The Mississippi River alluvial plain

doi:10.1017/CBO9780511542091.009

8 - The Mississippi River alluvial plain

Published online by Cambridge University Press: 10 August 2009

G. P. Shaffer ,

J. G. Gosselink and

S. S. Hoeppner

Edited by

Lauchlan H. Fraser and

Paul A. Keddy

Show author details

G. P. Shaffer: Affiliation:
Southeastern Louisiana University
J. G. Gosselink: Affiliation:
Louisiana State University
S. S. Hoeppner: Affiliation:
Southeastern Louisiana University
Lauchlan H. Fraser: Affiliation:
University of Akron, Ohio
Paul A. Keddy: Affiliation:
Southeastern Louisiana University

Book contents

Get access

Summary

Introduction

The Mississippi River is the third-largest river in the world. It is the longest and largest river in North America, ranking third in length and watershed area and seventh in discharge among the world's largest rivers (Wiener et al. 1998). The river derives its name from the Ojibwa (Chippewa) Indian language, in which Mississippi means “great river” or “gathering of waters” – an appropriate name for a river that has a watershed that contains parts of 31 states in the United States and 2 Canadian provinces (Fig. 8.1). With its average discharge of about 15 400 m3s−1 (Gosselink et al. 1998), the Mississippi River accounts for roughly 90% of the freshwater inflow into the Gulf of Mexico (Dinnel & Wiseman 1986, National Oceanic and Atmospheric Administration 1987). Along with this water, it also delivers approximately 210 to 240 billion kg of sediments to its delta and into the Gulf of Mexico each year (Milliman & Meade 1983, Gosselink et al. 1998). The river can be divided into four major zones. The headwaters begin at Lake Itasca, downstream from the St. Anthony Falls in Minneapolis, Minnesota. The next section, often referred to as the “upper Mississippi River,” extends from the mouth of the Missouri River near St. Louis to the mouth of the Ohio River. The relatively narrow bands of batture lands (the floodplains contiguous with the river) along these two sections are highly populated and have been isolated from the river for over a century.

Type: Chapter
Information: The World's Largest Wetlands
Ecology and Conservation
, pp. 272 - 315

DOI: https://doi.org/10.1017/CBO9780511542091.009 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2005

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

Abernethy, Y. and Turner, R. E. (1987). US forested wetlands: 1940–1980. Bioscience, 37, 721–7CrossRef Google Scholar

Barbour, M. G., Rejmanek, R., Johnson, A. F., and Pavlik, B. M. (1987). Beach vegetation and plant distribution pattern along the northern Gulf of Mexico. Phytocoenologia, 15, 210–23CrossRef Google Scholar

Barras, J. A., Bourgeois, P. E., and Handley, L. R. (1994). Land Loss in Coastal Louisiana, 1956–1990. National Biological Survey, National Wetlands Research Center Open File Report 94-01

Britsch, L. D. and Dunbar, J. B. (1993). Land loss rates: Louisiana Coastal Plain. Journal of Coastal Research, 9, 324–38Google Scholar

Burdick, D. M., Cushman, D., Hamilton, R., and Gosselink, J. G. (1989). Faunal changes due to bottomland hardwood forest loss in the Tensas watershed, Louisiana. Conservation Biology, 3, 282–92CrossRef Google Scholar

Chabreck, R. H. (1972). Vegetation, Water and Soil Characteristics of the Louisiana Coastal Region. Louisiana State University, Agricultural Experiment Station Technical Bulletin 664. Baton Rouge, LA: Louisiana State UniversityGoogle Scholar

Chabreck, R. H. and Linscombe, R. G. (1978). Vegetative Type Map of the Louisiana Coastal Marshes. New Orleans, LA: Louisiana Department of Wildlife and FisheriesGoogle Scholar

Chabreck, R. H. and Linscombe, R. G. (1988). Louisiana Coastal Marsh Vegetative Type Map 1988. Baton Rouge, LA: Louisiana Department of Wildlife and FisheriesGoogle Scholar

Chabreck, R. H., Joanen, T., and Palmisano, A. (1968). Vegetative Type Map of the Louisiana Coastal Marshes. New Orleans, LA: Louisiana Wildlife and Fisheries CommissionGoogle Scholar

Clark, J. R. and Benforado, J. (eds.) (1981). Wetlands of Bottomland Hardwood Forests. Amsterdam, the Netherlands: ElsevierGoogle Scholar

Coleman, J. M. and Gagliano, S. M. (1964). Cyclic sedimentation in the Mississippi River Deltaic Plain. Transactions of the Gulf Coast Association of Geological Societies, 14, 67–80Google Scholar

Coleman, J. M., Roberts, H. H., and Stone, G. W. (1998). Mississippi River Delta: an overview. Journal of Coastal Research, 14(3), 698–716Google Scholar

Cooper, C. M. and McHenry, J. R. (1989). Sediment accumulation and its effects on a Mississippi River oxbow lake. Environmental Geology and Water Sciences, 13, 33–7CrossRef Google Scholar

Costanza, R., Sklar, F. H., and White, M. L. (1990). Modeling coastal landscape dynamics. Bioscience, 40, 91–107CrossRef Google Scholar

CWPPRA (Coastal Wetlands Planning, Protection, and Restoration Act) (1990). Public Law 101-646

Dahm, C. N. (ed.) (1995). Kissimmee River restoration. Restoration Ecology (Special issue), 3, 145–283CrossRef Google Scholar

Day, J. W. Jr., Pont, D., Hensel, P. F., and Ibañez, C. (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), 636–47CrossRef Google Scholar

Day, J. W. Jr., Rybcyk, J., Scarton, F.et al. (1999). Soil accretion dynamics, sea-level rise and the survival of wetlands in Venice Lagoon: a field and modeling approach. Estuaries, Coastal and Shelf Science, 49, 607–28CrossRef Google Scholar

Day, J. W. Jr., Shaffer, G. P., Britsch, L. D.et al. (2000). Pattern and process of land loss in the Mississippi Delta: a spatial and temporal analysis of wetland habitat change. Estuaries, 23, 425–38CrossRef Google Scholar

Day, J. W. Jr., Shaffer, G. P., Reed, D. J.et al. (2001). Patterns and processes of wetland loss in Coastal Louisiana are complex: a reply to R. E. Turner. 2001. Estimating the indirect effects of hydrological change on wetland loss: if the Earth is curved, then how would we know it?Estuaries, 24, 647–51CrossRef Google Scholar

Dinnel, S. P. and Wiseman, W. J. Jr. (1986). Freshwater on the Louisiana shelf. Continental Shelf Research, 6, 765–84CrossRef Google Scholar

Earles, J. M. (1975). Forest Statistics for Louisiana Parishes. US Department of Agriculture Forest Service, Southern Forest Experiment Station, Forest Service Research Bulletin SO-52

Fisk, H. N. (1958). Recent Mississippi River sedimentation and peat accumulation. In Quatrieme congres pour l'avancement des etudes de stratigraphic et de géologie du Carbonifère, septembre 15–20, 1958, Heerlen, the Netherlands. Compte rendu, 3. vols. Heerler, the Netherlands: Geology Bureau, pp. 187–99

Fisk, H. N. and McFarlan, E., Jr. (1955). Late Quaternary Deltaic Deposits of the Mississippi River. Crust of the Earth. Geological Society of America Special Paper 62, pp. 279–302

Frazier, D. E. (1967). Recent deltaic deposits of the Mississippi River, their development and chronology. Transactions of the Gulf Coast Association of Geological Societies, 17, 287–315Google Scholar

Fremling, C. R., Rasmussen, J. L., Sparks, R. E. et al. (1989). Mississippi River fisheries: a case history. In Proceedings of the International Large River Symposium, ed. D. P. Dodge. Canadian Special Publication of Fisheries and Aquatic Science 106

Gagliano, S. M. and Howard, P. C. (1984). The neck cut-off oxbow lake cycle along the Lower Mississippi River. In River Meandering, ed. Elliot, C. M.. New York: American Society of Civil Engineers, pp. 147–58Google Scholar

Galloway, G. E., Jr. (1980). Ex-post Evaluation of Regional Water Resources Development: the Case of the Yazoo-MS Delta. US Army Corps of Engineers Institute for Water Resources, Report IWR-80-D-1

Goolsby, D. A. (2000). Mississippi Basin nitrogen flux believed to be cause of Gulf hypoxia. Eos, 81, 321–27CrossRef Google Scholar

Goolsby, D. A., Battaglin, W. A., Lawrance, G. B.et al. (1999). Flux and Sources of Nutrients in the Mississippi–Atchafalaya River Basin: Topic 3 Report for the Integrated Assessment on Hypoxia in the Gulf of Mexico. NOAA, Coastal Ocean Program, Decision Analysis Series 17. Silver Spring, MD: NOAA, Coastal Ocean OfficeGoogle Scholar

Gornitz, V., Lebedeff, S., and Hansen, J. (1982). Global sea level trend in the past century. Science, 215, 1611–14CrossRef Google Scholar PubMed

Gosselink, J. G. (1984). The Ecology of Delta Marshes of Coastal Louisiana: a Community Profile. US Fish and Wildlife Service, Biological Service Program, FWS/OBS-84/09

Gosselink, J. G. (2001). Comments on “Wetland loss in the Northern Gulf of Mexico: multiple working hypotheses.” by R. E. Turner (1997). [Estuaries, 20(1), 1–13]. Estuaries, 24(4), 636–8Google Scholar

Gosselink, J. G., Shaffer, G. P., Lee, L. C.et al. (1990). Landscape conservation in a forested wetland watershed: can we manage cumulative impacts?Bioscience, 40(8), 588–601CrossRef Google Scholar

Gosselink, J. G., Coleman, J. M., and Stewart, R. E., Jr. (1998). Coastal Louisiana. In Status and Trends of the Nation's Biological Resources, vol. 1, eds. Mac, M. J., Opler, P. A., Haecker, C. E. Puckett, and Doran, P. D.. Reston, VA: US Department of the Interior, US Geological Survey, pp. 385–436Google Scholar

Gunter, G. (1967). Some relationships of estuaries to the fisheries of the Gulf of Mexico. In Estuaries, ed. Lauff, G. H.. AAAS Publication 83, pp. 621–38. San Francisco, CA: American Association for the Advancement of ScienceGoogle Scholar

Herke, W. H. and Rogers, B. D. (1989). Threats to coastal fisheries. In Marsh Management in Coastal Louisiana: Effects and Issues. Proceedings of a Symposium. Washington, DC: US Fish and Wildlife Service. Baton Rouge, LA: Louisiana Department of Natural Resources, pp. 196–212Google Scholar

Hoffman, J. S., Keyes, D., and Titus, J. G. (1983). Projecting Future Sea Level Rise. Methodology, Estimates to the Year 2100, and Research Needs. United States Environmental Protection Agency Report, EPA 230-09-007

Hunter, W. C., Carter, M. F., Pashley, D. N., and Barker, K. (1993). Partners in flight species prioritization scheme. In Status and Management of Neotropical Migratory Birds, eds. D. M. Finch and P. W. Stangel. USDA Forest Service General Technical Report RM-229, pp. 109–19

Hunter, R. G. and Faulkner, S. P. (2001). Denitrification potentials in restored and natural bottomland hardwood wetlands. Soil Science Society of America Journal, 65, 1865–72CrossRef Google Scholar

Johnston, J. B., Watzin, M. C., Barras, J. A., and Handley, L. R. (1995). Gulf of Mexico coastal wetlands: case studies of loss trends. In Our Living Resources: a Report to the Nation on the Distribution, Abundance, and Health of US Plants, Animals, and Ecosystems, eds. LaRoe, E. T., Farris, G. S., Puckett, C. E., Doran, P. D., and Mac, M. J.. Washington, DC: US Department of the Interior, National Biological Service, pp. 269–72Google Scholar

Keller, C. E., Spendelow, J. A., and Greer, R. D. (1984). Atlas of Wading Bird and Seabird Nesting Colonies in Coastal Louisiana, Mississippi, and Alabama: 1983. US Fish and Wildlife Service FWS/OBS-82/13

Kemp, G. P. (1986). Mud deposition at the shoreface: wave and sediment dynamics on the Chenier Plain of Louisiana. Ph. D. dissertation, Louisiana State University, Baton Rouge, LA

Kerr, R. A. (1989). Bringing down the sea level rise. Science, 246, 1563CrossRef Google Scholar PubMed

Kessel, R. and Reed, D. J. (1995). Status and trends in Mississippi River sediment regime and its role in Louisiana wetland development. In Status and Historical Trends of Hydrological Modification, Reduction in Sediment Availability, and Habitat Loss/Modification in the Barataria and Terrebonne Estuarine System, ed. Reed, D. F.. BTNEP Publication 20. Thibodaux, LA: Barataria-Terrebonne National Estuary ProgramGoogle Scholar

Lane, R. R., Day, J. W., and Thibodeaux, B. (1999). Water quality analysis of a freshwater diversion at Caernarvon, Louisiana. Estuaries, 22, 327–36CrossRef Google Scholar

LCA (Louisiana Coastal Area) Restoration Study (2003). Science Workshop for the Louisiana Coastal Area (LCA) Restoration Study, April 23–24, 2003, New Orleans, LA. Baton Rouge, LA: Louisiana Department of Natural Resources

LCWCRTF (Louisiana Coastal Wetland Conservation and Restoration Task Force) (1993). Louisiana Coastal Wetlands Restoration Plan. Coastal Wetlands Planning Protection and Restoration Act. New Orleans, LA: US Army Corps of Engineers

LCWCRTF (Louisiana Coastal Wetland Conservation and Restoration Task Force) (1997). 1997 Evaluation Report. S. Underwood, D. Meffert, B. Good, L. Bahr, B. Ethridge, M. Floyd, S. Green, R. Hartman, R. Paille, D. Reed, and J. Johnston. Baton Rouge, LA: Louisiana Department of Natural Resources, Coastal Restoration Division

LCWCRTF–WCRA (Louisiana Coastal Wetlands Conservation and Restoration Task Force and Wetlands Conservation and Restoration Authority) (1998). Coast 2050: Toward a Sustainable Coastal Louisiana. Baton Rouge, LA: Louisiana Department of Natural Resources

Llewellyn, D. W., Shaffer, G. P., Craig, N. J.et al. (1996). A decision-support system for prioritizing restoration sites on the Mississippi River Alluvial Plain. Conservation Biology, 10(5), 1446–55CrossRef Google Scholar

Louisiana Natural Heritage Program (2002). Species listed as threatened (T) and endangered (E) in Louisiana. Louisiana Natural Heritage Program, Department of Wildlife and Fisheries, Baton Rouge, LA. http://www.wlf.state.la.us/apps/netgear/page1.asp

Lowery, G. H. Jr. (1974). Louisiana Birds, 3rd edn. Baton Rouge, LA: Louisiana State University PressGoogle Scholar

Lowrance, R., Todd, R., Fail, J. Jr.et al. (1984). Riparian forests as nutrient filters in agricultural watersheds. Bioscience, 34, 374–7CrossRef Google Scholar

MacDonald, P. O., Frayer, W. E., and Clauser, J. K. (1979). Documentation, Chronology, and Future Projections of Bottomland Hardwood Habitat Loss in the Lower Mississippi Alluvial Plan. Vicksburg, MS: US Department of Internal Fisheries and Wildlife ServiceGoogle Scholar

May, D. M. and Bertelson, D. F. (1986). Forest Statistics for Louisiana Parishes. US Department of Agriculture Forest Service, Southern Forest Experiment Station, Forest Service Research Bulletin SO-115CrossRef

Michot, T. C. (1984). Louisiana Coastal Area Study: Interim Report on Land Loss and Marsh Creation. Lafayette, LA: US Fish and Wildlife Service, Ecological ServicesGoogle Scholar

Milliman, J. D. and Meade, R. H. (1983). World-wide delivery of sediment to the ocean. Journal of Geology, 91, 1–21CrossRef Google Scholar

Mitsch, W. J. and Gosselink, J. G. (2000). Wetlands, 3rd edn. New York: John WileyGoogle Scholar

Mitsch, W. J., Day, J. W. Jr., Gilliam, J. W.et al. (2001). Reducing the nitrogen loading to the Gulf of Mexico from the Mississippi River Basin: strategies to counter a persistent ecological problem. Bioscience, 51(5), 373–88CrossRef Google Scholar

Moustafa, M. Z. (1999). Nutrient retention dynamics of the Everglades nutrient removal project. Wetlands, 19, 689–704CrossRef Google Scholar

NMFS (National Marine Fisheries Service) (2002). Fisheries of the United States, 2001. National Oceanographic and Atmospheric Administration National Marine Fisheries Service, Office of Science and Technology, Fisheries Statistics and Economics Division

NOAA (National Oceanographic and Atmospheric Administration) (1987). National Estuarine Inventory. Data Atlas. Rockville, MD: National Oceanographic and Atmospheric Administration

Niering, W. A. (1988). Endangered, threatened, and rare wetland plants and animals of the Continental United States. In The Ecology and Management of Wetlands, vol. 1, Ecology of Wetlands, eds. Hook, D. D., McKee, W. H. Jr., Smith, H. K.et al. Portland, OR: Timber Press, pp. 227–38Google Scholar

North American Breeding Bird Survey (2002). National Wildlife Research Centre, Canadian Wildlife Service, Canada and Patuxent Wildlife Research Center, US Geological Survey, Laurel, MD. http://www.mp2-pwrc.usgs.gov/bbs

Odum, W. E., Odum, E. P., and Odum, H. T. (1995). Nature's pulsing paradigm. Estuaries, 18, 547–55CrossRef Google Scholar

Omernik, J. M. (1977). Nonpoint Source–Stream Nutrient Level Relationships: a Nationwide Study. US Environmental Protection Agency, EPA-600/3/77–105

O'Neil, T. (1949). The Muskrat in the Louisiana Coastal Marshes: a Study of the Ecological, Geological, Biological, Tidal, and Climatic factors Governing the Production and Management of the Muskrat Industry in Louisiana. New Orleans, LA: Louisiana Department of Wild Life and FisheriesGoogle Scholar

Peltier, W. R. and Tushingham, A. M. (1989). Global sea level rise and the Greenhouse effect: might they be related?Science, 244, 800–10CrossRef Google Scholar

Penfound, W. T. and Hathaway, E. S. (1938). Plant communities in the marshlands of Southeastern Louisiana. Ecological Monographs, 8, 1–56CrossRef Google Scholar

Penland, S., Mendelssohn, I., Wayne, L., and Britsch, D. (1996). Natural and Human Causes of Coastal Land Loss in Louisiana: Workshop Summary. Baton Rouge, LA: Coastal Studies Institute, Wetland Biogeochemistry Institute, Louisiana State UniversityGoogle Scholar

Pezeshki, S. R. and DeLaune, R. D. (1995). Coastal changes and wetland losses in the Mississippi River deltaic plain, USA. In Proceedings of the International Conference “Coastal Change 95” Bordomer-IOC, Bordeaux, pp. 415–26

Portnoy, J. W. (1977). Nesting Colonies of Seabirds and Wading Birds: Coastal Louisiana, Mississippi, and Alabama. US Fish and Wildlife Service FWS/OBS-77/07

Putnam, J. A., Furnival, G. M., and McKnight, J. S. (1960). Management and Inventory of Southern Hardwoods. USDA Agricultural Handbook 181. Washington, DC: US Department of AgricultureGoogle Scholar

Rabalais, N. N., Wiseman, W. J. J., and Turner, R. E. (1994). Comparison of continuous records of near-bottom dissolved oxygen from the hypoxia zone along the Louisiana coast. Estuaries, 17, 850–61CrossRef Google Scholar

Rabalais, N. N., Turner, R. E., Justic, D.et al. (1996). Nutrient changes in the Mississippi River and system responses on the adjacent continental shelf. Estuaries, 19(2b), 386–407CrossRef Google Scholar

Robbins, C. S., Dawson, D. K., and Dowell, B. A. (1989). Habitat Area Requirements of Breeding Forest Birds of the Middle Atlantic States. Wildlife Monographs 103. Bethesda, MD: The Wildlife SocietyGoogle Scholar

Roberts, H. H. (1998). Delta switching: early responses to the Atchafalaya River diversion. Journal of Coastal Research, 14(3), 882–99Google Scholar

Russell, R. J., Howe, H. V., McGuirt, J. H.et al. (1936). Lower Mississippi Delta: Reports on the Geology of Plaquemines and St. Bernard Parishes. Louisiana Geological Survey, Geological Bulletin 13. New Orleans, LA: Louisiana Department of ConservationGoogle Scholar

Sasser, C. E. (1994). Vegetation Dynamics in Relation to Nutrients in Floating Marshes in Louisiana, USA. Baton Rouge, LA: Center for Coastal, Energy, and Environmental Resources, Louisiana State UniversityGoogle Scholar

Sasser, C. E., Swenson, E. M., Evers, D. E. et al. (1994). Floating Marshes in the Barataria and Terrebonne Basins, Louisiana. Report LSU-CEI-94-02. Baton Rouge, LA: Louisiana State University, Coastal Ecology Institute. Prepared for the US Environmental Protection Agency

Scruton, P. C. (1960). Delta building and the deltaic sequence. Recent Sediments, Northwest Gulf of Mexico, eds. Shepard, F. P., Phleger, F. B., and Andel, T. H.. Tulsa, OK: American Association of Petroleum Geologists, pp. 82–102Google Scholar

Shaffer, G. P., Burdick, D. M., Gosselink, J. G., and Lee, L. C. (1992). A cumulative impact management plan for a forested wetland watershed in the Mississippi River Floodplain. Wetlands Ecology and Management, 1(3), 199–210CrossRef Google Scholar

Shlemon, R. J. (1975). Subaqueous delta formation: Atchafalaya Bay, Louisiana. In Deltas, Models for Exploration, ed. Broussard, M. L.. Houston, TX: Houston Geological Society, pp. 209–21Google Scholar

Smith, W. P., Twedt, D. J., Wiedenfeld, D. A.et al. (1993). Point Counts of Birds in Bottomland Hardwood Forests of the Mississippi Alluvial Valley: Duration, Minimum Sample Size, and Points Versus Visits. Southern Forest Experimental Station Research Paper SO-274. New Orleans, LA: US Department of Agriculture Forestry ServiceCrossRef Google Scholar

Sparks, R. E. (1992). Can we change the future by predicting it? In Proceedings of the 48th Annual Meeting of the Upper Mississippi River Conservation Committee (UMRCC), March 10–12, 1992, Red Wing, MN. In Restoring the Big River, eds. A. R. Robinson and Marks (1994). Izaak Walton League. Natural Resources Defense Council

Turner, R. E. (1997). Wetland loss in the Northern Gulf of Mexico: multiple working hypotheses. Estuaries, 20, 1–13CrossRef Google Scholar

Turner, R. E. (1999). Low-cost wetland restoration and creation projects for Coastal Louisiana. In Recent Research in Coastal Louisiana: Natural System Function and Response to Human Influence, eds. Rozas, L. P., Nyman, J. A., Proffitt, C. E.et al. Louisiana Sea Grant College Program. Baton Rouge, LA: Louisiana State University, pp. 229–37Google Scholar

Turner, R. E. (2001). Estimating the indirect effects of hydrological change on wetland loss: if the Earth is curved, then how would we know it?Estuaries, 24(4), 639–46CrossRef Google Scholar

Trenberth, K. E. (1999). The climate system and climate change. Current Topics in Wetland Biogeochemistry, 3, 4–15Google Scholar

US Department of Commerce (1986). Fisheries of the United States, 1985. Current Fisheries Statistics. National Marine Fisheries Service Report 8380

van Heerden, I. L. (1983). Sediment responses during flood and non-flood conditions, New Atchafalaya Delta, Louisiana. M.Sc. thesis, Louisiana State University, Baton Rouge, LA

Heerden, I. L. and Roberts, H. H. (1988). Facies development of Atchafalaya Delta, Louisiana: a modern bayhead delta. American Association of Petroleum Geologists Bulletin, 72(4), 439–53Google Scholar

Lopik, J. R. (1955). Recent Geology and Geomorphic History of Central Coastal Louisiana. Coastal Studies Institute Technical Report 7. Baton Rouge, LA: Louisiana State UniversityGoogle Scholar

Visser, J. M. and Peterson, G. W. (1995). Vegetation Survey of Raccoon Island: Before and After Restoration. Baton Rouge, LA: Louisiana State University Prepared for LA Department of Wildlife and FisheriesGoogle Scholar

Visser, J. M. and Peterson, G. W. (1999). Survey of Louisiana Seabird Colonies to Enhance Oil Spill Response. Louisiana Applied and Educational Oil Spill Research and Development Program, OSRADP Technical Report Series 98-012

Visser, J. M., Sasser, C. E., Chabreck, R. H., and Linscombe, R. G. (1998). Marsh vegetation types of the Mississippi River Deltaic Plain. Estuaries, 21, 818–28CrossRef Google Scholar

Weitzell, R. E., Khoury, M. L., Gagnon, P.et al. (2003). Conservation Priorities for Freshwater Biodiversity in the Upper Mississippi River Basin. Baton Rouge, LA: NatureServe and The Nature ConservancyGoogle Scholar

Wells, J. T. and Roberts, H. H. (1980). Fluid mud dynamics and shoreline stabilization: Louisiana Chenier Plain. In Proceedings of the 17th International Coastal Engineering Conference (ASCE), March, 1990, Sydney, Australia. New York: ASCE, pp. 1382–1401Google Scholar

Wells, J. T., Chinburg, S. J., and Coleman, J. M. (1982). Development of the Atchafalaya River Deltas: Generic Analysis. Baton Rouge, LA: Louisiana State University, Coastal Studies Institute, Center for Wetland Resources. Prepared for US Army Corps of EngineersGoogle Scholar

Wharton, C. H., Kitchens, W. M., Pendleton, E. C., and Sipe, T. W. (1982). The Ecology of Bottomland Hardwood Swamps of the Southeast: a Community Profile. US Fish and Wildlife Service, FWS/OSB-81/37

White, D. A. (1983). Vascular plant community development on mudflats in the Mississippi River delta, Louisiana, USA. Aquatic Botany, 45, 171–94CrossRef Google Scholar

Wiener, J. G., Fremling, C. R., Korschgen, C. E.et al. (1995). Mississippi River. In Status and Trends of the Nation's Biological Resources. Washington, DC: US Geological SurveyGoogle Scholar

Wiener, J. G., Fremling, C. R., Korschgen, C. E. et al. (1998). Mississippi River. In Status and Trends of the Nation's Biological Resources, vol. 1, eds. Mac, M. J., Opler, P. A., Haecker, C. E. Puckett, and Doran, P. D.. Reston, VA: US Department of the Interior, US Geological Survey, pp. 351–84Google Scholar

Yancy, R. K. (1970). Our vanishing hardwoods. Louisiana Conservationist, 23, 26–31Google Scholar

Book contents

8 - The Mississippi River alluvial plain

Summary

Access options

References

Save book to Kindle

Save book to Dropbox

Save book to Google Drive