Impacts of Fragmentation on Midwestern Aquatic Organisms

  • Lawrence M. Page
  • Mark Pyron
  • Kevin S. Cummings

Abstract

Fragmentation has been identified as a major cause of declines in species diversity for many terrestrial ecosystems (reviewed by Saunders 1991). Much less empirical information is available on the effects of fragmentation on freshwater species and communities (Bradford et al. 1993, Townsend and Crowl 1991). Fragmentation in streams (i.e., a lack of connectivity between upstream and downstream populations) can be caused by many anthropogenic influences, but few studies have investigated the problem. In this review we present evidence that freshwater organisms are declining as a result of factors that lead, initially, to fragmentation and, ultimately, to extirpation of populations. Examples of stream modifications that cause fragmentation are described, followed by examples of management and restoration strategies that can mitigate the impact of fragmentation.

Keywords

Aquatic Species Riparian Vegetation Zebra Mussel Native Fish Freshwater Mussel 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Baker, F.C. 1922. The molluscan fauna of the Big Vermilion River, Illinois: with special reference to its modification as the result of pollution by sewage and manufacturing wastes. Illinois Biological Monographs 7 (2): 105–224.Google Scholar
  2. Balon, E.K. 1975. Reproductive guilds of fishes: a proposal and definition. Journal of the Fisheries Research Board of Canada 32: 821–864.CrossRefGoogle Scholar
  3. Bates, J.M. 1962. The impact of impoundment on the mussel fauna of Kentucky Reservoir, Tennessee River. American Midland Naturalist 68 (1): 232–236.CrossRefGoogle Scholar
  4. Bayley, P.B. 1991. The flood pulse advantage and the restoration of river-floodplain systems. Regulated Rivers 6: 75–86.CrossRefGoogle Scholar
  5. Bayley, P.B., and L.L. Osborne. 1993. Natural rehabilitation of stream fish populations in an Illinois catchment. Freshwater Biology 29: 295–300.CrossRefGoogle Scholar
  6. Becker, G.C. 1983. Fishes of Wisconsin. University of Wisconsin Press. Madison, WI.Google Scholar
  7. Berg, W.J., and G.A.E. Gall. 1988. Gene flow and genetic differentiation among California coastal rainbow trout populations. Canadian Journal of Fisheries and Aquatic Sciences 45: 122–131.CrossRefGoogle Scholar
  8. Bogan, A.E. 1993. Freshwater bivalve extinctions (Mollusca: Unionoida): a search for causes. American Zoologist 33: 599–609.Google Scholar
  9. Borchardt, D. 1993. Effects of flow and refugia on drift loss of benthic macroinvertebrates: implications for habitat restoration in lowland streams. Freshwater Biology 29: 221–227.CrossRefGoogle Scholar
  10. Bradford, D.F., F. Tabatabai, and D.M. Graber. 1993. Isolation of remaining populations of the native frog, Rana muscosa, by introduced fishes in Sequoia and Kings Canyon National Parks, California. Conservation Biology 7: 882–888.CrossRefGoogle Scholar
  11. Bruton, M.N. 1995. Have fishes had their chips?: the dilemma of threatened fishes. Environmental Biology of Fishes 43: 1–27.CrossRefGoogle Scholar
  12. Crowl, T.A., C.A. Townsend, and A.R. McIntosh. 1992. The impact of introduced brown and rainbow trout on native fish: the case of Australasia. Reviews in Fish Biology and Fisheries 2: 217–241.CrossRefGoogle Scholar
  13. Cummings, K.S., and C.A. Mayer. 1992. Field Guide to Freshwater Mussels of the Midwest. Illinois Natural History Survey Manual 5. Champaign, Ill.Google Scholar
  14. Cummings, K.S., and C.A. Mayer. 1997. The status of the freshwater mussel (Unionacea) fauna in Illinois. In Conservation and Management of Freshwater Mussels II: Initiatives for the Future: Proceedings of a UMRCC Symposium, 16–18 October 1995, St. Louis, Missouri. Upper Mississippi River Conservation Committee, Rock Island, Ill.Google Scholar
  15. Detenbeck, N.E., P.W. DeVore, G.J. Niemi, and A. Lima. 1992. Recovery of temperate-stream fish communities from disturbance: a review of case studies and synthesis of theory. Environmental Management 16: 33–53.CrossRefGoogle Scholar
  16. Flecker, A.S., and C.R. Townsend. 1994. Community-wide consequences of trout introduction in New Zealand streams. Ecological Applications 4: 798–807.CrossRefGoogle Scholar
  17. Forbes, S.A., and R.E. Richardson. 1908. The Fishes of Illinois. Illinois State Laboratory of Natural History. Champaign, Ill.Google Scholar
  18. Franklin, J.F. 1993. Preserving biodiversity: species, ecosystems, or landscapes? Ecological Applications 3: 202–205.CrossRefGoogle Scholar
  19. Fuller, S.L.H. 1974. Clams and mussels (Mollusca: Bivalvia). In C.W. Hart, Jr. and S.L.H. Fuller eds. Pollution Ecology of Freshwater Invertebrates. Academic Press, New York, 215–273.Google Scholar
  20. Gippel, C.J., and M.J. Stewardson. 1995. Development of an environmental flow management strategy for the Thomason River, Victoria, Australia. Regulated Rivers 10: 121–135.CrossRefGoogle Scholar
  21. Hansen, M.M., V. Loeschcke, G. Rasmussen, and V. Simonsen. 1993. Genetic differentia- tion among Danish brown trout (Salmo trutta) populations. Hereditas 118: 177–185.CrossRefGoogle Scholar
  22. Hesse, L.W., and W. Sheets. 1993. The Missouri River hydrosystem. Fisheries 18: 5–14.CrossRefGoogle Scholar
  23. Hobbs, H.H., Jr. 1988. Crayfish distribution, adaptive radiation and evolution. In D.M. Holdich and R.S. Lowery eds. Freshwater Crayfish: Biology, Management, and Exploitation. Croom Helm, London, 52–82.Google Scholar
  24. Holden, P.B. 1979. Ecology of riverine fishes in regulated stream systems with emphasis on the Colorado River. In J.V. Ward and J.A. Stanford eds. The Ecology of Regulated Streams. Plenum Press, New York, 57–74.Google Scholar
  25. Hynes, H.B.N. 1970. The Ecology of Running Waters. Liverpool University Press, Liverpool.Google Scholar
  26. Illinois Endangered Species Protection Board. 1994. Checklist of Endangered and Threatened Animals and Plants of Illinois. Illinois Endangered Species Protection Board. Springfield, Ill.Google Scholar
  27. Jackson, S., and W. Davis. 1994. Meeting the goal of biological integrity in water-resource programs in U.S. Environmental Protection Agency. Journal of the North American Benthological Society 13: 592–597.CrossRefGoogle Scholar
  28. Karr, J.R., and O.W. Gorman. 1975. Effects of land treatment on the aquatic environment. In Non–Point Source Pollution Seminar: Section 108(a) Demonstration Projects. U.S. Environmental Protection Agency, Office of the Great Lakes Coordinator, Chicago, Ill., EPA–905/9–75–007, 120 – 130.Google Scholar
  29. King, T.L., E.G. Zimmerman, and T.L. Beitinger. 1985. Concordant variation in thermal tolerance and allozymes of the red shiner, Notropis lutrensis, inhabiting tailwater sections of the Brazos River, Texas. Environmental Biology of Fishes 13: 49–57.CrossRefGoogle Scholar
  30. Leary, R.F., and F.W. Allendorf. 1989. Fluctuating asymmetry as an indicator of stress: implications for conservation biology. Trends in Research in Ecology and Evolution 4: 214–217.CrossRefGoogle Scholar
  31. Meffe, G.K., and R.C. Vrijenhoek. 1988. Conservation genetics in the management of desert fishes. Conservation Biology 2: 157–169.CrossRefGoogle Scholar
  32. Merrick, J.R. and G.E. Schmida. 1993. Australian Freshwater Fishes. Griffen Press Limited, Netley, South Australia.Google Scholar
  33. Miller, R.R., J.D. Williams, and J.E. Williams. 1989. Extinctions of North American fishes during the past century. Fisheries 14: 22–38.CrossRefGoogle Scholar
  34. Moyle, P.B. 1976. Fish introductions in California: history and impact on native fishes. Biological Conservation 9: 101–118.CrossRefGoogle Scholar
  35. Moyle, P.B., H.W. Li, and B.A. Barton. 1986. The Frankenstein effect: impact of introduced fishes on native fishes in North America. In R.H. Stroud ed. Fish Culture in Fisheries Management. American Fisheries Society, Bethesda, Md., 415–426.Google Scholar
  36. Moyle, P.B., and J.E. Williams. 1990. Biodiversity loss in the temperate zone: Decline of native fish fauna of California. Conservation Biology 4: 275–283.CrossRefGoogle Scholar
  37. Nalepa, T.F. 1994. Decline of native unionid bivalves in Lake St. Clair after infestation by the zebra mussel, Dreissena polymorpha. Canadian Journal of Fisheries and Aquatic Sciences 51: 2227–2233.CrossRefGoogle Scholar
  38. Neves, R.J. 1993. A state-of-the-Unionids address. In K.S. Cummings, A.C. Buchanan, and L.M. Koch eds. Conservation and Management of Freshwater Mussels. Proceedings of a UMRCC Symposium, 12–14 October 1992, St. Louis, Missouri. Upper Mississippi River Conservation Committee, Rock Island, Ill., 1–9.Google Scholar
  39. Neves, R.J., and P.L. Angermeier. 1990. Habitat alteration and its effects on native fishes in the upper Tennessee River system, east-central U.S.A. Journal of Fish Biology 37 (Supplement A): 45–52.CrossRefGoogle Scholar
  40. Newbury, R.W., and M.N. Gaboury. 1993. Stream Analysis and Fish Habitat Design—A Field Manual. Newbury Hydraulics Ltd., Gibsons, British Columbia.Google Scholar
  41. Page, L.M. 1974. Aquatic Malacostraca recorded from Illinois, with notes on their distributions and habitats within the state. Transactions of the Illinois State Academy of Science 67: 89–104.Google Scholar
  42. Page, L.M. 1985a. The crayfishes and shrimps (Decapoda) of Illinois. Illinois Natural History Survey Bulletin 33: 335–448.Google Scholar
  43. Page, L.M. 1985b. Evolution of reproductive behaviors in percid fishes. Illinois Natural History Survey Bulletin 33: 275–295.Google Scholar
  44. Page, L.M., and B.M. Burr. 1991. A Field Guide to Freshwater Fishes. Houghton Mifflin, Boston.Google Scholar
  45. Parmalee, P.W., and M.H. Hughes. 1993. Freshwater mussels (Mollusca: Pelecypoda: Unionidae) of Tellico Lake: twelve years after impoundment of the Little Tennessee River. Annals of the Carnegie Museum 62 (1): 81–93.Google Scholar
  46. Poddubny, A.G., and D.L. Galat. 1995. Habitat associations of Upper Volga River fishes: effects of reservoirs. Regulated Rivers 11: 67–84.CrossRefGoogle Scholar
  47. Rabeni, C.F., and R.B. Jacobson. 1993. The importance of fluvial hydraulics to fish-habitat restoration in low-gradient alluvial streams. Freshwater Biology 29: 211–220.CrossRefGoogle Scholar
  48. Rosgen, D.L. 1994. A classification of natural rivers. Catena 22: 169–199.CrossRefGoogle Scholar
  49. Roth, J. 1994. Conservation easements and their use in Illinois. Illinois Steward 3: 3–5.Google Scholar
  50. Ryman, N. 1991. Conservation genetics considerations in fishery management. Journal of Fish Biology 39 (Supplement A): 211–224.CrossRefGoogle Scholar
  51. Saunders, D.A. 1991. Biological consequences of ecosystem fragmentation: a review. Conservation Biology 5: 18–32.CrossRefGoogle Scholar
  52. Shields, F.D., Jr., S.S. Knight, and C.M. Cooper. 1995. Incised stream physical habitat restoration with stone weirs. Regulated Rivers 10: 181–198.CrossRefGoogle Scholar
  53. Shuter, B.J. 1990. Population-level indicators of stress. American Fisheries Society Symposium 8: 145–166.Google Scholar
  54. Smith, B.J. 1992. Zoological Catalogue of Australia, vol. 8. Non-Marine Mollusca. Australian Government Publishing Service, Canberra.Google Scholar
  55. 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, Ill.Google Scholar
  56. Smith, P.W. 1979. The Fishes of Illinois. University of Illinois Press, Urbana.Google Scholar
  57. Spence, J.A., and H.B.N. Hynes. 1971. Differences in fish populations upstream and downstream of a mainstream impoundment. Canadian Journal of Fisheries and Aquatic Sciences 28: 45–46.Google Scholar
  58. Subway, L., J.J. Subway, and E.E. Herricks. 1981. Changes in the freshwater mussel (Mollusca: Pelecypoda: Unionidae) fauna of the Kaskaskia River, Illinois, with emphasis on the effects of impoundment. Transactions of the Illinois State Academy of Science 74 (1/2): 79–90.Google Scholar
  59. Taylor, C.A. and M. Redmer. 1996. The dispersal of the crayfish Orconectes rusticus in Illinois, with notes on species displacement and habitat preference. Journal of Crustacean Biology 16: 547–551.CrossRefGoogle Scholar
  60. Taylor, C.A., M.L., Warren, Jr., J.F. Fitzpatrick, Jr., H.H. Hobbs III, R.F. Jezerinac, W.L. Pflieger, and H.W. Robison. 1996. Conservation status of crayfishes of the United States and Canada. Fisheries 21: 25–38.CrossRefGoogle Scholar
  61. Townsend, C.R. and T.A. Crow. 1991. Fragmented population structure in a native New Zealand fish: an effect of introduced trout? Oikos 61: 347–354.CrossRefGoogle Scholar
  62. Ward, J.V., and J.A. Stanford. 1995. Ecological connectivity in alluvial river ecosystems and its disruption by flow regulation. Regulated Rivers 11: 105–119.CrossRefGoogle Scholar
  63. Watters, G.T. 1992. Unionids, fishes, and the species area curve. Journal of Biogeography 19: 481–490.CrossRefGoogle Scholar
  64. Welcomme, R.L. 1988. International introductions of inland aquatic species. FAO Fisheries Technical Paper 294: 1–318.Google Scholar
  65. Welcomme, R.L. 1995. Relationships between fisheries and the integrity of river systems. Regulated Rivers 11: 121–136.CrossRefGoogle Scholar
  66. White, J. 1978. Illinois Natural Areas Inventory Technical Report. Illinois Natural Areas Inventory, Urbana.Google Scholar
  67. Williams, J.C. 1969. Mussel Fishery Investigations, Tennessee, Ohio, and Green rivers. Final Report. Kentucky Department of Fish and Wildlife Resources, Frankfort, Kentucky.Google Scholar
  68. Williams, J.D., S.L.H. Fuller, and R. Grace. 1992. Effects of impoundments on freshwater mussels (Mollusca: Bivalvia: Unionidae) in the main channel of the Black Warrior and Tombigbee rivers in western Alabama. Bulletin of the Alabama Museum of Natural History 13: 1–10.Google Scholar
  69. Williams, J.D., M.L. Warren, Jr., K.S. Cummings, J.L. Harris, and R.J. Neves. 1993. Conservation status of freshwater mussels of the United States and Canada. Fisheries 18: 6–22.CrossRefGoogle Scholar
  70. Wilson, C.B., and H.W. Clark. 1912. The mussel fauna of the Kankakee basin. Report and Special Papers of the U.S. Fish Commission. [Issued separately as U.S. Bureau of Fisheries Document 758] 1911: 1–52.Google Scholar

Copyright information

© Chapman & Hall 1997

Authors and Affiliations

  • Lawrence M. Page
    • 1
  • Mark Pyron
    • 1
  • Kevin S. Cummings
    • 1
  1. 1.Illinois Natural History SurveyChampaignUSA

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