Abstract
Ecological risk assessment provides a methodology for evaluating the threats to ecosystem function associated with environmental perturbations or stressors. This report documents the development of a conceptual model for assessing the ecological risk to the water quality function (WQF) of bottomland hardwood riparian ecosystems (BHRE) in the Tifton-Vidalia upland (TVU) ecoregion of Georgia. Previus research has demonstrated that mature BHRE are essential to maintaining water quality in this portion of the coastal plain. The WQF of these ecosystems is considered an assessment endpoit—an ecosystem function or set of functions that society chooses to value as evidenced by laws, regulations, or common usage. Stressors operate on ecosystems at risk through an exposure scenario to produce ecological effects that are linked to loss of the desired function or assessment end point. The WQF of BHRE is at risk because of the ecological and environmental quality effects of a suite of chemical, physical, and biological stressors. The stressors are related to nonpoint source pollution from adjacent land uses, especially agriculture; the conversion of BHRE to other land uses; and the encroachment of domestic animals into BHRE. Potential chemical, physical, and biological stressors to BHRE are identified, and the methodology for evaluating appropriate exposure scenarios is discussed. Field-scale and watershed-scale measurement end points of most use in assessing the effects of stressors on the WQF are identified and discussed. The product of this study is a conceptual model of how risks to the WQF of BHRE are produced and how the risk and associated uncertainties can be quantified.
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Literature cited
Aliter, L. S., R. Lowrance, R. Hubbard, and R. Williams. 1994. Vegetative growth and nutrient interactions in a Riparian Ecosystem Management Model.in Proceedings of the conference, riparian ecosystems in the humid U.S. National Association of Conservation Districts, Washington, DC.
Ambus, P., and R. Lowrance 1991. Comparison of denitrification in two riparian soils.Soil Science Society of America Journal 55:994–997.
Asmussen L. E., and J. C. Ritchie. 1969. Intterflow or shallow phreatic flow in the cosatal plain of Georgia.Journal of Hydrology 9:182–193.
Bachtel, D., and S. Boatright. 1992. The Georgia county guide. The University of Georgia Cooperative Extension Service, Athens, Georgia.
Barry, J. W., and R. B. Ekbald. 1978. Deposition of insecticide drops on coniferous foliage.Transactions of American Society of Agricultural Engineers 21:438–441.
Batten, H. L., 1980. Little River research watershed. USDA-ARS. Occasional paper. Tifton, Georgia, 17 pp.
Berg, P. 1981. Develving beyond global monoculture.Coevolution Quarterlyz 32:24–30.
Calhoun, J. W. 1983. Soil Survey of Tift Co., GA. USDA-SCS, 102 pp.
Census of Agriculture (1978). 1981. Volume 5, Special reports: Part 5, Drainage of agricultural lands. US Department of Commerce, Bureau of the Census, US Government Printing Office, Washington, DC 20402.
Census of Agriculture (1987). 1989. Volume 1, Geographic area series: Part 10, Georgia state and county data. US Department of Commerce, Bureau of the Census, US Government Printing Office, Washington, DC 20402.
Cheng, H. H. 1990. Pesticides in the soil environment—an overview.in H. H. Cheng and others (eds.), Pesticides in the soil environment: Processes, impacts, and modeling. Soil Science Society of America., Madison, Wisconsin.
Cisar, J. L., G. H. Snyder, and P. Nkedi-Kizza. 1991. Maintaining quality turfgrass with minimal nitrogen leaching. Florida Cooperative Extension Service Bulletin 273, University of Flordia, Gainesville.
Fail, J. L., Jr., M. N. Hamzah, B. L. Haines, and R. L. Todd. 1986. Above and below ground biomass, production, and element accumulation in riparian forests of an agricultural watershed. Pages 193–224,in D. L. Correll (ed.), Watershed research perspectives. Smithsonian Institution, Washington, DC.
Faircloth, W. 1971. The vascular flora of central south Georgia. University Microfilms. PhD dissertation. University of Georgia.
Gambrell, R. P., J. W. Gilliam, and S. B. Weed. 1975. Nitrogen losses from soils of the North Carolina coastal plain.Journal of Environmental Quality 4:317–323.
Gosselink, J. G., L. C. Lee, and T. A. Muir (eds.). 1990a. Ecological processes and cumulative impacts: Illustrated by bottomland hardwood wetland ecosystems. Lewis, Chelsea. Michigan, 708 pp.
Gosselink, J. G., B. A. Touchet, J. Van Beek, and D. B. Hamilton. 1990b. Bottomland hardwood forest ecosystem hydrology and the influence of human activities: the report of thehydrology workgroup.in: J. G. Gosselink, L. C. Lee, and T. A. Muir (eds.), Ecological processes and cumulative impacts: Illustrated by bottomland hardwood wetland ecosystems. Lewis, Chelsea, Michigan.
Groffman, P. M., A. J. Gold, and R. C. Simmons. 1992. Nitrate dynamics in riparian forests: Microbial studies.Journal of Environmental Quality 21:666–671.
Harper, R. M. 1906. A phytogeographical sketch of the altamaha grit region of the coastal plain of Georgia.Annals of the New York Academy of Sciences 17:1–415.
Harrar, E. S., and J. G. Harrar. 1962. Guide to southern trees. Dover, New York.
Harris, L. D., and J. G. Gosselink. 1990. Cumulative impacts of bottomland hardwood fores conversion on hydrology, water quality, and terrestrial wildlife. Pages 259–324in J. G. Gosselink, L. C. Lee, and T. A. Muir (eds.), Ecological processes and cumulative impacts: Illustrated by bottomland hardwood wetland ecosystems. Lewis, Chelsea, Michigan.
Hendrickson, O. Q., Jr. 1981. Flux of nitrogen and carbon gases in bottomland soils of an agricultural watershed. PhD dissertation. University of Georgia, Athens, Georgia. 210 pp. (Diss. Abstr. 82-01544).
Himel, C. M., L. Vaughn, R. P. Miskus, and A. D. Moore. 1965. A new method for spray deposit assessment. US Forest Service Pacific Southwest Fores and Range Exp. Stn. PSW-87. US Government Printing Office, Washington, DC.
Himel, C. M., H. Loats, and G. W. Bailey. 1990. Pesticide sources to the soil and principles of spray physics.In H. H. Cheng and others (eds.), Pesticides in the soil environment: Processes, impacts, and modeling. Soil Science Society of America, Madison, Wisconsin.
Hubbard, R. K., and R. Lowrance. 1994. Dairy cattle manure management.In J. Power (eds.), Animal waste. United States Department of Agriculture Conservation Research Report, Washington, DC.
Hunsaker, C. T., R. L. Graham, G. W. Suter, R. V. O'Neill, L. W. Barnthouse, and R. H. Gardner. 1990. Assessing ecological risk on a regional scale.Environmental Management 14(3):325–332.
Jacobs, T. C., and J. W. Gilliam. 1985. Riparian losses of nitrate from agricultural drainage wates.Journal of Environmental Quality 14:472–478.
Karr, J. R., and I. J. Schlosser. 1978. Water resources and the land water interface.Science 20(1):229–234.
Kesner, B. T., and V. Meentemeyer. 1989. A regional analysis of total nitrogen in an agricultural landscape.Landscape Ecology 2:151–163.
Knisel, W. G. (ed.). 1980. CREAMS: A field scale model for chemicals, runoff, and erosion from agricultural management systems. US Department of Agriculture Conservation Research Report No. 26, Washington, DC.
Leonard, R. A., W. G. Knisel, and D. A. Still. 1987. GLEAMS: groundwater loding effects of agricultural management systems.Transactions of the American Society of Agricultural Engineers 30(5):1403–1418.
Levine, D. A., C. T. Hunsaker, S. P. Timmins, and J. J. Beauchamp. 1993. A geographic information syatem approach to modeling nutrient and sediment transport. Oak Ridge National Laboratories Environmental Science Division Publication No. 3993. NTIS, Springfield, Virginia.
Lowrance, R. 1991. Effects of buffer systems on the movement of N and P from agriculture to streams. Pages 87–96in V. Holter (ed.), Proceedings of the international Conference on N, P, and organic matter. Danish Ministry of the Environment, Copenhagen.
Lowrance, R. 1992. Groundwater nitrate and denitrification in a coastal plain riparian forest.Journal of Environmental Quality 21:401–405.
Lowrance, R., and R. A. Leonard. 1988. Streamflow nutrient dynamics in coastal plain water sheds.Journal of Environmental Quality 17:734–740.
Lowrance, R., and G. Vellidis. 1993. Bottomland hardwoods in the Tifton-Vidalia Upland of Georgia: A conceptual model for ecological risk assessment. US Environmental Protection Agency, Environmental Research Laboratory, Corvallis, Oregon, EPA/600/R-93/186.
Lowrance, R. R., R. L. Todd, and L. E. Asmussen. 1983. Waterborne nutrient budgest for the riparian zone of an agricultural watershed.Agriculture Ecosystems and Environment 10:371–384.
Lowrance, R., J. K. Sharpe, and J. M. Sheridan. 1984a. Long-term sediment deposition in the riparian zone of an agricultural watershed. Technical report. US Department of Interior Project No. G-836 (05). 91 pp.
Lowrance, R. R., R. L. Todd, J. Fail, Jr., O. Hendrickson, Jr., R. Leonard, and L. Asmussen. 1984b. Riparian forests as nutrient filters inagricultural watersheds.Bioscience 34: 374–377.
Lowrance, R., J. K. Sharpe, and J. M. Sheridan. 1986. Long term sediment deposition in the riparian zone of an agricultural watershed.Journal of Soil and Water Conservation 41:266–271.
Odum, E. P. 1989. Ecology and our endangered life-support systems. Sinauer, Sunderland, Massachusetts.
Parkin, T. B. 1987. Soil microsites as a source of denitrification variability.Soil Science Society of American Journal 51:1194–1199.
Peterjohn W. T., and D. L. Correll. 1984. Nutrient dynamics in an agricultural watershed: Observations on the role of a riparian forest.Ecology 65(5):1466–1475.
Pionke, H. B., and R. R. Lowrance. 1991. Fate of nitrate in subsurface drainage waters. Pages 237–257in R. F. Follett, D. R. Keeney, and R. M. Cruse (eds.), Managing nitrogen for groundwater quality and farm profitability. Soil Science Society of America. Madison, Wisconsin. Range, W. 1964. A century of Georgia agriculture. University of Georgia Press, Athens, Georgia, 333 pp.
Preston, E. M., and B. L. Bedford. 1988. Evaluating cumulative effects on wetland functions: A conceptual overview and generic framework.Environmental Management 12: 565–583.
RAF (Risk Assessment Forum). 1992. Framework for ecological risk assessment. USEPA Publ. EPA/630/R-92/001. 41 pp.
Roelle, J. E., G. T. Auble, and J. G. Gosselink. 1990. Introduction. Pages 1–8in J. G. Gosselink, L. C. Lee, and T. A. Muir (eds.), Ecological processes and cumulative impacts: Illustrated by bottomland hardwood wetland ecosystems. Lewis, Chelsea, Michigan.
Scott, M. L., B. A. Kleiss, W. H. Patrick, and C. S. Segelquist. 1990. The effect of developmental activities on water quality functions of bottomland hardwood ecosystems. Pages 411–453in J. G. Gosselink, L. C. Lee, and T. A. Muir (eds.), Ecological processes and cumulative impacts: Illustrated by bottomland hardwood, wetland ecosystems. Lewis, Chelsea, Michigan.
Schirmohammadi, A., J. M. Sheridan, and L. E. Asmussen. 1986. Hydrology of alluvial stream channels in the southern Coastal Plain watersheds.Transactions of the American-Society of Agricultural Engineers 29(1):135–142.
Simmons, R. C., A. J. Gold, and P. M. Groffman. 1992. Nitrate dynamics in rpiarian forests: Groundwater studies.Journal of Environmental Quality 21:659–665.
Smirnoff, N., P. Todd, and G. R. Stewart. 1984. The occurrence of nitrate reduction in the leaves of woody plants.Annals of Botany 54:363–374.
Stallings, C., R. L. Huffman, S. Khorram, and Z. Guo. 1992. Linking GLEAMS and GIS. ASAE Paper No. 92-3613, ASAE International Winter Meeting, Nashville Tennessee, December 1992.
Strahler, A. N. 1975. Physical geography, Wiley, New York, 643 pp.
Suter, G. W. 1990. Endpoints for regional ecological risk assessment.Environmental Management 14:19–23.
Taylor, J., M. Cardamone, and W. Mitsch. 1990. Bottomland hardwood forests their functions and values. Pages 13–86in J. G. Gosselink, L. C. Lee, and T. A. Muir (eds.), Ecological processes and cumulative impacts; Illustrated by bottomland hardwood wetland ecosystems. Lewis, Chelsea, Michigan.
Uk, S. 1977. Tracing insecticide droplets by sizes on natural surfaces. The state of the art and its value.Pesticide Science 8:501–509.
Vellidis, G., B. B. Ross, and D. B. Taylor. 1987. Potential expansion and water demand of riparian-based irrigation.Transactions of the American Society of Agricultural Engineers 30(6):1726–1732.
Welsch, D. J. 1991. Riparian forest buffers. USDA-Forest Service, Publication No. NA-PR-07-91.
Wharton, C. 1978. The natural environments of Georgia. Georgia Department of Natural Resources. 227 pp.
Wiesner, C. J. 1984. Droplet deposition and drift in forest spraying.In W. Y. Garner and J. Harvey, Jr. (eds.), Chemical and biological control in forestry. ACS Symposium Series 238. American Chemical Society, Washington, DC.
Woodmansee, R., and F. Adamsen. 1983. Biogeochemical cycles and ecological hierarchies. Pages 497–516in R. Lowrance and others (eds.), Nutrient cycling in agricultural ecosystems. University of Georgia College of Agriculture Special Publication Number 23.
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Lowrance, R., Vellidis, G. A conceptual model for assessing ecological risk to water quality function of bottomland hardwood forests. Environmental Management 19, 239–258 (1995). https://doi.org/10.1007/BF02471994
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DOI: https://doi.org/10.1007/BF02471994