Current problems in the research of Cepaea polymorphism

• Autorzy: Ozgo M.
• Języki publikacji: EN

Abstrakty

EN

Shell polymorphism in the land snails of the genus Cepaea has been studied for more than a century. Although these studies have taught us much about the ways in which evolutionary forces work at the population level, many problems are still unresolved. Studies of shell polymorphism, especially in populations living at the edges of the species’ geographical distribution, long-term surveys of morph frequencies in selected populations, studies of the dispersal abilities of Cepaea snails and of differences in physiology and behaviour among morphs will help to answer outstanding questions, which have direct relevance to our understanding of microevolutionary processes generally.

• Wydawca: -
• Czasopismo: Folia Malacologica
• Rocznik: 2008
• Tom: 16
• Numer: 2
• Opis fizyczny: p.55-60,ref.

Twórcy

autor

Ozgo M.

• Institute of Biology, Pomeranian University, Arciszewskiego 22B, 76-200 Slupsk, Poland

Bibliografia

• ARNOLD R. W. 1968. Studies on Cepaea. VII. Climatic selection in Cepaea nemoralis in the Pyrenees. Phil. Trans. R. Soc. Lond. B 253: 549–593.
• ARTHUR W., PHILLIPS D., MITCHELL P. 1993. Long-term stability of morph frequency and species distribution in a sand-dune colony of Cepaea. Proc. R. Soc. Lond. B 251: 159–163.
• BENGTSON S.-A., NILSSON A., NORDSTROM S., RUNDGREN S. 1976. Polymorphism in relation to habitat in the snail Cepaea hortensis in Iceland. J. Zool. 178: 173–88.
• CAIN A. J. 1983. Ecology and ecogenetics of terrestrial molluscan populations. In: The Mollusca. 6. Ecology (RUSSELL- HUNTER W. D., ed.), pp. 597–647.
• CAIN A. J., COOK L. M., CURREY J. D. 1990. Population size and morph frequency in a long-term study of Cepaea nemoralis. Proc. R. Soc. Lond. B 240: 231–250.
• CAIN A. J., CURREY J. D. 1963. Differences in interactions between selective forces acting in the wild on certain pleiotropic genes of Cepaea. Nature 197: 411–412.
• CAIN A. J., CURREY J. D. 1964. The causes of area effects. Heredity 18: 467–471.
• CAIN A. J., SHEPPARD P. M. 1950. Selection in the polymorphic land snail Cepaea nemoralis. Heredity 4: 275–294.
• CAIN A. J., SHEPPARD P. M. 1954. Natural selection in Cepaea. Genetics 39: 89–116.
• CAMERON R. A. D. 1992. Change and stability in Cepaea populations over 25 years: a case of climatic selection. Proc. R. Soc. Lond. B 248: 181–187.
• CAMERON R. A. D. 1997. Cepaea research 1900–1950: too many problems for a solution? Arch. Nat. Hist. 25: 401–412.
• CAMERON R. A. D. 2001. Cepaea nemoralis in a hostile environment: continuity, colonizations and morph-frequencies over time. Biol. J. Linn. Soc. 74: 255–264.
• CAMERON R. A. D., CARTER M. A., PALLES-CLARK M. A. 1980. Cepaea on Salisbury Plain: patterns of variation, landscape history and habitat stability. Biol. J. Linn. Soc. 14: 335–358.
• CAMERON R. A. D., DILLON P. J. 1984. Habitat stability, population histories and pattern variation in Cepaea. Malacologia 25: 271–290.
• CAMERON R. A. D., PANNETT D. J. 1985. Interaction between area effects and variation with habitat in Cepaea. Biol. J. Linn. Soc. 24: 365–379.
• CHANG H.-W. 1991. Activity and weight loss in relation to solar radiation in the polymorphic land snail Cepaea nemoralis. J. Zool. (Lond.) 255: 213–225.
• CLARKE B. C. 1962. Natural selection in mixed populations of two polymorphic snails. Heredity 17: 319–345.
• CLARKE B. C., ARTHUR W., HORSLEY D. T., PARKIN D. T. 1978. Genetic variation and natural selection in pulmonate snails. In: Pulmonates (FRETTER V., PEAKE J., eds), pp. 220–270, Academic Press, New York.
• COOK L. M. 1998. A two-stage model for Cepaea polymorphism. Phil. Trans. R. Soc. Lond. B 353: 1577–1593.
• COOK L. M., COWIE R. H., JONES J. S. 1999. Change in morph frequency in the snail Cepaea nemoralis on the Marlborough Downs. Heredity 82: 336–342.
• COWIE R. H., JONES J. S. 1998. Gene frequency changes in Cepaea snails on the Marlborough Downs over twenty-five years. Biol. J. Linn. Soc. 65: 233–255.
• DAVISON A., CLARKE B. 2000. History or current selection? A molecular analysis of ‘area efects’ in the land snail Cepaea nemoralis. Proc. R. Soc. Lond. B 267: 1399–1405.
• DAY J. C. L., DOWDESWELL W. H. 1968. Natural selection in Cepaea on Portland Bill. Heredity 23: 169–188.
• DENNY M. 1980. Locomotion: the cost of gastropod crawling. Science 208: 1288–1290.
• GOODHART C. B. 1962. Variation in a colony of the snail Cepaea nemoralis (L.). J. Anim. Ecol. 31: 207–237.
• HÄKKINEN I., KOPONEN S. 1982. Two marginal populations of Cepaea hortensis – morph frequency, shell size, and predation. Hereditas 97: 163–166.
• HONĔK A. 1995. Distribution and shell colour and banding polymorphism in marginal populations of Cepaea nemoralis (Gastropoda, Helicidae). Malacologia 37: 111–122.
• HONĔK A. 2003. Shell-band color polymorphism in Cepaea vindobonensis at the northern limit of its range. Malacologia 45: 133–140.
• JONES J. S. 1973a. Ecological genetics and natural selection in molluscs. Science 1182: 546–552.
• JONES J. S. 1973b. Ecological genetics of a population of the land snail Cepaea nemoralis at the northern limit of its range. Heredity 31: 201–211.
• JONES J. S. 1974. Environmental selection in the snail Cepaea vindobonensis in the Lika area of Yugoslavia. Heredity 32: 165–170.
• JONES J. S. 1982. Genetic differences in individual behaviour associated with shell polymorphism in the snail Cepaea nemoralis. Nature 298: 749–750.
• JONES J. S., LEITH B. H., RAWLINGS P. 1977. Polymorphism in Cepaea: a problem with too many solutions? Ann. Rev. Ecol. Syst. 8: 109–143.
• KERNEY M. P., CAMERON R. A. D., JUNGBLUTH J. H. 1983. Die Landschnecken Nord- und Mitteleuropas. Verlag Paul Parey, Hamburg und Berlin.
• KRAMARENKO S. S., KHOKHUTKIN I. M., GREBENNIKOV M. E. 2007. Specific features of phenetic structure of the terrestrial snail Cepaea vindobonensis (Pulmonata: Helicidae) in urbanized and natural populations. Russ. J. Ecol. 38: 39–45.
• LAMOTTE M. 1951. Recherches sur la structure génétique des populations naturelles de Cepaea nemoralis (L.). Bull. Biol. Fr. Belg. suppl. 35: 1–239.
• LAMOTTE M. 1959. Polymorphism of natural populations of Cepaea nemoralis. Cold Spring Harbor Symp. Quant. Biol. 34: 65–86.
• OWEN D. F., BENGTSON S.-A. 1972. Polymorphism in the land snail Cepaea horthesis in Iceland. Oikos 23: 218–225.
• OŻGO M. 2005. Cepaea nemoralis (L.) in southeastern Poland: association of morph frequencies with habitat. J. Moll. Stud. 71: 93–103.
• OŻGO M., KINNISON M. T. 2008. Contingency and determinism during convergent contemporary evolution in the polymorphic land snail, Cepaea nemoralis. Evol. Ecol. Res. 10: 721–733.
• OŻGO M., KOMOROWSKA A. 2008. Shell banding polymorphism in Cepaea vindobonensis in relation to habitat in southeastern Poland. Malacologia 51(1).
• OŻGO M., KUBEA A. 2005. Humidity and the effect of shell colour on activity of Cepaea nemoralis (Linnaeus 1758). Folia Malacol. 13: 109–114.
• REZNICK D. N., GHALAMBOR C. K. 2001. The population ecology of contemporary adaptations: what do empirical studies reveal about the conditions that promote adaptive evolution. Genetica 112–113: 183–198.
• RIEDEL A. 1988. Ślimaki lądowe. Gastropoda terrestria. Katalog Fauny Polski 36. PWN, Warszawa.
• ROST H. 1952. Studies on Cepaea hortensis (Müll.) in Northern Norway. Astarte 2: 1–10.
• ROTARIDES M. 1926. Uber die Bandervariation von Cepaea vindobonensis Fer. Zool. Anz. 67: 28–44.
• SCHWEIGER O., FRENZEL M., DURKA W. 2004. Spatial genetic structure in a metapopulation of the land snail Cepaea nemoralis (Gastropoda: Helicidae). Molec. Ecol. 13: 3645–3655.
• SHEPPARD P. M. 1951. Fluctuations in the selective value of certain phenotypes in the polymorphic land snail Cepaea nemoralis (L.). Heredity 5: 125–134.
• STAIKOU A. E. 1999. Shell temperature, activity and resistance to desiccation in the polymorphic land snail Cepaea vindobonensis. J. Moll. Stud. 65: 171–184.
• STEIGEN A. L. 1979. Temperature effects on energy metabolism in banded and unbanded morphs of the snail Cepaea hortensis Müll. Oecologia 141: 163–173.
• SVERLOVA N. V. 2001. Polymorphism of the introduced species Cepaea hortensis (Gastropoda, Pulmonata, Helicidae) in Lvov. 1. General regularities of polymorphism. Zool. Zhur. 80: 520–524.
• SVERLOVA N. V. 2002. Einschleppung und Polymorphismus der Cepaea-Arten am Beispiel von Lwow in der Westukraine (Gastropoda: Pulmonata: Helicidae). Malakol. Abh. 20: 267–274.
• SVERLOVA N. V., KIRPAN S. P. 2004. Phenetic structure of populations of Cepaea vindobonensis (Gastopoda, Pulmonata; Helicidae) in Western Ukraine. Naukovi Zapiski DPM, Lviv 19: 107–114.
• TILLING S. M. 1983. An experimental investigation of the behaviour and mortality of artificial and natural morphs of Cepaea nemoralis (L.). Biol. J. Linn. Soc. 19: 35–50.
• TILLING S. M. 1985a. The effects of density and interspecific interaction of mortality in experimental populations of adult Cepaea (Held.). Biol. J. Linn. Soc. 24: 61–70.
• TILLING S. M. 1985b. The effect of interspecivic interaction on spatial distribution patterns in experimental populations of Cepaea nemoralis (L.) and C. hortensis (Muell.). Biol. J. Linn. Soc. 24: 71–81.
• WOLDA H. 1967. The effect of temperature on reproduction in some morphs of the landsnail Cepaea nemoralis (L). Evolution 21: 117–129.
• WOLDA H. 1969. Stability of a steep cline in morph frequencies of the snail Cepaea nemoralis (L.). J. Anim. Ecol. 38: 623–635.

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