Abstract
The magnitude and distribution of European Community (EC) regulated List I and List II metals and metalloids have been investigated in two lowland river systems in East Anglia, U.K. A combination of sediment and water quality data identified municipal sewage treatment work discharges as the main metal input sources to the river systems and identified two main areas of metal contamination: the Pix Brook, downstream of Letchworth STW on the River Ivel, and a 14 km enrichment zone adjacent to Whitlingham STW on the River Yare. The basement geology, flow dynamics, distance from point sources and sediment type were identified as important controls upon the magnitude and spatial distribution of metal contaminants.
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References
American Public Health Association: 1985, Standard Methods for the Examination of Water and Wastewater, 16th edn.
BentineK. K. and GoldbergE. D.: 1977, History of Heavy Metal Pollution in Southern California Coastal Zone-Report, Environ. Sci. Technol. 11, 297–299.
Bourg, A. C. M. and Schinder, P. W.: 1985, ‘Control of Trace Metals in Natural Aquatic Systems by the Adsorptive Properties of Organic Matter’, Int. Conf. Heavy Metals in the Environ., pp. 97–99.
British Gas: 1983, Analytical Methods, British Gas, London, Ch, 8, Sulphide.
BubbJ. M. and LesterJ. N.: 1991, ‘The Impact of Heavy Metals on Lowland Rivers and the Implications for Man and the Environment’, Sci. Tot. Environ. 100, 207–234.
BubbJ. M. and LesterJ. N.: 1995a, ‘The Effect of Final Sewage Effluent Discharges Upon the behaviour and Fate in a Lowland River System. A Question of Dilution?’, Environ. Technol. 16, 401–417.
BubbJ. M. and LesterJ. N.: 1995b, ‘Partitioning and Availability of Sediment Bound Metals Following Final Sewage Effluents Release to a Lowland River’, Int. J. Environ. Pollution. 5, 72–91.
BubbJ. M., RuddT. and LesterJ. N.: 1991a, ‘Distribution of Heavy Metals in the River Yare and its Associated Broads, I. Mercury and Methylmercury’, Sci. Tot. Environ. 102, 147–168.
BubbJ. M., RuddT. and LesterJ. N.: 1991b, ‘Distribution of Heavy Metals in the River Yare and its Associated Broads. II Copper and Cadmium’, Sci. Tot. Environ. 102, 169–188.
BubbJ. M., RuddT. and LesterJ. N.: 1991c, ‘Distribution of Heavy Metals in the River Yare and its Associated Broads', III, Lead and Zinc’, Sci. Tot. Environ. 102, 189–208.
Committee for Analytical Quality Control: 1984, ‘The Accuracy of Determination of Total Mercury in River Water’, TR 219, Water Research Centre, Medmenham, UK.
Council of European Communities: 1976, ‘Council on Pollution Caused by Certain Dangerous Substances Discharged into the Aquatic Environment of the Community. (76/464/EEC)’, Official Journal, L129, 18 May 1976.
Council of European Communities: 1991, ‘EC Directive’, Official Journal, L92, Vol 34, 13 April 1991.
DegrootA. J. and AllersmaE.: 1975, ‘Field Observations on the Transport of Heavy Metals in Sediments’, Prog. Water Technol. 7, 85–95.
Department of the Environment: 1988, Problems Arising from the Redevelopment of Gas Works and Similar Sites (2nd edn), Her Majesty's Stationery Office, London.
FaustS. D. and AlyO. M.: 1981, Chemistry of Natural Waters, Ann Arbor, Ann Arbor Science, USA, 400 pp.
FörstnerU. and WittmannG. T. W.: 1979, Metal Pollution in the Aquatic Environment, Springer-Verlag, Berlin, 486 pp.
GoldstoneM. E., KirkP. W. W. and LesterJ. N.: 1990a, ‘Behaviour of Heavy Metals During Activated Sludge Treatment. I. Cadmium, Chromium and Copper’, Sci. Total Environ. 95, 233–252.
GoldstoneM. E., KirkP. W. W. and LesterJ. N.: 1990b ‘Behaviour of Heavy Metals During Activated Sludge Treatment. II. Lead, Nickel and Zinc’, Sci. Total Environ. 95, 253–270.
GoldstoneM. E., AtkinsonC. and LesterJ. N.: 1990c, ‘Behaviour of Heavy Metals During Activated Sludge Treatment. III. Mercury and Arsenic’, Sci. Total Environ. 95, 271–294.
Horowitz, A. J.: 1985, ‘A Primer on Trace Metal-Sediment Chemistry’, U.S. Geol. Survey Water Supply Paper 2277.
KemptonS., SterrittR. M. and LesterJ. N.: 1982, ‘Atomic-Absorption Spectrophotometric Determination of Antimony, Arsenic, Bismuth, Tellurium, Thallium and Vanadium in Sewage Sludge’, Talanta 29, 675–681.
KrishnamurtyK. V., ShpirtE. and ReddyM. M.: 1976, ‘Trace Metal Extraction of Soil and Sediments, by Nitric Acid-Hydrogen Peroxide’, Atomic Absorption Newletter 15, 68–70.
ListonP. and MaharW.: 1986, ‘Trace Metal Export in Urban Runoff and its Biological Significance’, Bull. Environ. Contam. Toxicol. 36, 900–905.
OliverB. G. and KelsoJ. R. M.: 1983, ‘A Role for Sediments in Retarding the Acidification of Headwater Lakes, Water, Air & Soil Pollut. 20, 379–389.
PurchaseN. and FergusonJ.: 1986, ‘The Distribution and Geochemistry of Lead in River Sediments, Christchurch, New Zealand’, Environ. Pollut. 12, 203–216.
SalomonsW. and FörstnerU.: 1984, Metals in the Hydrocycle, Springer-Verlag, Berlin, 349 pp.
Standing Committee of Analysts: 1977, Methods for the Determination of Waters: Determination of the pH Value of Sludge, Soil, Mud and Sediment and Lime Requirement of Soil, HMSO, London.
Standing Committee of Analysts: 1979a Methods for the Determination of Waters: Dissolved Oxygen in Natural and Waste Waters. Two Methods, HMSO, London.
Standing Committee of Analysts: 1979b, Methods for the Determination of Waters: Sulphate in Waters, Effluents and Solids, HMSO, London.
Standing Committee of Analysts: 1980, Methods for the Determination of Waters: Suspended, Settleable and Total Dissolved Solids in Waters and Effluents, HMSO, London.
Standing Committee of Analysts: 1981, Methods for the Determination of Waters: Chloride in Waters, Sewage and Effluents, HMSO, London.
Standing Committee of Analysts: 1983, Methods for the Determination of Waters: Sulphide in Waters and Effluents. Tentative Methods, HMSO, London.
Stephenson, T.: 1987, ‘Sources of Heavy Metals in Wastewaters’, in: Lester, J. N. (ed). Heavy Metals in Wastewater and Sludge Treatment, Vol. 1: Sources, Analysis and Legislation. CRC Press Inc., pp. 31–64.
SterrittR. M. and LesterJ. N.: 1980, ‘Atomic Absorption Spectrophotometric Analysis of the Metal Content of Waste Water Samples’, Environ. Technol. Lett. 1, 402–417.
VernetJ. P., RapinF. and ScolariG.: 1977, ‘Heavy Metal Content of Lake and River Sediments in Switzerland’, in: GoltermanH. L. (ed.) Interactions Between Sediment and Freshwater, Junk, The Hague, pp. 390–397.
WarrenL. J.: 1981, ‘Contamination of Sediments by Lead, Zinc and Cadmium — A Review’, Environ. Pollut. (Series B) 2, 410–436.
WentselR. and McIntoshA.: 1977, ‘Sediment Contamination and Benthic Macroinvertebrate Distribution in a Metal Impacted Lake’, Environ. Pollot. 14, 187–193.
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Bubb, I.M., Lester, J.N. Factors controlling the accumulation of metals within fluvial systems. Environ Monit Assess 41, 87–105 (1996). https://doi.org/10.1007/BF00394249
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DOI: https://doi.org/10.1007/BF00394249