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Research article

First published January 1997

Comparison of Vegetational, Hydrologic, and Edaphic Characteristics of Riverine Forested Wetlands on North Carolina Coastal Plain

Kelly D. Beissel and Theodore H. ShearView all authors and affiliations

Volume 1601, Issue 1

https://doi.org/10.3141/1601-07

Abstract

Although forested wetlands are relatively abundant on the coastal plain of North Carolina, restoration of forested wetlands is becoming more common since these communities are frequent targets for impact or destruction, especially as a result of road construction projects. Successful restoration of ecosystems is made difficult by a lack of basic knowledge about the soil and hydrologic characteristics of different types of forested wetlands. The plant community composition of two forested wetlands types is described: bottomland hardwood communities and a coastal plain small stream swamp. The edaphic and hydrologic characteristics of each community type were also compared. Many researchers have suggested the construction of detailed water budgets to describe the hydrologic regimes of natural forested wetlands and for use in restoration projects. Although several soil and hydrologic characteristics were associated with variation in plant community composition, the results of this investigation suggest that using a particular flood frequency as a surrogate measure of several flood frequencies may be sufficient to explain this variation. Use of this information would simplify the reconstruction of appropriate hydrologic regimes in forested wetlands and perhaps increase the success of restoration projects.

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References

1. Muir T. A., Lyndon C. L., and Sarason S. The Environmental Protection Agency’s Initiative on Bottomland Hardwood Ecosystems: A Status Report. Proc., 8th Annual Meeting Society of Wetland Scientists, Washington, D.C., May, 1987.

2. Haynes R. J. Introduction. In Re-Establishment of Bottomland Hardwood Forests on Disturbed Sites: An Annotated Bibliography. Biological Report 88 42. U.S. Fish and Wildlife Service, 1988, pp. 1–3.

3. Hosner J. F., and Boyce S. G. Tolerance to Water Saturated Soil of Various Bottomland Hardwoods. Forest Science, Vol. 8, No. 2, 1962, pp. 180–186.

4. Leitman H. M., Sohm J. E., and Franklin M. A. Wetland Hydrology and Tree Distribution of the Apalachicola River Flood Plain, Florida. USGS Water Supply Paper 2196. U.S. Geological Survey, 1983.

5. Niering W. A. Wetlands Hydrology and Vegetation Dynamics. Proc., National Wetlands Symposium, Mitigation of Impacts and Losses. Association of State Wetland Managers, Inc., New Orleans, La. Oct., 1986.

6. Haynes R. J. Re-Establishment of Bottomland Hardwoods Within National Wildlife Refuges in the Southeast. Proc., Wetlands, Increasing Our Wetland Resources. National Wildlife Federation Corporate Conservation Council, Washington, D.C., Oct., 1987.

7. Schafale M. P., and Weakley A. S. Classification of the Natural Communities of North Carolina, Third Approximation. North Carolina Natural Heritage Program, N.C. Division of Parks and Recreation, Department of Environment, Health, and Natural Resources, Raleigh, 1990.

8. Dickson R. E., Hosner J. F., and Hosley N. W. The Effects of Four Water Regimes upon the Growth of Four Bottomland Tree Species. Forest Science, Vol. 11, No. 3, 1965, pp. 299–305.

9. Hook D. D., et al. Effects of Water Regime on Survival, Growth, and Morphology of Tupelo Seedlings. Forest Science, Vol. 16, No. 3, 1970, pp. 304–311.

10. Novitski R. P. Wetland Hydrology. In Wetlands Ecology and Conservation: Emphasis in Pennsylvania. (Majumdar S. K. et al., eds.), Pennsylvania Academy of Science, 1989, pp. 47–64.

11. Clewell A. F., and Lea R. Creation and Restoration of Forested Wetland Vegetation in the Southeastern United States. In Wetland Creation and Restoration: The Status of the Science (Kusler J. and Kentula M., eds.), 1990.

12. Peet R. K., Wentworth T. R., and White P. S. A Flexible Multipurpose Method for Measuring Vegetation. North Carolina Vegetation Survey, 1990.

13. Radford A. E., Ahles H. E., and Bell C. R. Manual of the Vascular Flora of the Carolinas. University of North Carolina Press, Chapel Hill, 1968.

14. Stone E. Quantification of Surface Hydrology Effects for Eastern North Carolina Forested Wetlands. M.S. thesis. North Carolina State University, Raleigh, 1996.

15. Gee G. W., and Bauder J. W. Particle Size Analysis. In Methods of Soil Analysis, Part 1, 2nd ed. (Klute A., ed.), ASA, Madison, Wis., 1986, pp. 383–411.

16. Gauch H. E. Jr. Multivariate Analysis in Community Ecology. Cambridge University Press, Cambridge, England, 1982.

17. Pielou E. C. The Interpretation of Ecological Data. John Wiley and Sons, New York, 1984.

18. Hill M. O. DECORANA—A FORTRAN Program for Detrended Correspondence Analysis and Reciprocal Averaging. Department of Ecology and Systematics, Cornell University, Ithaca, N.Y., 1979.

19. McCune B., and Mefford M. J. PC-ORD—Multivariate Analysis of Ecological Data, Version 2.01. MJM Software, Gleneden Beach, Oreg., 1995.

20. Robeson County Soil Survey, N.C. Soils Conservation Service, U.S. Department of Agriculture, 1978.

21. Greene County Soil Survey, N.C. Soils Conservation Service, U.S. Department of Agriculture, 1980.

22. Pitt County Soil Survey, N.C. Soils Conservation Service, U.S. Department of Agriculture, 1974.

23. Jones County Soil Survey, N.C. Soils Conservation Service, U.S. Department of Agriculture, 1981.

24. LaBaugh J. W. Wetland Ecosystem Studies from a Hydrologic Perspective. Water Resource Bulletin, Vol. 22, No. 1, 1986, pp. 1–10.

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Published In

Transportation Research Record

Volume 1601, Issue 1

Pages: 42 - 48

Article first published: January 1997

Issue published: January 1997

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© 1997 National Academy of Sciences.

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Authors

Affiliations

Kelly D. Beissel

Planning and Environmental Branch, North Carolina Department of Transportation, Wetland Mitigation Section, P.O. Box 25201, Raleigh, N.C. 27611-5201

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Theodore H. Shear

Department of Forestry, North Carolina State University, P.O. Box 8008, Raleigh, N.C. 27695-8008

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Crossref: 2

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