Abstract
Shelf sediments from near the mouth of the Mississippi River were collected and analyzed to examine whether records of the consequences of anthropogenic nutrient loading are preserved. Cores representing approximately 100 yr of accumulation have increasing concentrations of organic matter over this period, indicating increased accumulation of organic carbon, rapid early diagenesis, or a combination of these processes. Stable carbon isotopes and organic tracers show that virtually all of this increase is of marine origin. Evidence from two cores near the river mouth, one within the region of chronic seasonal hypoxia and one nearby but outside the hypoxic region, indicate that changes consistent with increased productivity began by approximately the mid-1950s when the inorganic carbon in benthic forams rapidly became isotopically lighter at both stations. Beginning in the mid-1960s, the accumulation of organic matter, organic δ13C, and δ15N all show large changes in a direction consistent with increased productivity. This last period coincides with a doubling of the load of nutrients from the Mississippi River, which levelled off in the mid-1980s. These data support the hypothesis that anthropogenic nutrient loading has had a significant impact on the Louisiana shelf.
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Literature Cited
Benner, R., G. Chin-Leo, W. Gardner, B. J. Eadie, andJ. Cotner. 1992. The fates and effects of riverine and shelf-derived DOM on the plume/Gulf shelf process, p. 84–95.In Nutrient Enhanced Coastal Ocean Productivity. Publication Number TAMU-SG-92-109, Sea Grant Program, Texas A&M University, Galveston, Texas.
Benner, R., A. E. Maccubbin, andR. E. Hodson. 1984. Anaerobic biodegradation of the lignin and polysaccharide components of lignocellulose and synthetic lignin by sediment microflora.Applied and Environmental Microbiology 47:998–1004.
Coakley J. P., J. H. Carey, andB. J. Eadie. 1992. Specific or-ganic components as tracers of contaminated fine sediment dispersal in Lake Ontario near Toronto.Hydrobiologia 235/236. 85–96.
DeNiro, M. J. andS. Epstein. 1981. Influence of diet on the distribution of nitrogen isotopes in animals.Geochinica et Cosmochimica Acta 45:341–351.
Dinnell, S. P. and A. Bratkovich. In Press. The relationship of nitrate flux to water discharge and nitrate concentration in the Mississippi River:Journal of Marine Systems.
Eadie, B. J. andL. M. Jeffrey. 1973. 13C analyses of oceanic particulate organic matter.Marine Chemistry 1:199–209.
Eadie, B. J., J. A. Robbins, P. Blackwelder, S. Metz, J. H. Trefry, B. McKee, andT. A. Nelsen. 1992. A retrospective analysis of nutrient enhanced coastal ocean productivity in sediments from the Louisiana continental shelf, p. 7–15.In Nutrient Enhanced Coastal Ocean Productivity. Publication Number TAMU-SG-92-109, Sea Grant Program, Texas A&M University. Galveston, Texas.
Eadie, B. J., L. M. Jeffrey, andW. M. Sackett. 1978. Some observations on the stable carbon isotope composition of dissolved and particulate organic carbon in the marine environment.Geochimica et Cosmochimica Acta 42:1265–1269.
Eganhouse, R. P. andI. R. Kaplan. 1988. Depositional history of Recent sediments from San Pedro Shelf, California: Reconstruction using elemental abundance, isotopic composition, and molecular markers.Marine Chemistry 24:163–191.
Entzeroth, L. C. 1982. Particulate matter and organic sedimentation on the continental shelf and slope of the northwest Gulf of Mexico. Ph.D. Dissertation, University of Texas, Austin, Texas.
Farrell, D. 1974. Benthic ecology of Timbalier Bay, Louisiana, and adjacent offshore areas in relation to oil production. Ph.D. Dissertation, Florida State University, Tallahassee, Florida.
Fenton, G. E. andD. A. Ritz. 1988. Changes in carbon and hydrogen stable isotope, ratios of macroalgae and seagrass during decomposition.Estuarine, Coastal and Shelf Science 26: 429–436.
Fry, B. andS. C. Wainright. 1991. Diatom sources of13C-rich carbon in marine food webs.Marine Ecology Progress Series 76: 149–157.
Gardner, W. S., R. Benner, G. Chin-loe, J. B. Cotner, B. J. Eadie, J. F. Cavaletto, andM. B. Lansing. 1994. Mineralization of organic material and bacterial dynamics in Mississippi River plume water.Estuaries 17:xxx-xxx.
Gearing, P., J. N. Gearing, T. F. Lytle, andJ. S. Lytle 1976. Hydrocarbons in 60 northeast Gulf of Mexico sediments: A preliminary survey.Geochimica et Cosmochimica Acta 40:1005–1017.
Gearing, P., F. E. Plucker, andP. L. Parker 1977. Organic carbon stable isotope ranos of continental margin sediments.Marine Chemistry 5:251–266.
Harper, D. E., L. D. McKinney, R. R. Salzer, andR. J. Case. 1981. The occurrence of hypoxic bottom water off the upper Texas coast and its effects on benthic biota.Contributions in Marine Sciences 24:53–79.
Heaton, T. H. E. 1986. Isotopic studies of the nitrogen pollution in the hydrosphere and atmosphere: A review.Chemical Geology 59:87–102.
Hedges, J. I. 1992. Global biogeochemical cycles: Progress and problems.Marine Chemistry 39:67–94.
Hedges, J. I. andJ. R. Ertel. 1982. Characterization of lignin by gas capillary chromatography of cupric oxide oxidation products.Analytical Chemistry 54:174–178.
Hedges, J. I. andD. C. Mann. 1979. The lignin geochemistry of marine sediments from the southern Washington coast.Geochimica et Cosmochimica Acta 43:1809–1818.
Hedges, J. I. andP. L. Parker. 1976. Land-derived organic matter in surface sediments from the Gulf of Mexico.Geochimica et Cosmochimica Acta 40:1019–1029.
Henrichs, S. M. 1992. Early diagenesis of organic matter in marine sediments: Progress and perplexity.Marine Chemistry 39:119–150.
Lohrenz, S. E., D. C. Redalje, G. L. Fahnenstiel, andG. F. Lang. 1992. Regulation and distribution of primary production in the northern Gulf of Mexico, p. 95–104.In Nutrient Enhanced Coastal Ocean Productivity. Publication Number TAMU-SG-92-109, Sea Grant Program, Texas A&M University, Galveston, Texas.
Macko, S. A., L. Entzeroth, andP. L. Parker. 1984. Regional differences in nitrogen and carbon isotopes on the continental shelf of the Gulf of Mexico.Naturwissenschaften 71:374–375.
Malcolm, R. L. and W. H. Durum. 1976. Organic carbon and nitrogen concentrations and annual organic carbon load of six selected rivers of the United States. United States Geological Survey. Water Supply Paper 1817-F. Reston, Virginia.
Meade, R. H. and R. S. Parker. 1985. Sediment in rivers of the United States.In National Water Summary 1984. United States Geological Survey. Water Supply Paper 2275. Reston, Virginia.
McArthur, J. M., R. V. Tyson, J., Thomsom, andD. Mattey. 1992. Early diagenesis of marine organic matter: Alteration of the carbon isotopic composition.Marine Geology 105:51–61.
McKee, B. A., J. G. Booth, andP. W. Swarzenski. 1990. The fate of particulates and particle reactive constituents in the Mississippi River/ocean mixing zone.Transactions of the American Geophysical Union 71:71.
McKee, B. A., D. J. DeMaster, andC. A. Nittrouer. 1986. Temporal variability in the partitioning of thorium between dissolved and particulate phases on the Amazon shelf: Implications for the scavaging of particle-reactive species.Continental Shelf Research 6:87–106.
McNichol, A. P., C. Lee, andE. R. M. Druffel 1988. Carbon cycling in coastal sediments: 1. A Quantitative estimate of the remineralization of organic carbon in the sediments of Buzzards Bay, MA,Geochimica et Cosmochimica Acta 52:1531–1543.
Nelsen, T. A., P. Blackwelder, T. Hoop, B. McKee, N. Romer, C. Zarikian, andS. Metz 1994. Time-based correlations of biogenic, lithogenic and authigenic sediment components with anthropogenic inputs in the Gulf of Mexico NECOP study area.Estuaries 17:xxx-xxx.
Nelsen, T. A. andJ. H. Trefey. 1986. Pollutant-particle relationships in the marine environment: A study of particulates and their fate in a major river-delta-shelf system.Rapports et Proces-Verbaux des Reunions, Consiel International Pour l'Exploration de la Mer 186:115–127.
Nittrouer, C. A., R. W. Sternberg, R. Carpenter, andJ. T. Bennett. 1979. The use of lead-210 geochronology as a sedimentological tool: Application to the Washington continental shelf.Marine Geology 31:297–316.
Parker, P. L. 1979. Organic geochemistry in the natural setting of the Gulf of Mexico, p. 103–130.In Proceedings of a Symposium on Environmental Research Needs in the Gulf of Mexico (GOMEX), 30 September-5 October, Port Aransas Marine Laboratory, University of Texas, Port Aransas, Texas.
Parker, P. L., E. W. Behrens, J. A. Calder, andD. Shultz. 1972. Stable carbon isotope ratio variations in the organic carbon from Gulf of Mexico sediments.Contributions in Marine Science 16:139–147.
Rabalais, N. N. andD. E. Harper. 1992. Studies of benthic biota in areas affected by moderate and severe hypoxia, p. 150–153.In Nutrient Enhanced Coastal Ocean Productivity. Publication Number TAMU-SG-92-109, Sea Grant Program, Texas A&M University, Galveston, Texas.
Rabalais, N. N., R. E. Turner, andW. J. Wiseman. 1992. Distribution and characteristics of hypoxia on the Louisiana shelf in 1990 and 1991, p. 15–20.In Nutrient Enhanced Coastal Ocean Productivity. Publication Number TAMU-SG-92-109, Sea Grant Program, Texas A&M University, Galveston, Texas.
Rabalais, N. N., R. E. Turner, W. J. Wiseman, andD. F. Boesch. 1991. A brief summary of hypoxia on the northern Gulf of Mexico continental shelf: 1985–1988, p. 35–47.In R. V. Tyson and T. H. Pearson (eds.), Modern and Ancient Continental Shelf Anoxia. Geological Society Special Publication No. 58, The Geological Society, London.
Redalje, D. C., S. E. Lohrenz, andG. L. Fahnenstiel. 1992. The relationship between primary, production and the export of POM from the photic zone in the Mississippi River plume and inner Gulf of Mexico shelf regions, p. 105–110.In Nutrient Enhanced Coastal Ocean Productivity. Publication Number TAMU-SG-92-109, Sea Grant Program, Texas A&M University, Galveston, Texas.
Riley, G. A. 1937. The significance of the Mississippi River drainage for biological conditions in the northern Gulf of Mexico.Journal of Marine Research 1:60–74.
Sackett, W. M. andR. R. Thompson. 1963. Isotopic organic carbon composition of Recent continental derived clastic sediments of eastern Gulf coast, Gulf of Mexico.Bulletin of the Americal Association of Petroleum Geologists 47:525–528.
Schelske, C. L. andD. A. Hodell. 1991. Recent changes in productivity and climate of Lake Ontario detected by isotopic analysis of sediments.Limnology and Oceanography 36:961–975.
Seitzinger, S. P. 1990. Demtrification in aquatic sediments, p. 301–322.In N. P. Revsbech and J. Sorensen (eds.), Denitrification in Soil and Sediment. Plenum Press, New York.
Shokes, R. F. 1976. Rate-dependent distributions of lead-210 and interstitial sulfate in sediments of the Mississippi River delta. Ph.D. Dissertation., Texas A&M University, College Station, Texas.
Showers, W. J. andD. G. Angle. 1986. Stable isotopic characterization of organic carbon accumulation on the Amazon continental shelf.Continental Shelf Research 6:227–244.
Spiker, E. C. andP. G. Hatcher. 1984. Carbon isotope fractionation of sapropelic organic matter during early diagenesis.Organic Geochemistry 5:283–290.
Thayer, G. W., J. J. Govoni, andD. W. Connally. 1983. Stable carbon isotope ratios of the planktonic food web in the northern Gulf of Mexico.Bulletin of Marine Science 33:247–256.
Trefry, J. H., S. Metz, R. P. Trocine, andT. A. Nelsen. 1985. A decline in lead transport by the Mississippi River.Science 230:439–441.
Turner, R. E. andR. Kaswadji. 1987. Long-term changes in the Mississippi River water quality and its relationship to hypoxic continental shelf waters, p. 261–266.,In Estuarine and Coastal Management—Tools of the Trade. Proceedings of the Tenth National Conference of the Coastal Society. October 12–15, The Coastal Society. New Orleans, Louisiana.
Turner, R. E. andN. N. Rabalais. 1991. Changes in Mississippi River water quality this century.BioScience 41:140–144.
United States Department of Commerce 1975, 1982, and 1989. Statistical Abstracts of the United States. Bureau of Census, United States Department of Commerce, Washington, D.C.
Van Dover, G. L., J. F. Grassle, B. Fry, R. H. Garritt, andV. R. Starczak. 1992. Stable isotope evidence for entry of sewage-derived organic material into a deep-sea food web.Nature 360:153–156.
Velinsky, D. J., D. J. Burdige, andM. L. Fogel. 1991. Nitrogen diagenesis in anoxic marine sediments: Isotope effects, p. 154–162.In The Annual Report of the Director Geophysical Laboratory 1990–1991. Carnagie Institute, Washington, D.C.
Wada, E. andA. Hattori. 1991. Nitrogen in the Sea: Forms, Abundances and Rate Processes. CRC Press, Boca Raton, Florida.
Westrich, J. T. andR. A. Berner. 1984. The role of sedimentary organic matter in bacterial sulfate reduction: The G model tested.Limnology and Oceanography 29:236–249.
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Eadie, B.J., McKee, B.A., Lansing, M.B. et al. Records of nutrient-enhanced coastal ocean productivity in sediments from the Louisiana continental shelf. Estuaries 17, 754–765 (1994). https://doi.org/10.2307/1352745
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DOI: https://doi.org/10.2307/1352745