Abstract
Since 1991, Mississippi River water has been diverted at Caernarvon, Louisiana, into Breton Sound estuary. Breton Sound estuary encompasses 1100 km2 of fresh and brackish, rapidly subsiding wetlands. Nitrite + nitrate, total Kjeldahl nitrogen, ammonium, total phosphorus, total suspended sediments, and salinity concentrations were monitored at seven locations in Breton Sound from 1988 to 1994. Statistical analysis of the data indicated decreased total Kjeldahl nitrogen with associated decrease in total nitrogen, and decreased salinity concentrations in the estuary due to the diversion. Spring and summer water quality transects indicated rapid reduction of nitrite + nitrate and total suspended sediment concentration as diverted Mississippi River water entered the estuary, suggesting near complete assimilation of these constituents by the ecosystem. Loading rates of nitrite + nitrate (5.6–13.4 g m−2 yr−1), total nitrogen (8.9–23.4 g m−2 yr−1), and total phosphorus (0.9–2.0 g m−2 yr−1) were calculated along with removal efficiencies for these constituents (nitrite + nitrate 88–97%; total nitrogen 32–57%; total phosphorus 0–46%). The low impact of the diversion on water quality in the Breton Sound estuary, along with assimilation of TSS over a very short distance, suggests that more water may be introduced into the estuary without detrimental affects. This would be necessary if freshwater diversions are to be used to distribute nitrients and sediments into the lower reaches of the estuary, in an effort to compensate for relative sea-level rise, and reverse the current trend of rapid loss of wetlands in coastal Louisiana.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Literature Cited
Barry, J. M. 1997. Rising tide, the great Mississippi flood of 1927 and how it changed America. Simon and Schuster Inc., New York.
Baumann, R. H., J. W. Day, Jr., andC. A. Miller. 1984. Mississippi Deltaic wetland survival: Sedimentation versus coastal submergence.Science 224:1093–1094.
Blackburn, T. H. 1979. Method for measuring rates of NH4 turnover in anoxic marine sediments, using a15N−NH4 dilution technique.Applied and Environmental Microbiology 37(4):760–765.
Cahoon, D. R. andR. E. Turner. 1989. Accretion and canal impacts in a rapidly subsiding wetland II. Feldspar marker horizon technique.Estuaries 12(4):260–268.
Callender, E. andD. E. Hammond. 1982. Nutrient exchange across the sediment-water interface in the Potomac River Estuary.Estuarine, Coastal and Shelf Science 15:395–413.
Chatry, M. and D. Chew. 1985. Freshwater diversion in coastal Louisiana: Recommendations for development of management criteria.In 4th Coastal Marsh and Estuary Management Symposium 71–84.
Chatry, M., R. J. Dugas, andK. A. Easley. 1983. Optimum salinity regime for oyster production of Louisiana's state seed grounds.Contributions in Marine Science 26:81–94.
Cloern, J. E. 1987. Turbidity as a control on phytoplankton biomass and productivity in estuaries.Continental Shelf Research 7:1367–1381.
Davis, D. W. 1993. Crevasses on the lower course of the Mississippi River.coastal Zone 1:360–378.
Dak J. W., C. A. S. Hall, W. M. Kemp, andA. Yanez-Arancibia. 1989. Estuarine Ecology. Wiley-Interscience, New York.
Day, J. W. andP. H. Templet. 1989. Consequences of sea Level rise: Implications from the Mississippi Delta.Coastal Management 17:241–257.
Day, J. W., D. Pont, P. F. Hensel, andC. Ibanez. 1995. Impacts of sea-level rise on deltas in the Gulf of Mexico and the Mediterranean: The importance of pulsing events to sustainability.Estuaries 18(4):636–647.
DeLaune, R. D., R. H. Baumann, andJ. G. Gosselink. 1983. Relationships among vertical accretion, coastal submergence, and erosion in a Louisiana Gulf Coast marsh.Journal of Sedimentary Petrology 53(1):0147–0157.
DeLaune, R. D., C. N. Reddy, andW. H. Patrick. 1981. Accumulation of plant nutrients and heavy metals through sedimentation processes and accretion in a Louisiana salt marsh.Estuaries 4(4):328–334.
DeLaune, R. D., J. H. Whitcomb, J. W. H. Patrick, J. R. Purdue, andS. R. Pezeshki. 1989. Accretion and canal impacts in a rapidly subsiding wetland. I. Cs. and Pb techniques.Estuaries 12(4):247–259.
Froelich, P. N. 1988. Kinetic control of dissolved phosphate in natural rivers and estuaries: A primer on the phosphate buffer mechanism.Limnology and Oceanography 4:649–668.
Gornitz, V., S. Lebedeff andJ. Hansen. 1982. Global sea level trend in the past century.Science 215:1611–1614.
Greenberg, A. E., R. R. Trussell, L. S. Clesceri, M. A. H. Franson, eds. 1985. Standard Methods for the examination of water and wastewater. American Public Health Association. Washington D.C.
Hatton, R. S., R. D. DeLaune, andJ. W. H. Patrick. 1983. Sedimentation, accretion, and subsidence in marshes of Baritaria Basin, Louisiana.Limnology and Oceanography 28(3):494–502.
Hatton, R. S., W. H. Patrick, andR. D. DeLaune. 1982. Sedimentation, nutrient accumulation, and early diagnesis in Louisiana Barataria Basin Coastal Marshes.In Kennedy (ed.), Estuarine Comparisons Academic Press, New York.
Jenkins, M. C. andW. M. Kemp. 1984. The Coupling of nitrification and denitrification in two estuarine sediments.Limnology and Oceanography 29(3):609–619.
Jitts, H. R. 1959. The adsorption of phosphate by estuarine bottom deposits.Australian Journal of Marine and Freshwater Research 10:7–21.
Kemp, W. M. andW. R. Boynton. 1984. Spatial and temporal coupling of nutrient inputs to estuarine primary production: The role of particulate transport and decompostion.Bulletin of Marine Science 35(3):522–535.
Koike, I. andA. Hattori. 1978. Dentrification and ammonia formation in anaerobic coastal sediments.Applied and Environmental Micrøbiology 35(2):278–282.
Lane, R. R. 1998. Water Quality Analysis of Freshwater Diversion at Caernarvon, Louisiana. M.S. Thesis, Louisiana State University, Baton Rouge, Louisiana.
Lindau, C. W. andR. D. DeLaune. 1991. Dinitrogen and nitrous oxide emission and entrapments inSpartina alterniflora saltmarsh soils following addition of N-15 labeled ammonium and nitrate.Estuarine, Coastal and Shelf Science 32:161–172.
Liss, P. S. 1976 Conservative and non-conservative behaviour of dissolved constituents during estuarine mixing. p. 93–130.In Burton and Liss (eds.), Estuarine Chemistry. Academic Press, New York.
L'Homer, A. 1992. Sea-level changes and impacts on the Rhone coastal lowlands, p. 136–152.In M. A. Tooley, and S. Jelgersma (eds.), Impacts of sea-level rise on European coastal lowlands. Blackwell Publishers, Oxford, United Kingdom.
Madden, C. J., J. W. Day andJ. M. Randall. 1988. Freshwater and marine coupling in estuaries of the Mississippi River deltaic plain.Limnology and Oceanography 33:982–1004.
Milliman, J. D. andK. O. Emery. 1968. Sea levels during the past 35,000 Years.Science 162:1121–1123.
Moran, M. A. andR. E. Hodson. 1989. Formation and bacterial utilization of dissolved organic carbon derived from detrital lignocellulose.Limnology and Oceanography 34(6):1034–1047.
Mossa, J. 1996. Sediment dynamics in the lowermost Mississippi River.Engineering Geology 45:457–479.
Nowicki, B. L., J. R. Kelly, E. Requintina, andD. V. Keuren. 1997. Nitrogen losses through sediment denitrification in Boston Harbor and Massachusetts Bay.Estuaries 20(3):626–639.
Patrick, W. H. andR. A. Khalid. 1974. Phosphate release and sorption by soils and sediments: Effect of aerobic and anaerobic contitions.Science 186:53–55.
Penlands, S., R. Boyd, andJ. R. Suter. 1988. Transgressive depositional systems of the Mississippi delta plain: A model for barrier shoreline and shelf sand development.Journal of Sedimentary Petrology 58(6):932–949.
Penland, S. andK. E. Ramsey. 1990. Relative sea-level rise in Louisiana and the Gulf of Mexico: 1908–1988.Journal of Coastal Research 6(2):323–342.
Penland, S., H. H. Roberts, S. J. Williams A. H. Sallenger, D. R. Cahoon, et al. 1990. Coastal Land Loss In Louisiana.Transaction Gulf Coast Association of Geological Societies XL:685–699.
Rabalais, N. N., W. J. Wiseman, andR. E. Turner. 1994. Comparison of continuous records of near-bottom dissolved oxygen from the hypoxia zone along the Louisiana coast.Estuaries 17(4):850–861.
Reed, D. J. 1989. Patterns of sediment deposition in subsiding coastal salt marshes, Terrebonne Bay, Louisiana: The role of winter storms.Estuaries 12(4):222–227.
Reddy, K. R., R. D. DeLaune, W. F. DeBusk andM. S. Koch. 1993. Long-term nutrient accumulation rates in the Everglades.Soil Science Society of America Journal 57:1147–1155.
Richardson, C. J. 1985. Mechanisms controlling phosphorus retention capacity in freshwater wetlands.Science 228:1424–1427.
Richardson, C. J. andD. S. Nichols. 1985. Ecological analysis of wastewater management criteria in wetland ecosystems, p. 351–391.In Paul J. Godfrey (ed.), Ecological Considerations in Wetlands Treatment of Municipal Wastewaters. Van Nostrand Reinhold Company, New York.
Roberts, H. H.. 1997. Dynamic changes of the holocene Mississippi river delta plain: The delta cycle. Journal of Coastal Research 13:605–627.
Russell, R. J. 1936. Physiography of lower Mississippi River Delta, p. 3–199.In Lower Mississippi River Delta, Reports on the Geology of Plaquemines and St. Bernard parishes. Department of Conservation, Louisiana Geological Survey, Geological Bulletin no. 8. New Orleans, Louisiana.
Scruton, P. C. 1960. Delta building and the deltaic sequence. Recent Sediments, NW Gulf Coast of Mexico American Association of Petroleum Geologists Symposium (1960):82–102.
Sharp, J. H., C. H. Culberson, andT. M. Church. 1982. The chemistry of the Delaware estuary. General considerations.Limnology and Oceanography 2(6):1015–1028.
Sholkovitz, E. R. 1976. Flocculation of dissolved organic and inorganic matter during the mixing of river water and seawater.Geochemica et Cosmochimica Acta 40:831–845.
Smith, C. J., R. D. DeLaune andJ. W. H. Patrick. 1982. Nitrate reduction inSpartina Alterniflora marsh soil.Soil Science Society of America Journal 46(4):748–750.
Sorenson, J. 1978. Capacity for denitrification and reduction of nitrate to ammonia in a coastal marine sediment.Applied and Environmental Microbiology 35(2):301–305.
Stern, M. K., J. W. Day andK. G. Teague. 1991. Nutrient transport in a riverine-influenced, tidal freshwater bayou in Louisiana.Estuaries 14(4):382–394.
Stanley, D. J. 1988. Subsidence in the Northeastern Nile Delta: Rapid rates, possible causes, and consequences.Science 240: 497–500.
Teague, K. G., G. J. Madden, andJ. W. Day. 1988. Sedimentwater oxygen and nutrient fluxes in a river-dominated estuary.Estuaries 11(1):1–9.
Turner, R. E. andM. E. Boyer. 1997. Mississippi River diversions, coastal wetland restoration/creation and an economy of scale.Ecological Engineering 8:117–128.
Turner, R. E. andN. N. Rabalais. 1991. Changes in Mississippi River water quality this century.BioScience 41(3):140–147.
Underwood, A. J. 1994. On beyond BACI: Sampling designs that might reliably detec environmental disturbances.Ecological Applications 4(1):3–15.
United States Corps of Engineers. 1995. Caernarvon freshwater diversion structure, hydrologic, water and sediment quality monitoring program comprehensive report. United States Corps of Engineers, New Orleans, Louisiana.
Villarrubia, C. R. 1998. Ecosystem response to a freshwater diversion: the Caernarvon experience. Abstract. Symposium on Recent research in Coastal Louisiana: Natural System Function and Response to Human Influences. February 3–5, Lafayette, Louisiana.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Lane, R.R., Day, J.W. & Thibodeaux, B. Water quality analysis of a freshwater diversion at Caernarvon, Louisiana. Estuaries 22, 327–336 (1999). https://doi.org/10.2307/1352988
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.2307/1352988