evidence that herbicides from agronomic or industrial usage are reaching or accumulating in our water supplies in amounts to cause a pollution problem. Fish tolerance to weed killers varies with their size and species as well as with differences in the aquatic site. There may be variation to different forms of the active ingredient. Other components in a formulation may be more toxic than the herbicide itself. Therefore, the LD50 of different formulations should be determined. In addition, the manner and other circumstances involving application of a herbicide may change its toxicity to water inhabitants. Our current knowledge of the effects of herbicides on fish, plankton, and other water inhabitants indicate that harmful effects with our present herbicides, when such exist, are only temporary. Available evidence suggests there is no biological magnification problem with herbicides.

Type
Research Article
Information
Weed Science , Volume 18 , Issue 6 , November 1970 , pp. 738 - 750
Copyright
Copyright © Weed Science Society of America 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Literature Cited

1. Alabaster, J. S. 1969. Survival of fish in 164 herbicides, insecticides, fungicides, wetting agents and miscellaneous substances. Int. Pest Contr. 11:2935.Google Scholar
2. Aldhous, J. R. 1967. 2,4-D residues in water following aerial spraying in a Scottish forest. Weed Res. 7:239241.CrossRefGoogle Scholar
3. Allen, R. L., Meekin, T. K., Pauley, G. B., and Fujihara, M. Paul 1968. Mortality among chinook salmon associated with the fungus Dermocystidium . J. Fish Res. Board Can. 25:24672475.CrossRefGoogle Scholar
4. Aly, O. M. and Faust, S. D. 1964. Studies on the fate of 2,4-D and ester derivatives in natural surface waters. T. Agr. Food Chem. 12:541546.CrossRefGoogle Scholar
5. Applegate, V. C., Howell, J. W., Hall, A. E., and Smith, M. A. 1957. Toxicity of 4,346 chemicals to larvae, lampreys and fishes. Fish and Wildlife Serv., U.S. Dep. of Int., Washington, D.C. Spec. Sci. Rep. Fisheries 207. p. 157.Google Scholar
6. Averitt, W. K. 1967. An evaluation of the persistence of 2,4-D amine in surface waters in the state of Louisiana. Proc. So. Weed Conf. 20:342347.Google Scholar
7. Avraman, F. V. 1968. Maximum permissible concentration of ‘prometrin’ in bodies of water. Gigiena i Sanit. Hyg. Sanit. 33:163167.Google Scholar
8. Axe, J. A., Mathers, A. C. and Wiese, A. F. 1969. Disappearance of atrazine, propazine, and trifluralin from soil and water. Proc. So. Weed Conf. 22:367. (Abstr.) Google Scholar
9. Ball, R. C. 1966. Use of 74As-tagged sodium arsenite in a study of effects of a herbicide on pond ecology. Proc. of Symp., Oct. 25–29, 1965. Vienna, Austria. pp. 149163.Google Scholar
10. Beasley, P. G., Lawrence, J. M., and Funderburk, H. H. Jr. 1965. The absorption and distribution of C14-labeled diquat in the goldfish (Carossius airratus L.). Proc. So Weed Conf. 18:581. (Abstr.) Google Scholar
11. Beaven, G. F., Rawls, C. K., and Beckett, G. E. 1962. Field observations upon estuarine animals exposed to 2,4-D. Proc. No. East. Weed Contr. Conf. 16:449458.Google Scholar
12. Blackburn, R. D. and Weldon, L. W. 1963. Results of three years' testing diquat as an aquatic herbicide in Florida. Proc. So. Weed Conf. 16:365. (Abstr.) Google Scholar
13. Blok, E. 1969. Experiments with herbicides in fishing waters 1964–1967. Weed Abstr. 18:117. No. 746.Google Scholar
14. Brown, E. and Nishioka, Y. A. 1967. Pesticides in selected western streams—A contribution to the national program. Pest. Moni. J. 1:3841.Google Scholar
15. Bruns, V. F. 1951. The response of certain crops to 2,4-dichlorophenoxyacetic acid in irrigation water. Weeds 1:359376.Google Scholar
16. de Jong, C. M. Bungenberg 1969. The use of diuron in pond pisciculture. Weed Abstr. 18:118. No. 753.Google Scholar
17. Burdrick, G. E., Dean, H. J., and Harris, E. J. 1964. Toxicity of aqualin to fingerling brown trout and bluegills. N.Y. Fish Game J. 11:106114.Google Scholar
18. Butler, P. A. 1963. Commercial fisheries investigations. U.S. Fish and Wildlife Serv. Circ. 167:1125.Google Scholar
19. Butler, P. A. 1964. Commercial fisheries investigations. U.S. Fish and Wildlife Serv. Circ. 199:528.Google Scholar
20. Butler, P. A. 1965. Effects of herbicides on estuarine fauna. Proc. So. Weed Conf. 18:576580.Google Scholar
21. Cassie, V. Effects of spraying on phytoplankton in Lake Rotorua. Proc. Rotorua Seminar on Water Weeds, sponsored by U. Ext. Serv. Univ. Auckland, New Zealand. Oct. 15, 1966. 3140.Google Scholar
22. Chancellor, R. J. and Ripper, W. E. 1960. Control of reeds and other emergent water weeds in drainage ditches, ponds and water courses. The effects of dalapon on fish. Weed Abstr. 9:No. 696.Google Scholar
23. Coats, G. E., Funderburk, H. H. Jr., Lawrence, J. M., and Davis, D. E. 1964. Persistence of diquat and paraquat in pools and ponds. Proc. So. Weed Conf. 17:308320.Google Scholar
24. Cochrane, D. R., Pope, J. D. Jr., Nicholson, H. P., and Bailey, G. W. 1967. The persistence of silvex in water and hydrosoil. Water Resour. Res. 3:517523.CrossRefGoogle Scholar
25. Cope, O. B. 1965. Some responses of fresh-water fish to herbicides. Proc. So. Weed Conf. 18:439445.Google Scholar
26. Cope, O. B. 1966. Contamination of the fresh-water ecosystem by pesticides. J. Appl. Ecol. 3(Supplement):3344.CrossRefGoogle Scholar
27. Cope, O. B., McCraren, J. P., and Eller, L. 1969. Effects of dichlobenil on two fish pond environments. Weed Sci. 17:158165.CrossRefGoogle Scholar
28. Cowell, B. C. 1965. The effects of silvex on aquatic vegetation and plankton in central New York farm ponds. Down to Earth 21(1 & 2): 1920.Google Scholar
29. Cowell, B. C. 1965. The effects of sodium arsenite and silvex on the plankton populations in farm ponds. Trans. Am. Fish. Soc. 94:371377.CrossRefGoogle Scholar
30. Crosby, D. G. and Tucker, R. K. 1966. Toxicity of aquatic herbicides to Daphnia magna . Science 154:289291.CrossRefGoogle ScholarPubMed
31. Daly, R. W., Funderburk, H. H. Jr., and Lawrence, J. M. 1968. Persistence of diquat, paraquat, and 2,4-DBEE when used for eurasian watermilfoil (Myriophyllum spicatum L.) control. Proc. So. Weed Conf. 21:299.Google Scholar
32. Davis, E. A., Ingebo, P. A., and Pase, C. P. 1968. Effect of a watershed treatment with picloram on water quality. U.S. Forest Res. Note RM-100. Rocky Mountain Forest and Range Experiment Station, Fort Collins, Colorado. 4 p.Google Scholar
33. DeOliveira, E. Silva, S. L. 1961. Influence of 2,4-D amine on plankton of marshy areas (preliminary note). Weed Abstr. 10:No. 1080. Not paged.Google Scholar
34. Estes, R. D. 1966. Some preliminary observations and findings on effects of silvex on the aquatic environment. Proc. So. Weed Conf. 19:415419.Google Scholar
35. Faust, S. D., Tucker, R. J., and Aly, O. M. 1961. A preliminary report on the effect of some aquatic herbicides on water quality. Proc. No. East Weed Contr. Conf. 15: 546548.Google Scholar
36. Faust, S. D., Younger, R. R., Tucker, J. T., and Aly, O. M. 1962. Observations on the occurrence and persistence of 2,4-D and 2,4-dichlorophenol in lake water. Proc. No. East Weed Contr. Conf. 16:459465.Google Scholar
37. Faust, S. D. and Aly, O. M. 1963. Some effects of 2,4-D and 2,4-DCP on drinking water quality. Proc. No. East Weed Contr. Conf. 17:460470.Google Scholar
38. Ferguson, F. F., Dawood, E. K., and Blondeau, R. 1965. Preliminary field trials of acrolein in the Sudan. World Health Org. Bull. 32:243248.Google ScholarPubMed
39 Flanagan, J. H. 1960. A review of simazine for aquatic weed control. Proc. No. East Weed Contr. Conf. 14:502505.Google Scholar
40. Frank, P. A. 1966. Persistence and distribution of monuron and neburon in an aquatic environment. Weeds 14:219222.CrossRefGoogle Scholar
41. Frank, P. A., Hodgson, R. H., Comes, R. D. 1967. Residues of two herbicides in water irrigation canals. Weeds 15:353355.CrossRefGoogle Scholar
42. Frank, P. A. and Comes, R. D. 1967. Herbicidal residues in pond water and hydrosoil. Weeds 15:210213.CrossRefGoogle Scholar
43. Fryer, J. D. and Evans, S. A. 1968. Weed Control Handbook, Vol. I, Principles. Blackwell Scientific Publications, Oxford and Edinburgh. 494 p.Google Scholar
44. Gaylor, J. and Houser, A. 1962. Three years' results with silvex for aquatic plant control in Oklahoma. Down to Earth 18(3):24.Google Scholar
45. Gilderhus, P. A. 1966. Some effects of sublethal concentrations of sodium arsenite on bluegills and the aquatic environment. Trans. Am. Fish. Soc. 95:289296.CrossRefGoogle Scholar
46. Gilderhus, P. A. 1967. Effects of diquat on bluegills and their food organisms. Prog. Fish Cult. 29:6774.CrossRefGoogle Scholar
47. Gratekowski, H. 1965. Project 3: Undesirable woody plants. Res. Comm. Prog. Rep. West. Weed Contr. Conf. 21:3550.Google Scholar
48. Gribanov, O. I. 1967. Contamination of a surface water supply source of the Shortandy Station with herbicide 2,4-D and butyl ester. Gig. Sanit. 32:9798.Google Scholar
49. Grzenda, A. R. 1963. Public health aspects of weed control in potable water supplies. Proc. So. Weed Conf. 16: 420424.Google Scholar
50. Grzenda, A. R., Nicholson, H. P., and Cox, W. S. 1965. The persistence of four herbicides in pond water. Proc. So. Weed Conf. 18:521525.Google Scholar
51. Guse, L. R. 1961. Aquatic weed control research in Indiana. Res. Rep. No. Cent. Weed Contr. Conf. 18:102.Google Scholar
52. Hambric, R. N. 1969. Testing diuron as an economical herbicide in recreation lakes. Proc. So. Weed Conf. 22: 321323.Google Scholar
53. Hardy, J. L. 1966. Effect of Tordon herbicides on aquatic chain organisms. Down to Earth 22(2):1113.Google Scholar
54. Harp, G. L. and Campbell, R. S. 1964. Effects of the herbicide silvex on benthos of a farm pond. J. Wildlife Manage. 28:308317.CrossRefGoogle Scholar
55. Hilsenhoff, W. 1966. Effects of diquat on aquatic insects and related animals. J. Econ. Entomol. 59:15201521.CrossRefGoogle Scholar
56. Holz, W. 1963. Chemical weed control in ditches: trials on the control of submerged plants. Weed Abstr. 12:100. No. 507. Not paged.Google Scholar
57. House, W. B., Goodson, L. H., Gadberry, H. M., and Dockter, K. W. 1967. Assessment of ecological effects of extensive or repeated use of herbicides: final report. Midwest Res. Inst., Kansas City, Missouri. 369 p.Google Scholar
58. Houser, A. and Gaylor, J. Y. 1962. Results of endothall and two formulations of silvex for the control of aquatic plants in Oklahoma. Proc. So. Weed Conf. 15:244255.Google Scholar
59. Houser, A. 1963. Loss in weight of sunfish following aquatic vegetation control using the herbicide silvex. Proc. Okla. Acad. Sci. 43:232237.Google Scholar
60. Hughes, J. S. 1962. The toxicity of fish of different formulations of 2,4,5-T, 2-(2,4-DP) and silvex. Proc. So. Weed Conf. 15:265266.Google Scholar
61. Hughes, J. S. and Davis, J. T. 1963. Variations in toxicity to bluegill sunfish of phenoxy herbicides. Weeds 11: 5053.CrossRefGoogle Scholar
62. Hull, H. M. (Chm.). 1967. Herbicide Handbook. Weed Soc. of Amer. 293 p.Google Scholar
63. Hunt, E. G. 1966. Biological Magnification of Pesticides Scientific Aspects of Pest Control 251–262. Nat. Acad. Sci., Washington, D.C. 470 p.Google Scholar
64. Ishizawa, S. and Matsuguchi, T. 1966. Effects of pesticides and herbicides upon microorganisms in soil and water under waterlogged conditions. Bull. Nat. Inst. Agr. Sci. (Japan), Ser. B. 16:190.Google Scholar
65. Jacorossi, F. 1965. The toxicological problems of controlling weeds in canals. Weed Abstr. 14:267268. No. 1506.Google Scholar
66. Johnson, R. E., Carver, T. C., and Dustman, E. H. 1967. Indicator species near top of food chain chosen for assessment of pesticide base levels in fish and wildlife—clams, oyster, and sediment in estuarine environment. Pest. Monit. J. 1:713.Google Scholar
67. Kenaga, E. E. 1969. Tordon herbicides—Evaluation of safety to fish and birds. Down to Earth 25(1):59.Google Scholar
68. Klingman, G. C. 1963. Weed Control: As a Science. John Wiley & Sons, Inc., New York. 421 p.Google Scholar
69. Kochkin, V. P. 1967. Experimental data for the hygienic standardization of the dalapon level in bodies of water. Gig. Sanit. 32:711.Google Scholar
70. Krammes, J. S. and Wellets, D. B. 1964. Effects of 2,4-D and 2,4,5-T on water quality after spraying treatment. U.S. Forest Serv. Res. Note PSW 52:14.Google Scholar
71. Lawrence, J. M. 1957. Recent investigations on the use of sodium arsenite as an algacide and its effects on fish production in ponds. Southeast. Assoc. Game and Fish Commissioners 11:281286.Google Scholar
72. Lawrence, J. M., Blackburn, R. D., and Beasley, P. G. 1961. Aquatic herbicide evaluation tests using plastic pools. Proc. So. Weed Conf. 14:309316.Google Scholar
73. Lawrence, J. M. 1962. Aquatic herbicide data. Agr. Handbook No. 231, Agr. Res. Serv., U.S. Dep. of Agr. 471 p.Google Scholar
74. Lawrence, J. M. 1965. Graphic presentation of aquatic herbicide data. Proc. So. Weed Conf. 18:568573.Google Scholar
75. Lindaberry, H. L. 1961. Considerations regarding the use of aquathol in potable watersheds. Proc. No. East Weed Contr. Conf. 15:481484.Google Scholar
76. Linden, G. and Muller, A. 1963. Further investigations on the effect of diesel oil on the soil. Allg. Forstzeitschr 18: 791793.Google Scholar
77. Mackenthun, K. M. 1960. Some limnological investigations on the long-term use of sodium arsenite as an aquatic herbicide. Proc. No. Centr. Weed Contr. Conf. 17:3031.Google Scholar
78. Mackenthun, K. M. 1961. Observations on the use of 2,4-D granules in fish hatchery ponds. Res. Rep. No. Centr. Weed Contr. Conf. 18:103.Google Scholar
79. Magee, L. A. and Colmer, A. R. 1959. Decomposition of 2,2-dichloropropionic acid by soil bacteria. Can. J. Microbiol. 5:255260.CrossRefGoogle ScholarPubMed
80. Maloney, T. E. 1958. Control of Algae with chlorophenyl dimethyl urea. J. Amer. Water Works Assoc. 50:417422.CrossRefGoogle Scholar
81. Marston, R. B., Schults, D. W., Shiroyama, T., and Snyder, L. V. 1968. Amitrole concentrations in creek waters downstream from an aerially sprayed watershed sub-basin. Pest. Monit. J. 2:123128.Google ScholarPubMed
82. Martynyuk, V. Z. and Gzhegotskii, M. I. 1967. Toxic chemical level in water and soil treated with chloroganic herbicides. Gig. Sanit. 32:9698.Google Scholar
83. Mathews, L. J. 1960. Aquatic weed control. Proc. New Zealand Weed Contr. Conf. 13:5861.CrossRefGoogle Scholar
84. Mount, D. I. and Stephen, C. E. 1967. A method for establishing acceptable toxicant limits for fish-malathion and the butoxyethanol ester of 2,4-D. Trans. Amer. Fish Soc. 96:185193.CrossRefGoogle Scholar
85. Mullison, W. R. 1966. Some toxicological aspects of silvex. Proc. So. Weed Conf. 19:426435.Google Scholar
86. National Academy of Sciences—National Res. Council. 1966. Principles of Plant and Animal Pest Control, Vol. 2, Weed Control. Nat. Acad. Sci., Washington, D.C. 471 p.Google Scholar
87. Newman, J. F. 1965. Methods of assessing wildlife hazards. Proc. Brit. Invest. and Fungic. Conf. 3:342357.Google Scholar
88. Newman, J. F. and Way, J. M. 1966. Some ecological observations in the use of paraquat and diquat as aquatic herbicide. Proc. Brit. Weed Contr. Conf. 582585.Google Scholar
89. Newman, J. F. 1968. The ecological effects of paraquat and diquat when used to control aquatic weed. Weed Abstr. 17:361. No. 2211.Google Scholar
90. Nicholson, H. P. and Thoman, J. R. 1965. Pesticide persistence in public water, their detection and removal, pp. 181189. In Research in Pesticides. Academic Press, Inc., New York.Google Scholar
91. Nishiuchi, Y. and Hashimoto, Y. 1967. Toxicity of pesticide ingredients to some fresh water organisms. Bull. Inst. Insect Contr. 32:511.Google Scholar
92. Noll, D. C. and Burdrick, R. 1961. Interim report on aquatic weed control of recreational waters above potable water. Proc. No. East Weed Contr. Conf. 15:470475.Google Scholar
93. Norris, L. A., Newton, M., and Zavitkovski, J. 1967. Stream contamination with amitrole from forest spray operations. Res. Prog. Rep., West. Weed Contr. Conf. pp. 3335.Google Scholar
94. Norris, L. A. 1968. Stream contamination by herbicides after fall rains in forest land. Res. Prog. Rep., West. Soc. of Weed Sci. pp. 3334.Google Scholar
95. Okubo, K. and Okubo, T. 1965. Influence of diluted sea water on the physiological activity of baby-neck clam, Venerupis japonica, and the toxic effect of an herbicide PCP, pentachlorophenate. Bull. Tokai. Reg. Fish Res. Lab. 44:3140.Google Scholar
96. Parka, S. J. and Worth, H. M. 1965. The effects of trifluralin on fish. Proc. So. Weed Conf. 18:469473.Google Scholar
97. Petruk, G. F. 1965. Effect of herbicides on heterotrophic microorganisms of ponds. Weed Abstr. 14:330. No. 1837.Google Scholar
98. Pierce, M. E. 1958. The effect of the weedicide Kuron upon the flora and fauna of two experimental areas of Long Pond, Dutchess County, New York. Proc. No. East Weed Contr. Conf. 12:338343.Google Scholar
99. Pierce, M. E. 1959. Further study of the effect of the weedicide Kuron upon the flora and fauna of Long Pond, Dutchess County, New York. Proc. No. East Weed Contr. Conf. 13:310314.Google Scholar
100. Pierce, M. E. 1960. Progress report of the effect of Kuron upon the biota of Long Pond, Dutchess County, New York. Proc. No. East Weed Contr. Conf. 14:472475.Google Scholar
101. Pierce, M. E. 1960. A study of the effect of the weedkiller, 2,4-D Granular, on three experimental plots of Long Pond, Dutchess County, New York. Proc. No. East Weed Contr. Conf. 14:483487.Google Scholar
102. Pierce, M. E. 1961. A study of the effect of the weedkiller 2,4-D Aqua Granular on six experimental plots of Long Pond, Dutchess County, New York. Proc. No. East Weed Contr. Conf. 15:539544.Google Scholar
103. Pierce, M. E. 1962. A comparative study of the application of three weedicides, Kurosal G, Kurosal SL and 2,4-D ester to three areas in Long Pond, Dutchess County. Proc. No. East Weed Contr. Conf. 16:435441.Google Scholar
104. Pierce, M. E. 1963. Progress report of the application of fenac granular to six small plots in Long Pond, Dutchess County, New York. Proc. No. East Weed Contr. Conf. 17:451455.Google Scholar
105. Pierce, M. E. 1966. Application of fenac to four small ponds on Vassar Campus. Proc. No. East Weed Contr. Conf. 20:470475.Google Scholar
106. Pierce, M. E. 1967. Study of a second year application of fenac to two small ponds on Vassar Campus. Proc. No. East Weed Contr. Conf. 21:530533.Google Scholar
107. Pierce, M. E. 1968. The effect of several herbicides on eight test areas in Nobska Pond, Woods Hole, Massachusetts. Proc. No. East Weed Contr. Conf. 22:195203.Google Scholar
108. Pierce, M. E. 1969. The effect of a combined formulation of 2,4-D and endothall upon a small pond. Proc. No. East Weed Contr. Conf. 23:376379.Google Scholar
109. Pierce, P. C., Frey, J. E., and Yawn, H. M. 1965. Field evaluations of newer aquatic herbicides. Proc. So. Weed Conf. 18:497506.Google Scholar
110. Pierce, P. C. 1966. Results of field testing newer aquatic herbicides with emphasis on spot treatment applications. Proc. So. Weed Conf. 19:374375.Google Scholar
111. Prowse, G. A. 1960. Notes on the toxicity to fish of some common agricultural insecticides and weedicides. Weed Abstr. 9:No. 1665. Not paged.Google Scholar
112. Rao, K. N. and Murty, M. S. 1968. Control of Ipomoea reptans Poir with herbicides in Andhra Pradesh. Weed Abstr. 17:364. No. 2233.Google Scholar
113. Rawls, C. K. 1965. Field tests of herbicide toxicity to certain estuarine animals. Chesapeake Sci. 6:150161.CrossRefGoogle Scholar
114. Reigner, I. C., Supper, W. E., and Johnson, R. R. 1968. Will the use of 2,4,5-T to control streamside vegetation contaminate public water supplies? J. Forest. 66:914918.Google Scholar
115. Reinhart, K. G. 1965. Herbicidal treatment of watersheds to increase water yield. Proc. No. East Weed Contr. Conf. 19:546551.Google Scholar
116. Riemer, D. N. 1964. Observations on some acid water lakes treated with diquat. Proc. No. East Weed Contr. Conf. 18:489495.Google Scholar
117. Rodriguez-Kabana, R., Curl, E. A., and Funderburk, H. H. Jr. 1967. Effect of paraquat on growth of Sclerotium rolfsii in liquid culture and soil. Phytopathology 57:911915.Google ScholarPubMed
118. Saito, M., Kitayama, M., and Kitsutaka, T. 1968. Studies on the prevention of poisoning by agricultural chemicals: 12. Influence of herbicide (sodium pentachlorophenol) spread on paddyfield regions with river water. Rep. Hokkaido Inst. Pub. Health 17:103107.Google Scholar
119. Schwartz, H. G. Jr. 1967. Microbial degradation of pesticides in aqueous solution. J. Water Poll. Contr. Fed. 39: 1701–14.Google Scholar
120. Simes, J. C. 1961. Control of the pondweed, Potamogeton crispus in both flowing and static situations with endothall. Proc. No. East Weed Contr. Conf. 15:558559.Google Scholar
121. Smith, G. E. and Isom, B. C. 1967. Investigation of effects of large-scale applications of 2,4-D upon aquatic fauna and water quality. Pest. Monit. J. 1:1621.Google Scholar
122. Snow, J. R. 1963. A preliminary report on the control of Pithophora with simazine. Proc. So. Weed Conf. 16:329335.Google Scholar
123. Steucke, E. W. 1961. Observations on the use of disodium endothall in fish hatchery ponds. Res. Rep. No. Centr. Weed Contr. Conf. 18:104.Google Scholar
124. Steucke, E. W. 1963. Observations on the use of disodium endothall in fish hatchery ponds. Weed Abstr. 12:197. No. 1036.Google Scholar
125. Surber, E. W. and Meehean, O. L. 1931. Lethal concentrations of arsenic for certain aquatic organisms. Trans. of Amer. Fisheries Soc. 61:225239.CrossRefGoogle Scholar
126. Tarrant, R. F. and Norris, L. A. 1967. Residues of herbicides and diesel oil carriers in forest water. Proc. Symp. Herb. in Veg. Manage. pp. 8188.Google Scholar
127. Tatum, W. M. and Blackburn, R. D. 1965. Preliminary study of the effects of diquat on the natural bottom fauna and plankton in two subtropical ponds. Weed Abstr. 14:26. No. 144.Google Scholar
128. Taylor, J. L. 1966. Casoron a new aquatic herbicide. Hyacinth Contr. J. 5:2021.Google Scholar
129. Taylor, J. L. 1966. Dichlobenil aquatic herbicide for use in non-flowing water. Proc. So. Weed Conf. 19:376377.Google Scholar
130. Thiegs, B. J. 1955. The stability of dalapon in soils. Down to Earth 11(2):14.Google Scholar
131. Thomas, M. L. H. and Duffy, J. R. 1968. Butoxyethanol ester of 2,4-D in the control of Eelgrass (Zostera marina L.) and its effects on oysters (Crassostrea virginica Gruelin) and other benthos. Proc. No. East Weed Contr. Conf. 22:186193.Google Scholar
132. Timmons, F. L. 1962. Present and future of aquatic weed control. Proc. No. East Weed Contr. Conf. 16:18.Google Scholar
133. Tschirley, F. H. 1969. Defoliation in Vietnam. The ecological consequences of the defoliation program in Vietnam are assessed. Science 163:779786.CrossRefGoogle Scholar
134. U.S. Dep. of Int. 1968. Report of the Committee on Water Quality Criteria. Fed. Water Poll. Contr. Admin., Washington, D.C. 234 p.Google Scholar
135. U.S. Dep. of Int. 1963. Fish and Wildlife Service. Pesticide-Wildlife Studies, Review of Fish and Wildlife Service investigation during 1961 and 1962. Circ. 167. 109 p.Google Scholar
136. U.S. Dep. of Int. 1964. Fish and Wildlife Service. Pesticide-Wildlife Studies, Review of Fish and Wildlife Service investigations during calendar year 1963. Circ. 199. 130 p.Google Scholar
137. U.S. Dep. of Int. 1965. Fish and Wildlife Service. Pesticide-Wildlife Studies. Circ. 226. 77 p.Google Scholar
138. Unrau, G. O., Farooq, M., Dawood, K., Miguel, L., and Dazo, B. 1965. Field trials in Egypt with acrolein herbicidemolluscicide. World Health Org. Bull. 32:249260.Google ScholarPubMed
139. Van Valin, C. C. 1966. Persistence of 2,6-dichlorobenzonitrile in Aquatic Environments in Organic Pesticides in the Environment. A Sym. Amer. Chem. Soc. Advances in Chemistry Series 60:271279.Google Scholar
140. Walker, C. R. 1961. Toxicological effects of several herbicides to bottom dwelling fish-food organisms in Missouri ponds. Res. Rep. No. Centr. Weed Contr. Conf. 18:104105.Google Scholar
141. Walker, C. R. 1963. Endothall derivatives an aquatic herbicide in fishery habitats. Weeds 11:226232.CrossRefGoogle Scholar
142. Walker, C. R. 1964. Dichlobenil as a herbicide in fish habitats. Weeds 12:267269.CrossRefGoogle Scholar
143. Walker, C. R. 1964. Simazine and other s-triazine compounds as aquatic herbicides in fish habitats. Weeds 12: 134139.CrossRefGoogle Scholar
144. Walker, C. R. 1965. Diuron, fenuron, monuron, neburon, and TCA mixtures as aquatic herbicides in fish habitats. Weeds 13:297301.CrossRefGoogle Scholar
145. Weldon, L. W. and Blackburn, R. D. 1967. The control of floating aquatic weeds with ametryne. Proc. So. Weed Conf. 20:312318.Google Scholar
146. Wellborn, T. L. Jr. 1969. The toxicity of nine therapeutic and herbicidal compounds to striped bass. Prog. Fish-Cult. 31:2732.CrossRefGoogle Scholar
147. Wershaw, R. L., Goldberg, M. C., and Pinckney, D. J. 1967. The determination of the ionization constant of 2,4-D in water. Water Resour. Res. 3:511516.CrossRefGoogle Scholar
148. Wile, I. 1968. Aquatic plant control with diquat, fenac, and simazine in Ontario farm ponds. Proc. No. East Weed Contr. Conf. 22:178185.Google Scholar
149. Winston, A. W. Jr. and Ritty, P. M. 1961. What happens to phenoxy herbicides when applied to a watershed area? Proc. No. East Weed Contr. Conf. 15:396401.Google Scholar
150. Yeo, R. R. 1967. Dissipation of diquat and paraquat, and effects on aquatic weeds and fish. Weeds 15:4246.CrossRefGoogle Scholar