, Volume 29, Issue 2, pp 407–412 | Cite as

Floodplain ecosystems of the Southeast: Linkages between forests and people



Floodplain forests are critically linked to society’s welfare and will rise immensely in value as water related issues become increasingly important. Although progress has been made in promoting the importance of floodplain wetlands to the public and in successfully manipulating wetland systems toward particular goals, we are still quick to generalize and may neglect some of the complexities of these systems during our research, management, and restoration efforts. Within the Southeast, floodplain inundation varies from near constant to none, and forest net primary productivity (NPP) ranges from near the highest of the temperate zone to among the lowest. The complex entanglements of hydroperiod and all other floodplain forest processes and traits are daunting. Our greatest challenge may be to understand and base actions on societal influences and landscape evolution within watersheds and floodplains. It will become increasingly less relevant to study, manage, or try to restore portions of floodplains without due consideration of past, current, and future socioeconomic drivers and land use trends within basins and watersheds. The human footprint on these critical systems has been very distinct for the last 200–300 years; now, it is becoming enormous and must be fully taken into account if we are to be successful in maintaining significant amounts of floodplain forests in the Southeast.

Key Words

forest floodplains legacy impacts land use societal linkages 


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Literature Cited

  1. Bakeless, J. 1961. America as Seen by its First Explorers. Dover Publishing, New York, NY, USA.Google Scholar
  2. Bartram, W. 1791. Travels of William Bartram, M. Van Doren (ed.) 1928 edition. Dover Publishing, New York, NY, USA.Google Scholar
  3. Benke, A. C. and C. E. Cushing. 2005. Rivers of North America. Elsevier Academic Press, Amsterdam, Netherlands.Google Scholar
  4. Bourne, J. K. 2006. America’s coasts: land on the edge. National Geographic. July. 0607/feature2/index.html.Google Scholar
  5. Cavalcanti, G. G. and B. G. Lockaby. 2005. Effects of sediment deposition on fine root dynamics in riparian forests. Soil Science Society of America 69: 729–37.CrossRefGoogle Scholar
  6. Cavalcanti, G. G. and B. G. Lockaby. 2006. Effects of sediment deposition on aboveground net primary productivity, vegetation composition, and structure in riparian forests. Wetlands 26: 400–409.CrossRefGoogle Scholar
  7. Dahl, T. E. and C. E. Johnson. 1991. Wetlands —status and trends in the conterminous United States, mid-1970s to mid-1980s. U.S. Fish and Wildlife Service, Washington, DC, USA.Google Scholar
  8. Dahl, T. E. and G. J. Allord. 1996. History of wetlands in the conterminous United States: National Water Summary on Wetland Resources. USGS Water Supply Paper 2425. US Geologic Survey. Washington, DC, USA.Google Scholar
  9. Dickson, J. G. 1999. Birds of the southeastern United States: a historical perspective. p. 233–243. In G. W. Benz and D. E. Collins (eds.) Aquatic Fauna in Peril: the Southeastern Perspective. Lenz Design and Communications, Decatur, GA, USA.Google Scholar
  10. Faulkner, S. 2004. Urbanization impacts on the structure and function of forested wetlands. Urban Ecosystems 7: 89–106.CrossRefGoogle Scholar
  11. Fitzpatrick, J. W., M. Lammertink, M. D. Luneau, T. W. Gallagher, B. R. Harrison, G. M. Sparling, K. V. Rosenberg, R. W. Rohrbaugh, E. C. H. Swarthout, P. H. Wrege, S. B. Swarthout, M. S. Dantzker, R. A. Charif, T. R. Barksdale, J. V. Remsmon, S. D. Simon, and D. Zollner. 2005. Ivory-billed woodpecker (Campephilus principalis) persists in continental North America. Science 308: 1460–62.CrossRefPubMedGoogle Scholar
  12. Fredrickson, L. H. 2005. Contemporary bottomland hardwood systems: structure, function, and hydrologic condition resulting from two centuries of anthropogenic activities. p. 19–35. In Ecology and Management of Bottomland Hardwood Systems: The State of Our Understanding, L. H. Fredrickson, S. L. King, and R. M. Kaminski (eds.) University of Missouri —Columbia. Gaylord Memorial Laboratory Special Publication No. 10.Google Scholar
  13. Gosse, P. H. 1859. Letters from Alabama. University of Alabama Press, Tuscaloosa, AL, USA.Google Scholar
  14. Haynes, R. J. and L. Moore. 1988. Reestablishment of bottomland hardwoods within National Wildlife Refuges in the Southeast. p. 95–103. In J. Zelazny and J. S. Feierabend (eds.) Increasing Our Wetland Resources. National Wildlife Federation Conference, Washington, DC, USA.Google Scholar
  15. Hansen, L. 2006. Wetlands: status and trends. p. 42–49. In K. Wiebe and N. Goolehorn (eds.) Agricultural Resources and Environmental Indicators. Economic Information Bulletin No. (EIB-26), July 2006. USDA —Agricultural Research Service. Washington, DC, USA.Google Scholar
  16. Hudson, C. 1976. The Southeastern Indians. University of Tennessee Press, Knoxville, TN, USA.Google Scholar
  17. King, S. L., J. P. Shepard, K. Ouchley, J. A. Neal, and K. Ouchley. 2005. Bottomland hardwood forests: past, present, and future. p. 1–17. In L. H. Fredrickson, S. L. King, and R. M. Kaminski (eds.) Ecology and Management of Bottomland Hardwood Systems: The State of Our Understanding. University of Missouri —Columbia. Gaylord Memorial Laboratory Special Publication No. 10.Google Scholar
  18. Jackson, C. R., J. K. Martin, D. S. Leigh, and L. T. West. 2005. A southeastern piedmont watershed budget: evidence for a multi-millennial agricultural legacy. Journal of Soil and Water Conservation 60(6): 298–311.Google Scholar
  19. Lockaby, B. G., R. Governo, E. Schilling, G. Cavalcanti, and C. Hartsfield. 2005. Effects of sedimentation on soil nutrient dynamics in riparian forests. Journal of Environmental Quality 34: 390–396.PubMedCrossRefGoogle Scholar
  20. Lockaby, B. G., J. A. Stanturf, and M. G. Messina. 1997a. Effects of silvicultural activity on ecological processes in floodplain forests of the southern United States: a review of existing reports. Forest Ecology and Management 90: 93–100.CrossRefGoogle Scholar
  21. Lockaby, B. G., R. G. Clawson, K. Flynn, R. Rummer, S. Meadows, B. Stokes, and J. Stanturf. 1997b. Influence of harvesting on biogeochemical exchange in sheetflow and soil processes in a euthrophic floodplain forest. Forest Ecology and Management 90: 187–94.CrossRefGoogle Scholar
  22. Mancil, E. 1980. Pullboat logging. Journal of Forest History 21: 135–41.CrossRefGoogle Scholar
  23. Megonigal, J. P., W. H. Conner, S. Kroeger, and R. R. Sharitz. 1997. Aboveground production in southeastern floodplain forests: a test of the stress —subsidy hypothesis. Ecology 78: 370–84.Google Scholar
  24. Pires, M. 2004. Watershed protection for a world city: the case of New York. Land Use Policy 21: 161–75.CrossRefGoogle Scholar
  25. Putnam, J. A., G. W. Furnival, and J. S. McKnight. 1960. Management and inventory of southern hardwoods. Agric. Handbook No. 181. USDA Forest Service. Washington DC, USA.Google Scholar
  26. Roosevelt, T. 1908. In the Louisiana Canebrakes. Scribner’s Magazine 43: 47–60.Google Scholar
  27. Schueler, T. 1995. The importance of imperviousness. Watershed Protection Techniques 1: 100–11.Google Scholar
  28. Sparks, R. E., J. C. Nelson, and Y. Yin. 1998. Naturalization of the flood regime in regulated rivers. BioScience 48: 706–20.CrossRefGoogle Scholar
  29. Trimble, S. W. 1974. Man Induced Erosion on the Southern Piedmont: 1700–1970. Soil Water Conservation Society, Ankeny, IA, USA.Google Scholar
  30. Wear, D. N. and J. G. Greis. 2002. Southern Forest Resource Assessment. Technical Report GTR SRS-53. USDA Forest Service. Asheville, NC, USA.Google Scholar
  31. Young, P. J., B. D. Keeland, and R. R. Sharitz. 1995. Growth response of baldcypress to an altered hydrologic regime. American Midland Naturalist 183: 206–12.CrossRefGoogle Scholar

Copyright information

© Society of Wetland Scientists 2009

Authors and Affiliations

  1. 1.School of Forestry and Wildlife SciencesAuburn UniversityAuburnUSA

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