Hostname: page-component-78c5997874-g7gxr Total loading time: 0 Render date: 2024-11-08T02:22:29.018Z Has data issue: false hasContentIssue false
  • English
  • Français

Conservation and Management of Rivers in India: Case-study of the River Yamuna

Published online by Cambridge University Press:  24 August 2009

Brij Gopal  and
Malavika Sah
Malavika Sah
Affiliation:
Respectively Associate Professor and Research Fellow, School of Environmental Sciences, Jawaharlal Nehru University, New Delhi 110067, India.
Get access Rights & Permissions [Opens in a new window]

Extract

The River Yamuna, originating in the Himalayas, is the largest tributary of the River Ganga (Ganges) into which it flows at Allahabad. Its drainage basin covers about 42% of the Ganga River basin and about 11% of India's total land area. The area of the Yamuna drainage basin is densely populated and under intensive agriculture, while industrial activity is also rapidly growing in it. Climatically, a large part of the basin is semi-arid, and the river-flow depends upon highly erratic monsoonal rains. Therefore, the River and its tributaries have been regulated for over a century by dams and barrages for domestic water-supply and irrigation.

Besides increased flow-regulation, the River's system has been under increasing anthropogenic stress from discharge of—mostly untreated—domestic and industrial wastewaters, and from other activities in the basin. River Yamuna is severely polluted by domestic and industrial effluents especially from Delhi down to Agra. Water extraction and consequently low flow has affected the selfpurification capacity of the River. The greater inflow of River Chambal helps River Yamuna to recover to some extent after their confluence near Etawah.

Studies of water quality and biota of the River Yamuna along its course during the past 30 years show rapid deterioration of water-quality, loss of fisheries, and significant changes in the biotic communities. In the manner of River Yamuna, its tributaries have also become increasingly polluted during the same period. There has, however, been little attention paid to the management of the River system and conservation of its resources, except for some efforts at the treatment of sewage effluents but emphasizing only water-quality. Ignoring the river-flood-plain interactions which play significant roles in the ecology of a river, most of the floodplain has been reclaimed by constructing high levees.

We emphasize that the Yamuna River basin should be treated as one ecocomplex in developing appropriate management strategies, and that the conservation of waterquality and biota can be achieved through protection and better management of floodplains than has been practised to date.

Type
Main Papers
Information
Environmental Conservation , Volume 20 , Issue 3 , Autumn 1993 , pp. 243 - 254
Copyright
Copyright © Foundation for Environmental Conservation 1993

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

References*

Adholia, U.N. (1979). Zooplankton of the river Betwa (India). Geo-Eco-Trop, 3(4), pp. 267–71.Google Scholar
Adhola, U.N. & Kumar, P. (1976). Plants of river Betwa. Geobios, 3, p. 139.Google Scholar
Agrawal, H.C., Mittal, P.K., Menon, K.B. & Pillai, M.K.K. (1986). DDT residues in River Jamuna in Delhi, India. Water Air Soil Poll., 28, pp. 89104.CrossRefGoogle Scholar
Agrawal, S.K. (1982). Eutrophication of Chambal River at Kota. Acta Ecologia, 4, pp. 63–6.Google Scholar
Agrawal, S.K. (1983). Water quality of sewage drains entering into Chambal River at Kota. Acta Ecol., 5, pp. 52–7.Google Scholar
Agrawal, S.K. & Gautam, P.C. (1985). Potamozooplankton periodicity in River Chambal at Kota. Acta Ecol., 1, pp. 911.Google Scholar
Ajmal, M. & Raziuddin, M. (1988). Studies on the pollution of Hindon River and Kali Nadi (India). Pp. 87112 in Ecology and Pollution of Indian Rivers (Ed. Trivedy, R.K.). Ashish Publishing House, New Delhi, India: 447 pp., illustr.Google Scholar
Ajmal, M., Khan, M.A. & Nomani, A.A. (1985). Distribution of heavy metals in water and sediments of selected sites of Yamuna River, India. Environ. Monit. Assess., 5, pp. 205–14.CrossRefGoogle ScholarPubMed
Ajmal, M., Raziuddin, M. & Khan, A.U. (1987). Heavy metals in water, sediments, fish and plants of River Hindon, U.P. Hydrobiologia, 148, pp. 151–7.CrossRefGoogle Scholar
Anon. (1980). The Ganga Basin. Assessment and Development Study of River Basin Series ADSORBS/1/1980–81, Central Board for the Prevention and Control of Water Pollution, New Delhi, India: 88 pp., illustr.Google Scholar
Anon. (1982). The Ganga Basin, Part 1: The Yamuna Sub-basin. Assessment and Development Study of River Basin Series ADSORBS/2/1980–81, Central Board for the Prevention and Control of Water Pollution, New Delhi, India: 114 pp., illustr.Google Scholar
Anon. (1983). Quality and Trend of River Yamuna (1977–82). Assessment and Development Study of River Basin Series ADSORBS/10/1982–83, Central Board for the Prevention and Control of Water Pollution, New Delhi, India: 114 pp., illustr.Google Scholar
Anon. (1985). An Action Plan for Prevention of Pollution of the Ganga. Department of Environment, Government of India, New Delhi, India: 24 pp., illustr.Google Scholar
Anon. (1987). Water Quality Studies: Ganga System — Status report (1978–85). Central Water Commission, Ministry of Water Resources, New Delhi, India: 116 pp., illustr.Google Scholar
Balani, M.C. & Sarkar, H.L. (1965). Some observations on the pollution of Yamuna River at Okhla Water Works intake, Delhi. Environmental Health, 7(2), pp. 84–6.Google Scholar
Bewtra, J.K. (1969). Characteristics of wastewater at Delhi. J. Water Poll. Contr. Fed., 41, pp. 208–21.Google Scholar
Bhargava, D.S. (1977). Water Quality in Three Typical Rivers in U.P. — Ganga, Yamuna, and Kali. PhD thesis, Indian Institute of Technology, Kanpur, India: [not available for checking].Google Scholar
Bhargava, D.S. (1983 a). Use of a water quality index for river classification and zoning of Ganga River. Environmental Pollution B, 6, pp. 5167.Google Scholar
Bhargava, D.S. (1983 b). Effect of subsurface water on Yamuna water quality at Delhi. Journal of Environmental Engineering Division, Institution of Engineers of India, 64, pp. 33–4.Google Scholar
Bhargava, D.S. (1984). Prevention of pollution in Yamuna. Journal of the Institution of Engineers, India, Part Environment, 65(1), pp. 710.Google Scholar
Bhargava, D.S. (1985 a). Water quality variations and control technology of Yamuna River. Environmental Pollution A, 37, pp. 355–76.CrossRefGoogle Scholar
Bhargava, D.S. (1985 b). Matching river quality to uses: Role of monitoring, zoning and classification. The Environment Professional, 1, pp. 240–47.Google Scholar
Boto, K.G. & Patrick, W.H. (1979). Role of wetlands in the removal of suspended sediments. Pp. 479–89 in Wetland Functions and Values: The State of our Understanding (Eds Greeson, P.E., Clark, J.R. & Clark, J.E.). American Water Resources Association, Minneapolis, Minnesota, USA: 674 pp., illustr.Google Scholar
Brezny, O. (1970). Draft Final Technical Report on Aquatic Weed Control in the Chambal Command Area. UNDP/SF Chambal Project, Kota, India: 328 pp., illustr.Google Scholar
Brinson, M.M., Swift, B.L., Plantico, R.C. & Barclay, J.S. (1981). Riparian Ecosystems: Their Ecology and Status. FWS/OBS-81/17, US Fish and Wildlife Service, Washington, DC, USA: 155 pp., illustr.Google Scholar
Brown, R.G. (1984). Effects of an urban wetland on sediment and nutrient loads in runoff. Wetlands, 4, pp. 147–58.CrossRefGoogle Scholar
Bulusu, K.R., Arora, H.C. & Aboo, K.M. (1967). Certain observations on self purification of Khan River and its effects on Kshipra River. Environmental Health, 9, pp. 275–95.Google Scholar
Bulusu, K.R. & Sharma, V.P. (1966). Survey of Najafgarh drain downstream of industrial area. Environmental Health, 8, pp. 103–11.Google Scholar
Chakrabarty, R.D., Roy, P. & Singh, S.B. (1959). A quantitative study of the plankton and phy sicochemical condition of the River Yamuna at Allahabad in 1954–55. Indian Journal of Fisheries, 6, pp. 186203.Google Scholar
Champion, Sir H.G. & Seth, S.K. (1968). Revised Forest Types of India. Manager of Publications, New Delhi, India: 404 pp., illustr.Google Scholar
Craig, J.F. & Kemper, J.B. (Eds) (1987). Regulated Streams: Advances in Ecology. Plenum Press, New York, NY, USA: [not available for checking].CrossRefGoogle Scholar
Cummins, K.W., Minshall, G.W., Sedell, J.R., Cushing, C.E. & Petersen, C.R. (1984). Stream ecosystem theory. Verh. int. Verein. Limnol., 22, pp. 1818–27.Google Scholar
Dagar, J.C. (1987). Studies on reclamation of Kshipra Ravines. Indian J. Forestry, 10, pp. 83–9.Google Scholar
Dakshini, K.M.M. & Soni, J.K. (1979). Water quality of sewage drains entering Yamuna in Delhi. Indian J. Environ. Health, 21, pp. 354–60.Google Scholar
de Kruijf, H.A.M.See Kruuf …Google Scholar
deZwart, D. (1991). Report on an Expert Mission for the Evaluation of Yamuna River Biomonitoring Data. Report Nr 768602008, National Institute of Public Health and Environmental Protection, Bilthoven, Netherlands: 65 pp. and Annex 3 of 192 pp., illustr.Google Scholar
Dhindsa, S.S. & Bhargava, N. (1982). Periodic variations in the physico-chemical characteristics of the River Chambal at Kota. Acta Ecol., 4, pp. 21–3.Google Scholar
Dhingra, R.K. (1989). Studies on the vegetation of Yamuna Ravines at Chhalesar with special reference to soil and water conservation. PhD thesis, Agra University, Agra, India: [not available for checking].Google Scholar
Elwood, J.W., Newbold, J.D., O'Neill, R.V. & Winkle, H. van (1983). Resource spiralling: an operational paradigm for analysing lotic ecosystems. Pp. 327 in Dynamics of Lotic Ecosystems (Eds Fontaine, T.D. & Bartell, S.M.). Ann Arbor Science, Ann Arbor, Michigan, USA: [not available for checking].Google Scholar
Ganasan, V., Srinivasulu, K. & Pandey, A.K. (1991). Trace metal concentration in water and sediments of the rivers Khan and Kshipra (Ujjain, India). Int. J. Ecol. Environ. Sci., 17, pp. 225–36.Google Scholar
Godfrey, P.J., Kaynor, E.R., Pelczarski, S. & Benforado, J. (Eds) (1985). Ecological Considerations in Wetlands Treatment of Municipal Wastewaters. Van Nostrand Reinhold Co., New York, NY, USA: 464 pp., illustr.Google Scholar
Gopal, B. (in press). The role of ecotones (transition zones) in the conservation and management of tropical inland waters. Mitt. Limnol. Internal. Verein, 24.Google Scholar
Graf, W.L. (1980). Riparian management: a flood control perspective. J. Soil Water Conserv., 35, pp. 158–61.Google Scholar
Gupta, R.J. (1990). Protection of Environment of Cities' Water Fronts: Case Example of River Yamuna. National Symposium on Protection of Environment of City Water Fronts, Paper Nr VI (i). Central Water Commission, New Delhi, India: 6 pp., illustr.Google Scholar
Haslam, S.M. (1990). River Pollution: An Ecological Perspective. Belhaven Press, London, England, UK: xiii + 253 pp., illustr.Google Scholar
Hasler, A.D. (Ed.) (1975). Coupling of Land and Water Systems. (Ecological Studies 10.) Springer Verlag, Berlin, Germany: 309 pp., illustr.CrossRefGoogle Scholar
Hawkes, H.A. (1975). River zonation and classification. Pp. 312–73 in River Ecology (Ed. Whitton, B.A.). (Studies in Ecology 2.) Blackwells, Oxford, England, UK: 702 pp., illustr.Google Scholar
Heeg, I. & Breen, C.M. (1982). Man and the Pongolo floodplain. S. Afr. Nat. Sci. Progr. Rept 56, 113 pp., illustr.Google Scholar
Hortobagyi, T. (1969). Phytoplankton Organisms from Three Reservoirs on the Jamuna River, India. (Studia Biologica Academiae Scientiarum Hungaricae 8.) Akademiai Kiado, Budapest, Hungary: 80 pp. + 32 plates.Google Scholar
Hynes, H.B.N. (1975). The stream and its valley. Verh. int. Verein. Limnol., 19, pp. 115.Google Scholar
Jha, P.K., Subramanian, V. & Sitasawad, R. (1988). Chemical and sediment mass transfer in the Yamuna River — a tributary of the Ganges system. Journal of Hydrology, 104, pp. 237–48.CrossRefGoogle Scholar
Jhingaran, A.G. & Joshi, H.C. (1987). Heavy metals in water, sediments and fish in the River Yamuna. J. Inland Fish. Soc., India, 19(1), pp. 1323.Google Scholar
Jhingran, V.G. (1982). Fish and Fisheries of India, 2nd edn.Hindustan Publishing Corporation, New Delhi, India: 666 pp., illustr.Google Scholar
Junk, W.J., Bayley, P.B. & Sparks, R.E. (1989). The flood pulse concept in river-flooding systems. Canad. J. Fish. Aquat. Sci., Spl. Publ. 106, pp. 110–27.Google Scholar
Junk, W.J. & Welcomme, R.L. (1990). Floodplains. Pp. 491524 in Wetlands and Continental Shallow Water Bodies (Eds Patten, B.C., Jorgensen, S.E., Dumont, H.J., Gopal, B., Koryavov, P., Kvet, J., Loffler, H., Sverizhev, Y. & Tundisi, J.G.). SPB Academic Publishing, The Hague, Netherlands: 759 pp., illustr.Google Scholar
Kaushik, N.K. & Prasad, D. (1964). Coliform periodicity in Jamuna water at Wazirabad, Delhi. Environmental Health, 6:118–24.Google Scholar
Khurshid, Shadab (1989). Study of physico-chemical and bacteriological characteristics of Yamuna River at Union Territory of Delhi to assess the quality and pollution level. Journal of Institutional and Public Health Engineers, India, 4, pp. 2634.Google Scholar
Krishnamurthi, C.R., Bilgrami, K.S., Das, T.M. & Mathur, R.P. (Eds) (1991). The Ganga: a Scientific Study. Northern Book Center, New Delhi, India, 246 pp., illustr.Google Scholar
Kruijf, H.A.M. de, DeZwart, D. & Trivedi, R.C. (1992). Proceedings of the Indo-Dutch Workshop on Water Quality Yardstick Development, New Delhi, 29–31 10 1991. Report Nr 768602009, National Institute of Public Health and Environmental Protection, Bilthoven (Netherlands), and Central Pollution Control Board, New Delhi, India: 40 pp., illustr.Google Scholar
Kulshreshtha, S.K., Adholia, U.N., Khan, A.A., Bhatnagar, A. & Baghail, N. (1988). Macrobenthos in River Chambal and its tributaries. IAWPC Technical Annual, 15, pp. 3941.Google Scholar
Kulshreshtha, S.K., Adholia, U.N., Khan, A.A., Bhatnagar, A., Saxena, M. & Baghail, M. (1989). Pollution study on River Kshipra with special reference to macrozoobenthos. J. Nature Conserv., 1, pp. 285–92.Google Scholar
Kundra, R., Nagpal, J.L., Verma, S.R. & Srivastava, S.K. (1977). Raw water quality at Wazirabad and Okhala Reservoir in Delhi. Indian Journal of Environmental Health, 19: 329–39.Google Scholar
Lowrance, R., Todd, R., Fail, J., Hendrickson, O., Leonard, R. & Asmussen, L. (1984). Riparian forests as nutrient filters in agricultural watersheds. BioScience, 34, pp. 374–7.CrossRefGoogle Scholar
McArthur, J.V. (1989). Aquatic and terrestrial linkages: Floodplain functions. Pp. 107–16 in Proceedings of the Symposium: The Forested Wetlands of the Southern United States (Eds Hook, D.D. & Lea, R.). USDA Southeastern Forest Expt Sta., Asheville, NC, USA: [not available for checking].Google Scholar
Mathur, R.P. (1965). Pollution aspects of River Yamuna at Delhi. Proceedings of the Symposium on Water Pollution Control, vol. 3, Central Public Health Engineering Research Institute, Nagpur, India: [not available for checking].Google Scholar
Maheshwari, J.K. (1966). Flora of Delhi. Council of Scientific and Industrial Research, New Delhi, India: 447 pp.Google Scholar
Menon, C. Lakshmi (1990). Ecology of Benthic Fauna in the Floodplain of River Yamuna Affected by Sewage Pollution. PhD thesis, Jawaharlal Nehru University, New Delhi, India: 134 pp., illustr.Google Scholar
Minshall, G.W. (1988). Stream ecosystem theory: a global perspective. J.N. Am. Benthol. Soc., 7, pp. 263–8.CrossRefGoogle Scholar
Minshall, G.W., Cummins, K.W., Petersen, R.C., Gushing, C.E., Bruns, D.A., Sedell, J.R. & Vannote, R.L. (1985). Developments in stream ecosystem theory. Canad. J. Fish. Aquat. Sci., 42, pp. 1045–55.CrossRefGoogle Scholar
Mohan, C. & Sarkar, H.L. (1961). Preliminary studies on pollution of the River Jamuna. Bull. Central Public Health Engg Res. Inst., 1, pp. 7682.Google Scholar
Novotna-Dvorakova, M. (1963). Rotatorien des Flusses Yamunas (Indien). Vestnik Ceskspolecnosti Zoologie, 27(3), pp. 170–7.Google Scholar
Olaniya, M.S., Saxena, K.L. & Sharma, H.C. (1976). Pollution studies of Chambal River and its tributaries at Kota. Indian J. Environ. Health, 18, pp. 219–26.Google Scholar
Petts, G. (1990). The role of ecotones in aquatic landscape management. Pp. 227–61 in Ecology and Management of Aquatic-Terrestrial Ecotones (Eds Naiman, R.J. & DeCamps, H.). MAB Book series 4, UNESCO, Paris, France, and Parthenon Publishing, Carnforth, England, UK: 316 pp., illustr.Google Scholar
Pillai, K.C., Ganapathy, S., Desai, M.V.M. & Ganguly, A.K. (1966). Evaulation of Acceptable Limits for Radioactive Contaminants in the Chambal River-Rana Pratap Sagar. (Report AEET/HP/R-13.) Atomic Energy Establishment, Trombay, Bombay, India: [not available for checking].Google Scholar
Pillai, M.K. & Agrawal, H.C. (1979). Final Report of the Project DDT Residues and Its Degradation in Soil, Water and Few Animals of Jamuna in Delhi. Department of Science & Technology, Government of India, New Delhi, India: [not available for checking].Google Scholar
Pinay, G., Decamps, H., Chauvet, E. & Fustec, E. (1990). Functions of ecotones in fluvial systems. Pp. 141–69 in Ecology and Management of Aquatic-Terrestrial Ecotones (Eds Naiman, R.J. & Decamps, H.). (MAB Book series 4.) UNESCO, Paris, France, and Parthenon Publishing, Carnforth, England, UK: 316 pp., illustr.Google Scholar
Polunin, N. & Worthington, E.B. (1990). On the use and misuse of term ‘Ecosystem’. Environmental Conservation, 17(3), p. 274.CrossRefGoogle Scholar
Prajapati, M.C. (1989). Studies in Conservation Ecology of a Vegetatively Stabilized Yamuna River Flat at Chhalesar, Agra. PhD thesis, Agra University, Agra, India: 352 pp., illustr.Google Scholar
Prakash, C., Rawat, D.C. & Grover, P.P. (1978). Ecological study of the River Jamuna. IAWPC Technical Annual, 5, pp. 3245.Google Scholar
Prakash, V. (1982). Ecological Studies on river bank vegetation at Agra. PhD thesis, Agra University, Agra, India: [not available for checking].Google Scholar
Rai, H. (1962). Hydrobiology of River Yamuna at Okhla, Delhi, India. (Scientific Papers from the Institute of Chemical Technology, Prague.) Technology of Water, 6, pp. 7798.Google Scholar
Rai, H. (1964). The bacteriological studies on the Yamuna River (Delhi, India). (Scientific Papers from the Institute of Chemical Technology, Prague.) Technology of Water, 8(1), pp. 319–36.Google Scholar
Rai, H. (1974 a). Limnological studies on the River Yamuna at Delhi, India, Part I: Relation between the chemistry and the state of pollution in the River Yamuna. Archivfür Hydrobiologie, 73, pp. 369–93.CrossRefGoogle Scholar
Rai, H. (1974 b). Limnological studies on the River Yamuna at Delhi, India, Part II: The dynamics of potamoplankton populations in the River Yamuna. Archiv für Hydrobiologie, 73, pp. 492517.CrossRefGoogle Scholar
Rao, K.L. (1975). India's Water Wealth: Its Assessment, Uses and Projections. Orient Longman, New Delhi, India: 255 pp., illustr.Google Scholar
Rao, K.S., Das, N.K. & Pandya, S.S. (1985). Community structure of benthic macroinvertebrates and their utility as indicators of pollution in River Khan (Indore), India. Proceedings of the National Symposium on Pure & Applied Limnology (Ed. A.D. Adoni). Bull. Bot. Soc., H.S. Gour University, Sagar, 32, pp. 114–9.Google Scholar
Rao, K.S., Jain, S., Dubey, R., Shrivastava, S., Choubey, U. & Pandey, S.S. (1987). Ecological significance of aquatic insect populations at Kaliadesh, Kshipra River. J. Hydrobiol., 111(5&6), pp. 8393.Google Scholar
Rao, N.S. Lakshmana & Rao, M. Narayana (1987). Pollution in selected rivers of India: three case studies. Int. J. Environ. Stud., 29, pp. 1726.CrossRefGoogle Scholar
Rao, P.S. & Rao, K.S. (1980). Pollution due to pilgrim bathing of Kumbh Mela 1980 in Kshipra River, Ujjain. J. Hydrobiol., 2, pp. 4755.Google Scholar
Rao, R.J., Hussain, S.A. & Sharma, R.K. (1989). The status and conservation of Gangetic Dolphin (Platanista gangetica) in the National Chambal sanctuary. Tiger Paper, XVI(2), pp. 610.Google Scholar
Rao, S.D. & Saxena, A.B. (1983). Some aquatic insects as water quality indicators in the River Khan. Int. J. Environ. Stud., 20, pp. 281–4.CrossRefGoogle Scholar
Rao, S.V. Rama, Singh, V.P. & Mall, L.P. (1979). The effect of sewage and industrial waste discharges on the primary production of a shallow turbulent river. Water Research, 13, pp. 1017–21.Google Scholar
Ray, P., Singh, S.B. & Sehgal, K.L. (1966). A study of some aspects of the ecology of rivers Ganga & Jamuna at Allahabad (UP) in 1958–59. Proc. Nat. Acad. Sci. India, 36, pp. 235–72.Google Scholar
Raychaudhury, S.P., Aggarwal, R.R., Biswas, N.R. Datta, Gupta, S.P. & Thomas, P.K. (1963). Soils of India. Indian Council of Agricultural Research, New Delhi, India: 643 pp., illustr.Google Scholar
Reeders, H.H., Schoubroeck, M.E.P. Van, Vierssen, W. Van, Gopal, B. & Pieterse, A.H. (1986). Aquatic weeds and their implications for agriculture in the Chambal irrigated area, Kota (Rajasthan), India. Pp. 251–5 in Proceedings EWRS/AAB 7th International Symposium on Aquatic Weeds, European Weed Research Society, Wageningen, Netherlands: 418 pp.Google Scholar
Reid, K., Lauwerys, J.A., Joffe, J. & Tucker, A. (1974). Man, Nature and Ecology. Aldus Books, London, England, UK: 448 pp., illustr.Google Scholar
Richardson, C.J. (1990). Freshwater wetlands: transformers, filters or sinks? Pp. 2546 in Freshwater Wetlands and Wildlife (Eds Sharitz, R.R. & Gibbons, J.W.). US Department of Energy, Office of Health and Environmental Research, Washington, DC, USA: [not available for checking].Google Scholar
Sah, M. (1990). Hydrological and Nutrient Relations of Vegetation in the Floodplain of Rivers Yamuna and Hindon. MPhil Thesis, Jawaharlal Nehru University, New Delhi, India: 56 pp., illustr.Google Scholar
Sah, M. & Gopal, B. (MS). [Authors of present paper.]Google Scholar
Sangu, R.P.S., Pathak, P.O. & Sharma, K.D. (1983). Monitoring of Yamuna River Water at Agra. Pp. 3945 in River Ecology and Human Health (Eds Ambasht, R.S. & Tripathi, B.D.). National Environmental Conservation Association, Varanasi, India: 107 pp.Google Scholar
Sangu, R.P.S. & Sharma, K.D. (1985). Studies in water pollution of Yamuna River at Agra. Indian Journal of Environmental Health, 27, pp. 257–61.Google Scholar
Sen, A.K. (1987). Gas chromatographic determination of chlorinated insecticides as pollutants of Yamuna River water at Allahabad. National Academy Science Letters, 10, pp. 213–4.Google Scholar
Sharma, K.D., Lal, N. & Pathak, P.O. (1981). Water quality of sewage drains entering Yamuna at Agra. Indian J. Environ. Health, 23(2), pp. 118–22.Google Scholar
Sinnarkar, S.N., Rosarwani, S.K. & Bhatt, S.G. (Eds) (1987). River Ganga: An Overview of Environmental Research. National Environmental Engineering Research Institute, Nagpur, India: 120 pp.Google Scholar
Sioli, H. (1975). Tropical rivers as expressions of their terrestrial environments. Pp. 275–88 in Tropical Ecological Systems: Trends in Terrestrial and Ecological Research (Eds Golley, F.B. & Medina, E.). Springer Verlag, New York, NY, USA: [not available for checking].CrossRefGoogle Scholar
Sitasawad, R. (1984). Distribution of Fe, Mn, Cu, Pb and Zn in Jamuna River sediments, Delhi. PhD thesis, Jawaharlal Nehru University, New Delhi, India: 207 pp., illustr.Google Scholar
Subramanian, V. & Sitasawad, R. (1984). A study on water quality in the river Yamuna around Delhi, India. Water Quality Bulletin, 9, pp. 219222.Google Scholar
Subramanian, V., Sitasawad, R. & Joshi, L.U. (1985). Rate of sedimentation in Jamuna River around Delhi using Pb210–Ra226 method. J. Radioanal. Nuclear Chem., 90, pp. 271–6.CrossRefGoogle Scholar
Thakkar, N. & Sarin, R. (1987). Presence of DDT and its metabolites in Delhi water sources. J. Indian Water Works Assoc, 19, pp. 199204.Google Scholar
Trivedi, R.C. (1979). Pollution studies of Chambal river and surroundings due to Nagda industrial complex. PhD thesis, Vikram University, Ujjain, India: [not available for checking].Google Scholar
Trivedi, R.C., Makhijani, S.D., Ansari, P.M. & Kanyotra, J.S. (1985). Pollution of River Yamuna in Delhi and plan for its improvement. Proceedings of the National Seminar on Pollution Control and Environmental Management, Nagpur, India: pp. 5561.Google Scholar
Trivedy, R.K. (Ed.) (1988). Ecology and Pollution of Indian Rivers. Ashish Publishing House, New Delhi, India: 447 pp., illustr.Google Scholar
Trivedy, R.K. (Ed.) (1990). Pollution of Indian Rivers. Ashish Publishing House, New Delhi, India: 447 pp., illustr.Google Scholar
Vannote, R.L., Minshall, G.W., Cummins, K.W., Sedell, J.R. & Cushing, C.E. (1980). The river continuum concept. Canad. J. Fish. Aquat. Sci., 37, pp. 130–7.CrossRefGoogle Scholar
Verma, S.R. & Mathur, R.P. (1971). Characteristics and pollutional effect of paper mill waste on Hindon River. Proceedings of the Seminar: Water Supply and Sanitation: Problems of Urban Areas, Institution of Engineers, Roorkee Subcenter, India, Vol. 2, Sect. E, Paper 4: pp. 111.Google Scholar
Verma, S.R., Tyagi, A.K. & Dalela, R.C. (1978). Pollution studies of a few rivers of western U.P. with reference to biological studies. Proc. Ind. Acad. Sci., 878, pp. 123–31.CrossRefGoogle Scholar
Verma, S.R., Shukla, G.R. & Dalela, R.C. (1980). Studies on the pollution of Hindon River in relation to fish and fisheries. Limnologica (Berlin), 12, pp. 3375.Google Scholar
Ward, J.V. & Stanford, J.A. (Eds) (1979). The Ecology of Regulated Streams. Plenum Press, New York, NY, USA: 398 pp., illustr.CrossRefGoogle Scholar
Ward, J.V. & Stanford, J.A. (1989). Riverine ecosystems: The influence of Man on catchment dynamics and fish ecology. Canad. J. Fish. Aquat. Sci. Spl. Publ., 106, pp. 5664.Google Scholar
Wasay, S.A. & Jain, P.K. (1988). Heavy metals in raw sewage entering River Yamuna at Delhi and their treatment by natural polyelectrolyte. J. Environ. Engg Div., Institution of Engineers, India, 68: [not available for checking].Google Scholar
Welcomme, R.L. (1979). Fisheries Ecology of Floodplain Rivers. Longman, London, England, UK: 317 pp, illustr.Google Scholar
Welcomme, R.L. (1985). River Fisheries. FAO Fisheries Technical Paper, Rome, Italy: [not available for checking].Google Scholar
Whigham, D.F., Chitterling, C. & Palmer, B. (1988). Impacts of freshwater wetlands on water quality: a landscape perspective. Environmental Management, 12, pp. 663–71.CrossRefGoogle Scholar
Wolstencroft, J.A., Hussain, S.A. & Varshney, C.K. (1989). India. Pp. 367505 in A Directory of Asian Wetlands (Ed. Scott, D.A.). IUCN, The World Conservation Union, Gland, Switzerland: 1,181 pp.Google Scholar
Zwart, D. desee DeZwart …Google Scholar