The distribution of the invasive New Zealand mud snail (Potamopyrgus antipodarum) in Lake Ontario

Authors

  • Edward P. Levri 3000 Ivyside Park, Division of Math and Sciences, Penn State - Altoona Altoona, PA 16601, U.S.A.
  • Ron M. Dermott Fisheries and Oceans Canada, Great Lakes Laboratory for Fisheries and Aquatic Sciences 867 Lakeshore Road, Burlington, ON L7R 4A6, Canada
  • Shane J. Lunnen 3000 Ivyside Park, Division of Math and Sciences, Penn State - Altoona Altoona, PA 16601, U.S.A.
  • Ashley A. Kelly 3000 Ivyside Park, Division of Math and Sciences, Penn State - Altoona Altoona, PA 16601, U.S.A.
  • Thomas Ladson 3000 Ivyside Park, Division of Math and Sciences, Penn State - Altoona Altoona, PA 16601, U.S.A.

Keywords:

exotic, Dreissena , introduced, gastropod, mollusk

Abstract

The invasive New Zealand mud snail, Potamopyrgus antipodarum, is a world-wide invasive species currently found in Europe, Australia, Japan, and, most recently, North America. It was first discovered in Lake Ontario in 1991. The purposes of this study were to update the current known geographic distribution of the snail, determine the relationship between depth and population densities, and examine the relationship between Potamopyrgus and dreissenid mussel densities in Lake Ontario. We sampled several locations in Lake Ontario and determined that the range of Potamopyrgus has expanded. However, densities appear to have moderated in the past ten years. In one location (Wilson, NY), the densities of the snail are dependent upon depth with highest densities occurring between 15 and 25 m. At this location, no snails were found at depths of less than 15 m. We found no correlation between the densities of Potamopyrgus and invasive mussels. The reasons for apparent reduction in densities over time and the apparent lack of Potamopyrgus in shallow water are discussed.

References

Aberle, N., Hillebrand, H., Grey, J. and Wiltshire, K. H. 2005. Selectivity and competitive interactions between two benthic grazers (Asellus aquaticus Potamopyrgus antipodarum): an experimental study using 13C-and 15N-labelled diatoms. Freshwater Biology, 50: 369–379.

Bowler, P. 1991. The rapid spread of the freshwater hydorbiid snail Potamopyrgus antipodarum (Gray) in the middle Snake River, southern Idaho. Proc. Desert Fish. Counc., 21: 173–182.

Bowler, P. and Frest, T. J. 1992. The non-native snail fauna of the Middle Snake River, Southern Idaho. Proc. Desert Fish. Counc., 23: 28–44.

Cada, C. 2004. Interactions between the invasive New Zealand mud snail, Potamopyrgus antipodarum, baetid mayflies, and fish predators, M. S. Thesis Bozeman, MT, , USA: Montana State University.

Dorgelo, J. 1987. Density fluctuations in populations (1982–1986) and biological observations of Potamopyrgus jenkinsi in two trophically differing lakes. Hydrobiological Bulletin, 21(1): 95–110.

Elton, C. S. 1958. The ecology of invasions by animals and plants, London: Methuen.

Emblidge Fromme, A. and Dybdahl, M. F. 2006. Resistance in introduced populations of a freshwater snail to native range parasites. J. of Evol. Biol., 19: 1948–1955.

Grigorovich, I. A., Korniushin, A. V., Gray, D. K., Duggan, I. C., Colautti, R. I. and MacIsaac, H. J. 2003. Lake Superior: an invasion coldspot?. Hydrobiologia, 499: 191–210.

Hall, R. O., Tank, J. L. and Dybdahl, M. F. 2003. Exotic snails dominate nitrogen and carbon cycling in a highly productive stream. Front. Ecol. Environ., 1(8): 407–411.

Hall, R. O., Dybdahl, M. F. and Vander Loop, M. C. 2006. Extremely high secondary production of introduced snails in rivers. Ecological Applications, 16: 1121–1131.

Holeck, K. T., Mills, E. L., MacIsaac, H. J., Dochoda, M. R., Colautti, R. I. and Ricciardi, A. 2004. Bridging troubled waters: Biological invasions, transoceanic shipping, and the Laurentian Great Lakes. BioScience, 54(10): 919–929.

Johnson, M. G. and McNeil, O. C. 1986. “Changes in abundance and species composition in benthic macroinvertebrate communities of the Bay of Quinte, 1966–84”. In Project Quinte: point-source phosphorous control and ecosystem response in the Bay of Quinte, Lake Ontario Edited by: Minns, C. K., Hurley, D. A. and Nicholls, K. H. 177–189. Can. Spec. Publi. Fish. Aquatic Sci. 86

Johnson, M. G. and Matheson, D. H. 1968. Macroinvertebrate communities of the sediments of Hamilton Bay and adjacent Lake Ontario. Limnol. Oceanogr., 13: 99–11.

Kennedy, T. A., Naeem, S., Howe, K. M., Knops, J. M. H., Tilman, D. and Reich, P. 2002. Biodiversity as a barrier to ecological invasion. Nature, 417: 636–638.

Kerans, B. L., Dybdahl, M. F., Gangloff, M. M. and Jannot, J. E. 2005. Potamopyrgus antipodarum: distribution, density, and effects on native macroinvertebrate assemblages in the Greater Yellowstone ecosystem. J. N. Am. Benthol. Soc., 24(1): 123–138.

Kopp, K. and Jokela, J. 2007. Resistant invaders can convey benefits to native species. Oikos, 116: 295–301.

Levri, E. P. 1998. The influence of non-host predators on parasite-induced behavioral changes in a freshwater snail. Oikos, 81: 531–537.

Levri, E. P. and Jacoby, W. 2008. The invasive New Zealand mud snail (Potamopyrgus antipodarum) found in streams of the Lake Ontario watershed. Journal of the Pennsylvania Academy of Science, 82(1): 7–11.

Levri, E. P., Kelly, A. and Love, E. 2007. The Invasive New Zealand Mud Snail (Potamopyrgus antipodarum) in Lake Erie. Journal of Great Lakes Research, 33(1): 1–6.

Lively, C. M. 1987. Evidence from a New Zealand snail for the maintenance of sex by parasitism. Nature, 328: 519–521.

MacIsaac, H. J. 1996. Potential abiotic and biotic impacts of zebra mussels on the inland waters of North America. Amer. Zool., 36: 287–299.

McCarter, N. H. 1986. Food and energy in the diet of brown and rainbow trout from Lake Benmore, New Zealand. New Zealand Journal of Marine and Freshwater Research, 20: 551–559.

Mills, E. L., Leach, J. H., Carlton, J. T. and Secor, C. L. 1993. Exotic species in the Great Lakes: a history of biotic crisis and anthropogenic introductions. J. Great Lakes Res., 19(1): 1–54.

Ponder, W. F. 1988. Potamopyrgus antipodarum – a molluscan colonizer of Europe and Australia. J. Moll. Stud., 54: 271–285.

Proctor, T., Kerans, B., Clancey, P., Ryce, E., Dybdahl, M., Gustafson, D., Hall, R., Pickett, F., Richards, D., Waldeck, R. D., Chapman, J., Wiltshire, R. H., Becker, D., Anderson, M., Pitman, B., Lassuy, D., Heimowitz, P., Dwyer, P. and Levri, E. P. 2007. National Management and Control Plan for the New Zealand Mudsnail (Potamopyrgus antipodarum), Washington, D. C., , USA: Aquatic Nuisance Species Task Force. United States Fish and Wildlife and the Unites States Geological Survey. http://www.anstaskforce.gov/Documents/NZMS_MgmtControl_Final.pdf May 2007

Poulton, D. J., Simpson, K. J., Barton, D. R. and Lum, K. R. 1988. Trace metals and benthic invertebrates in sediments of nearshore Lake Ontario at Hamilton Harbour. J. Great Lakes Res., 14: 52–65.

Ricciardi, A. and MacIsaac, H. J. 2000. Recent mass invasion of North American Great Lakes by Ponto-Caspian species. TREE, 15(2): 62–65.

Richards, D. C. 2002. The New Zealand mudsnail invades the western United States. Aquatic Nuisance Species Digest, 4(4): 42–44.

Richards, D. C., Cazier, L. D. and Lester, G. T. 2001. Spatial distribution of three snail species, including the invader Potamopyrgus antipodarum, in a freshwater spring. Western North American Naturalist, 61(3): 375–380.

Tilman, D. 1999. The ecological consequences of changes in biodiversity: a search for general principles. Ecology, 80: 1455–1474.

Schreiber, E. S. G., Lake, P. S. and Quinn, G. P. 2002. Facilitation of native stream fauna by an invading species? Experimental investigations of the interaction of the snail, Potamopyrgus antipodarum (Hydrobiidae) with native benthic fauna. Biological Invasions, 4: 317–325.

Schreiber, E. S. G., Quinn, G. P. and Lake, P. S. 2003. Distribution of an alien aquatic snail in relation to flow variability, human activities and water quality. Freshwater Biology, 48: 951–961.

Shimada, K. and Urabe, M. 2003. Comparative ecology of the alien freshwater snail Potamopyrgus antipodarum and the indigenous snail Semisulcospira spp. Venus, 62: 39–53.

Walsh, W. G., O'Gorman, R., Lantry, B. F., Strang, T., Maloy, A. P. and Prindle, S. E. 2005. Status of Sculpins and Round Goby in the U. S. waters of Lake Ontario 2005 20–30. NYSDEC Lake Ontario Annual Report to Great Lakes Fisheries Commission, Section 12. 2006 March. Lake Ontario Committee Meeting, Windsor ON

Weimer, M. T. and Sowinski, M. 1999. Diet of the round goby (Neogobius melanostomus) in Lake Erie Dreissena! Digest of the ANS Clearinghouse Vol. 10, No. 1

Winterbourn, M. 1970. The New Zealand species of Potamopyrgus (Gastropoda: Hydrobidae). Malacologia, 10(2): 283–321.

Zaranko, D. T., Farara, D. G. and Thompson, F. G. 1997. Another exotic mollusk in the Laurentian Great Lakes: the New Zealand native Potamopyrgus antipodarum (Gray 1843) (Gastropoda, Hydrobiidae). Can. J. Fish. Aquat. Sci., 54: 809–814.

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Published

2008-12-09

Issue

Vol. 11 No. 4 (2008): Checking the Pulse of Lake Ontario

Section

Research article

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