Abstract
The diked and freshened Herring River estuary (Wellfleet, Massachusetts) experiences regular summer hypoxia and one- to three-week periods of main stream anoxia, often accompanied by fish kills. Stream hypoxia results from the temperature-dependent increase in oxygen demand of organic matter released by diked salt marsh deposits; periods of total anoxial are induced by heavy rains which increase the runoff of wetland organic matter. Historic reductions in tidal flushing have extended the low salinity region of the estuary normally characterized by high organic loads and minimal flushing. Recurrent main stream anoxia has depressed both migratory and resident aquatic fauna.
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Literature Cited
American Public Health Association. 1980. Standard Methods for the Examination of Water and Wastewater. 15th Edition. American Public Health Association, American Water Works Association, and Water Pollution Control Federation, Washington, D.C. 1134 p.
Belding, D. 1921. A report upon the alewife fisheries of Massachusetts. Massachusetts Division of Fisheries and Game. 135 p.
Clark, L. J. and N. A. Jaworski. 1972. Nutrient transport and dissolved oxygen budget studies in the Potomac estuary. U.S. EPA Technical Rep. No. 37. Annapolis Field Office, Region III.
Gosling, L. M. andS. J. Baker. 1980. Acidity fluctuations at a broadland site in Norfolk.Journal of Applied Ecology 17:479–490.
Grant, R. R. andR. Patrick. 1970. Tinicum marsh as a water purifier, p. 105–123.In Two Studies of Tinicum Marsh. The Conservation Foundation, Washington, D.C.
Howarth, R. W., A. Giblin, J. Gale, B. J. Peterson, andG. W. Luther, III. 1983. Reduced sulfur compounds in the pore waters of a New England salt marsh.Environmental Biochemistry 35:135–152.
Jackson, R. H., P. J. le B. Williams, andI. R. Point. 1987. Freshwater phytoplankton in the low salinity region of the River Tamar estuary.Estuarine and Coastal Marine Science 25: 299–311.
Kuo, A. Y. andB. J. Neilson. 1987. Hypoxia and salinity in Virginia estuaries.Estuaries 10:277–283.
Lee, V. andS. Olsen. 1985. Eutrophication and management initiatives for the control of nutrient inputs to Rhode Island coastal lagoons.Estuaries 8:191–202.
Lindholm, G. F., J. O. Helgesen, andD. W. Ericson. 1976. Water resources of the Big Fork River Watershed, northcentral Minnesota. Hydrological Investigations Atlas HA-549. U.S. Geological Survey, Arlington, Virginia. 2 p.
Loring, D. H., R. T. T. Rantala, A. W. Morris, A. J. Bale, andR. J. M. Howland. 1983. Chemical composition of suspended particles in an estuarine turbidity maximum zone.Canadian Journal of Fisheries Aquatic Sciences 40(Suppl. 1):201–206.
Martin, D. C. andD. A. Bella. 1971. Effect of mixing on oxygen uptake rate of estuarine bottom deposits.Journal of the Water Pollution Control Federation 43:1865–1876.
Morris, A. W., R. F. C. Mantoura, A. J. Bale, andR. J. M. Howland. 1978. Very low salinity regions of estuaries: Important sites for chemical and biological reactions.Nature 274:678–680.
Nienhuis, P. H. andJ. C. Huis in’t Veld. 1984. Grevelingen: From an estuary to a saline lake.Water Science and Technology 16:27–50.
Odum, W. E., T. J. Smith, III, J. K. Hoover, and C. C. McIvor. 1984. The ecology of tidal freshwater marshes of the United States east coast: A community profile. U.S. Fish and Wildlife Service FWS/OBS-83/17. 177 p.
Officer, C. B., R. B. Biggs, J. L. Taft, L. E. Cronin, M. A. Tyler, andW. R. Boynton. 1984. Chesapeake Bay anoxia: Origin, development, and significance.Science 223:22–27.
Polak, J. andG. C. Haffner. 1978. Oxygen depletion of Hamilton Harbour.Water Research 12:205–215.
Portnoy, J. W. 1984. Salt marsh diking and nuisance mosquito production on Cape Cod, Massachusetts.Mosquito News 44:560–564.
Portnoy, J. W., C. O. Phipps, andB. A. Samora. 1987a. Mitigating the effects of oxygen depletion on Cape Cod National Seashore anadromous fish.Park Science 8:12–13.
Portnoy, J. W., C. T. Roman, and M. A. Soukup. 1987b. Hydrologic and chemical impacts of diking and drainage of a small estuary: Effects on wildlife and fisheries, p. 253–267.In W. R. Whitman and W. H. Meredith (eds.), Proceedings of a Symposium on Waterfowl and Wetlands Management in the Coastal Zone of the Atlantic Flyway. Delaware Department of Natural Resources and Environmental Control.
Portnoy, J. W., D. E. Wilmington, andM. A. Soukup. 1982. From salt marsh to forest: The outer Cape’s wetlands.The Cape Naturalist 11:28–34.
Prince, A. B. andH. Chien. 1968. Chemical character of ground and surface waters in relation to soil weathering processes. Water Resources Research Center. Univ. New Hampshire. Durham, New Hampshire. 7 p.
Roman, C. T. 1987. An evaluation of alternatives for estuarine restoration management: The Herring River ecosystem. National Park Service Coop. Res. Unit. Rutgers Univ., New Brunswick, New Jersey. 303 p.
Schroeder, W. W. (convener). 1985. The occurrence of hypoxic and anoxic conditions in estuaries and coastal environments. Abstracts 8th Biennial Estuarine Research Conf.Estuaries 8(2B):43A-47A.
Soukup, M. A. andJ. W. Portnoy. 1986. Impacts from mosquito control-induced sulphur mobilization in a Cape Cod estuary.Environmental Conservation 13:47–50.
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Portnoy, J.W. Summer oxygen depletion in a diked New England estuary. Estuaries 14, 122–129 (1991). https://doi.org/10.2307/1351685
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DOI: https://doi.org/10.2307/1351685