Abstract
Effective assessments of aquatic ecosystem recovery require ecologically sound endpoints against which progress can be measured. Site-by-site assessments of end points and potential recovery trajectories are impractical for water resource agencies. Because of the natural variation among ecosystems, applying a single set of criteria nationwide is not appropriate either. This article demonstrates the use of a regional framework for stratifying natural variation and for determining realistic biological criteria. A map of ecoregions, drawn from landscape characteristics, formed the framework for three statewide case studies and three separate studies at the river basin scale. Statewide studies of Arkansas, Ohio, and Oregon, USA, streams demonstrated patterns in fish assemblages corresponding to ecoregions. The river basin study in Oregon revealed a distinct change at the ecoregion boundary; those in Ohio and Montana demonstrated the value of regional reference sites for assessing recovery. Ecoregions can be used to facilitate the application of ecological theory and to set recovery criteria for various regions of states or of the country. Such a framework provides an important alternative between site-specific and national approaches for assessing recovery rates and conditions.
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Literature Cited
Arkansas DPCE. 1988. Regulation establishing water quality standards for surface waters of the state of Arkansas. Arkansas Department of Pollution Control and Ecology. Little Rock, Arkansas. 77 pp.
Bovee, K. D., and R. T. Milhous. 1978. Hydraulic simulation in instream flow studies: theory and techniques. Instream Flow Information Paper Number 5, Cooperative Instream Flow Service Group. US Fish and Wildlife Service. Fort Collins, Colorado.
Brooks, R. P., and R. M. Hughes. 1988. Guidelines for assessing the biotic communities of freshwater wetlands. Pages 276–282in J. A. Kusler, M. Quammen, and G. Brooks (eds.), Proceedings, National Wetlands Mitigation Symposium. Association of State Wetland Managers, Berne, New York.
Clarke, S. E., D. White, and A. L. Schaedel. 1990. Oregon ecological regions and subregions for water quality management.Environmental Management (submitted).
Clements, F. E. 1916. Plant succession, an analysis of the development of vegetation. Carnegie Institution of Washington Publication 242. 512 pp.
Gallant, A. L., T. R. Whittier, D. P. Larsen, J. M. Omernik, and R. M. Hughes. 1989. Regionalization as a tool for managing environmental resources. US Environmental Protection Agency. Corvallis, Oregon, EPA/600/3-89/060. 152 pp.
Gammon, J. R. 1989. The fish populations of the Middle Wabash River, 1973–1988. Progress report to Indiana Public Service and Eli Lilly Co. Biology Department, De Pauw University, Greencastle, Indiana. 86 pp.
Gauch, H. G., Jr. 1982. Multivariate analysis in community ecology. Cambridge University Press, New York. 298 pp.
Gilbert, C. R. 1980. Zoogeographic factors in relation to biological monitoring of fish. Pages 309–356in C. H. Hocutt and J. R. Stauffer, Jr. (eds.), Biological monitoring of fish. D.C. Heath and Company, Lexington, Massachusetts.
Gorman, O. T., and J. R. Karr. 1978. Habitat structure and stream fish communities.Ecology 59:507–515.
Henderson, S., A. B. Allen, B. Abbruzzesse, M. E. Kentula, and R. M. Hughes. 1988. A method for the selection of reference wetlands. Pages 289–291in Proceedings of the Society of Wetlands Scientists' Eighth Annual Meeting. 26–29 May 1987. Seattle, Washington.
Herbertson, A. J. 1905. The major natural regions: an essay in systematic geography.Geographical Journal 25:300–312.
Hocutt, C. H., and E. O. Wiley. 1986. The zoogeography of North American freshwater fishes. John Wiley & Sons, New York. 866 pp.
Hughes, R. M. 1985. Use of watershed characteristics to select control streams for estimating effects of metal mining wastes on extensively disturbed streams.Environmental Management 9:253–262.
Hughes, R. M., and J. R. Gammon. 1987. Longitudinal changes in fish assemblages and water quality in the Willamette River, Oregon.Transactions of the American Fisheries Society 116:196–209.
Hughes, R. M., and D. P. Larsen. 1988. Ecoregions: an approach to surface water protection.Journal of the Water Pollution Control Federation 60:486–493.
Hughes, R. M., D. P. Larsen, and J. M. Omernik. 1986. Regional reference sites: a method for assessing stream potentials.Environmental Management 10:629–635.
Hughes, R. M., E. Rexstad, and C. E. Bond. 1987. The relationship of aquatic ecoregions, river basins, and physiographic graphic provinces to the ichthyogeographic regions of Oregon.Copeia 1987:423–432.
Judy, R. D., Jr., P. N. Seeley, T. M. Murray, S. C. Svirsky, M. R. Whitworth, and L. S. Ischinger. 1984. National fisheries survey, vol. I, technical report: initial findings. US Fish and Wildlife Service, Fort Collins, Colorado. FWS/OBS-84/06. 141 pp.
Karr, J. R., and D. R. Dudley. 1981. Ecological perspective on water quality goals.Environmental Management 5:55–68.
Karr, J. R., R. C. Heidinger, and E. H. Helmer. 1985. Effects of chlorine and ammonia from wastewater treatment facilities on biotic integrity.Journal of the Water Pollution Control Federation 57:912–915.
Karr, J. R., K. D. Fausch, P. L. Angermeier, P. R. Yant, and I. J. Schlosser. 1986. Assessing biological integrity in running waters: a method and its rationale. Illinois Natural History Survey Special Publication 5. Champaign, Illinois. 28 pp.
Larsen, D. P., J. M. Omernik, R. M. Hughes, D. R. Dudley, C. M. Rohm, T. R. Whittier, A. L. Kinney, and A. L. Gallant. 1986. The correspondence between spatial patterns in fish assemblages in Ohio streams and aquatic ecoregions.Environmental Management 10:815–828.
Matthews, W. J. 1986. Fish faunal ‘breaks’ and stream order in the eastern and central United States.Environmental Biology of Fishes 17:81–92.
Miller, D. L., P. M. Leonard, R. M. Hughes, J. R. Karr, P. B. Moyle, L. H. Schrader, B. A. Thompson, R. A. Daniels, K. D. Fausch, G. A. Fitzhugh, J. R. Gammon, D. B. Halliwell, P. L. Angermeier, and D. J. Orth. 1988. Regional applications of an index of biotic integrity for use in water resource management.Fisheries 13:12–20.
Miller, R. R. 1961. Man and the changing fish fauna of the American Southwest.Papers of the Michigan Academy of Science, Arts, and Letters 46:365–404.
Miller, R. R., J. D. Williams, and J. E. Williams. 1989. Extinctions of North American fishes during the past century.Fisheries 14:22–38.
Oberdorff, T., and R. M. Hughes. 1990. Modification of an index of biotic integrity based on fish assemblages to characterize rivers of the Seine Basin, France.Hydrobiologia (submitted).
Ohio EPA. 1987. Biological criteria for the protection of aquatic life, Vol. II, Ohio Environmental Protection Agency, Columbus, Ohio. 328 pp.
Omernik, J. M. 1987. Ecoregions of the conterminous United States.Annals of the Association of American Geographers 77:118–125. (map scale 1:7,500,000).
Pflieger, W. L. 1975. The fishes of Missouri. Missouri Department of Conservation, Jefferson City, Missouri. 343 pp.
Plafkin, J. L., M. T. Barbour, K. D. Porter, S. K. Gross, and R. M. Hughes. 1989. Rapid bioassessment protocols for use in streams and rivers: benthic macroinvertebrates and fish. US Environmental Protection Agency, Office of Water. Washington, DC. EPA/444/4-89/001. 162 pp.
Rohm, C. M., J. W. Giese, and C. C. Bennett. 1987. Test of an aquatic ecoregion classification of streams in Arkansas.Journal of Freshwater Ecology 4:127–140.
Rosgen, D. L. 1985. A stream classification system. Pages 91–95in R. R. Johnson, C. D. Ziebell, D. R. Patton, P. F. Folliott, and R. H. Harme (eds.), Riparian ecosystems and their management: reconciling conflicting uses. USDA Forest Service. General Technical Report RM-120. Fort Collins, Colorado.
Smith, P. W. 1971. Illinois streams: a classification based on their fishes and an analysis of factors responsible for disappearance of native species. Illinois Natural History Survey. Biological Notes No. 76. Champaign, Illinois. 14 pp.
Sokal, R. R., and F. J. Rohlf. 1981. Biometry. W. H. Freeman, San Francisco, California, 859 pp.
Steedman, R. J. 1988. Modification and assessment of an index of biotic integrity to quantify stream quality in southern Ontario.Canadian Journal of Fisheries and Aquatic Sciences 45:492–501.
Trautman, M. B. 1981. Fishes of Ohio. Ohio State University Press, Columbus, Ohio. 782 pp.
US EPA. 1988. Report of the national workshop on instream biological monitoring and criteria. US Environmental Protection Agency. Office of Water, Washington, DC. 34 pp.
US EPA. 1989. Nonpoint sources, agenda for the future. US Environmental Protection Agency, Office of Water, Washington, DC. 31 pp.
US EPA. 1990. Biological criteria-national program guidance for surface waters. US Environmental Protection Agency, Office of Water, Washington, D.C. 57 pp.
Whittier, T. R., D. P. Larsen, R. M. Hughes, C. M. Rohm, A. L. Gallant, and J. M. Omernik. 1987. The Ohio stream regionalization project: a compendium of results. US Environmental Protection Agency, Corvallis, Oregon. EPA/600/3-87/025. 66 pp.
Whittier, T. R., R. M. Hughes, and D. P. Larsen. 1988. The correspondence between ecoregions and spatial patterns in stream ecosystems in Oregon.Canadian Journal of Fisheries and Aquatic Sciences 45:1264–1278.
Williams, J. E., J. E. Johnson, D. A. Hendrickson, S. Contreras-Balderas, J. D. Williams, M. Navarro-Mendoza, D. E. McAllister, and J. E. Deacon. 1989. Fishes of North America endangered, threatened or of special concern: 1989.Fisheries 14:2–20.
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Hughes, R.M., Whittier, T.R., Rohm, C.M. et al. A regional framework for establishing recovery criteria. Environmental Management 14, 673–683 (1990). https://doi.org/10.1007/BF02394717
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DOI: https://doi.org/10.1007/BF02394717