References: (click for full references)
Browne, R.A. 1978. Growth, mortality, fecundity, biomass and productivity of four lake populations of the prosobranch snail, Viviparus georgianus
. Ecology 59(4):742-750.
Buckley, D.E. 1986. Bioenergetics of age-related vs. size-related reproductive tactics in female Viviparus georgianus. Biological Journal of the Linnean Society 27(4):293-310.
Clench, W.J. 1962. A catalogue of the Viviparidae of North America with notes on the distribution of Viviparus georgianus. Occasional Papers on Mollusks 2(27):261-287.
Clench, W.J., and S.L.H. Fuller. 1965. The genus Viviparus (Viviparidae) in North America. Occasional Papers on Mollusks 2(32):385-412.
David, A.A., L. Pettit, and M. Edmund. 2020. Resilience of a highly invasive freshwater gastropod, Viviparus georgianus (Caenogastropoda: Viviparidae), to CO2-induced acidification. Journal of Molluscan Studies 86:259–262. https://doi.org/10.1093/mollus/eyaa008.
David, A.A., Zhou, H., Lewis, A., Yhann, A., and S. Verra. 2017. DNA barcoding of the banded mystery snail, Viviparus georgianus in the Adirondacks with quantification of parasitic infection in the species. American Malacological Bulletin 35(2):175-180.
Decaire, C. 2021. Massive snail die-off is unheard of and could affect ecosystem, expert says. CBC News. Ottawa, Canada. https://www.cbc.ca/news/canada/ottawa/banded-mystery-snail-die-off-1.6090851. Created on 07/11/2021. Accessed on 07/22/2021.
Dillon, R.T., Jr., B.T. Watson, T.W. Stewart, and W.K Reeves. 2006. The freshwater gastropods of North America. http://www.fwgna.org/species/viviparidae/v_georgianus.html. Accessed on 03/12/2013.
Duch, T.M. 1976. Aspects of the feeding habits of Viviparus georgianus. The Nautilus 90(1):7-10.
Eckblad, J.W., and M.H. Shealy, Jr. 1972. Predation on largemouth bass embryos by the pond snail. Transactions of the American Fisheries Society 101(4):734-738.
Havel, J.E., L.A. Bruckerhoff, M.A. Funkhouser, and A.R. Gemberling. 2014. Resistance to desiccation in aquatic invasive snails and implications for their overland dispersal. Hydrobiologia 741(1):89-100.
Hintz, W.D., B.M. Mattes, M.S. Schuler, D.K. Jones, A.B. Stoler, L. Lind, and R.A. Relyea. 2017. Salinization triggers a trophic cascade in experimental freshwater communities with varying food-chain length. Ecological Applications 27(3):833–844. https://doi.org/10.1002/eap.1487.
Hintz, W.D., M.S. Schuler, D.K. Jones, K.D. Coldsnow, A.B. Stoler, and R.A. Relyea. 2019. Nutrients influence the multi-trophic impacts of an invasive species unaffected by native competitors or predators. Science of the Total Environment 694:133704. https://doi.org/10.1016/j.scitotenv.2019.133704.
Jokinen, E.H. 1992. The freshwater snails (Mollusca: Gastropoda) of New York State. New York State Museum Bulletin 482:vi -112.
Jokinen, E.H., and J. Pondick. 1981. Rare and endangered species: freshwater gastropods of southern New England. The Bulletin of the American Malacological Union, Inc. 50:52-53.
Jokinen, E.H., J. Guerette, and R.W. Kortmann. 1982. The natural history of an ovoviviparous snail Viviparus georgianus in a soft water eutrophic lake. Freshwater Invertebrate Biology 1(4):2-17.
Katoh, M., and D.W. Foltz. 1994. Genetic subdivision and morphological variation in a freshwater snail species complex formerly referred to as Viviparus georgianus (Lea). Biological Journal of the Linnean Society 53(1):73-90.
Keller, R.P., J.M. Drake, and D.M. Lodge. 2007. Fecundity as a basis for risk assessment of nonindigenous freshwater molluscs. Conservation Biology 21(1):191-200. https://doi.org/10.1111/j.1523-1739.2006.00563.x.
Lee, L.E.J., J. Stassen, A. McDonald, C. Culshaw, A.D. Venosa, and K. Lee. 2002. Snails as biomonitors of oil-spill and bioremediation strategies. Bioremediation Journal 6(4):373-386.
Mackie, G.L., D.S. White, and T.W. Zdeba. 1980. A guide to freshwater mollusks of the Laurentian Great Lakes with special emphasis on the genus Pisidium. Environmental Research Laboratory, Office of Research and Development, U. S. Environmental Protection Agency, Duluth, Minnesota 55804. EPA-600/3-80-068: 144 pp.
Mills, E.L., J.H. Leach, J.T. Carlton, and C.L. Secor. 1993. Exotic species in the Great Lakes: a history of biotic crises and anthropogenic introductions. Journal of Great Lakes Research 19(1):1-54.
Pace, G.L., and E.J. Szuch. 1985. An exceptional stream population of the banded apple snail Viviparus georgianus in Michigan, USA. Nautilus 99(2-3):48-53.
Rivest, B.R., and R. Vanderpool. 1986. Variation in capsule albumen in the freshwater snail Viviparus georgianus. American Zoologist 26(4):41A.
Ruiz, G.M., P.W. Fofonoff, J.T. Carlton, M.J. Wonham, and A.H. Hines. 2000. Invasion of coastal marine communities in North America: Apparent patterns, processes, and biases. Annual Review of Ecological Systematics 31:481-531.
Smith, D. 2007. Parasite has killed thousands of scaup. Star Tribune. Minneapolis, MN. 11/6. http://fwgna.blogspot.com/2007/11/ducks-snails-and-worms-when-invasive.html. Created on 11/06/2007. Accessed on 04/12/2018.
Vail, V.A. 1977. Observations on brood production in three viviparid gastropods. Bulletin of the American Malacological Union, Inc. 43:90.
Vail, V.A. 1978. Seasonal reproductive patterns in 3 viviparid gastropods. Malacologia 17(1):7-98.
Vincent, B. 1979. Étude du benthos d’eau douce dans le haut-estuaire du Saint-Laurent (Québec). Canadian Journal of Zoology 57(11):1271-2182.
Wade, J.Q. 1985. Studies of the gastropods of Conesus Lake, Livingston County, New York, USA II. Identification, occurrence and ecology of species. Proceedings of the Rochester Academy of Science 15(3):206-212.
Wade, J.Q., and C.E. Vasey. 1976. A study of the gastropods of Conesus Lake, Livingston County, New York. Proceedings of the Rochester Academy of Science 13(1):17-22.
This information is preliminary or provisional and is subject to revision. It is being provided to meet the need for timely best science. The information has not received final approval by the U.S. Geological Survey (USGS) and is provided on the condition that neither the USGS nor the U.S. Government shall be held liable for any damages resulting from the authorized or unauthorized use of the information.