SEARCH

SEARCH BY CITATION

References

  • Bertness, M.D., Gaines, S.D. & Yeh, S.M. (1998) Making mountains out of barnacles: the dynamics of acorn barnacle hummocking. Ecology, 79, 13821394.
  • Davies, P.S. (1970) Physiological ecology of Patella. IV. Environmental and limpet body temperatures. Journal of the Marine Biological Association of the United Kingdom, 50, 10691077.
  • Denny, M.W. (2000) Limits to optimization: fluid dynamics, adhesive strength and the evolution of shape in limpet shells. Journal of Experimental Biology, 203, 26032622.
  • Denny, M.W. & Blanchette, C.A. (2000) Hydrodynamics, shell shape, behavior and survivorship in the owl limpet Lottia gigantea. Journal of Experimental Biology, 203, 26232639.
  • Denny, M.W. & Harley, C.D.G. (2006) Hot limpets: predicting body temperature in a conductance-mediated thermal system. Journal of Experimental Biology, 209, 24092419.
  • Denny, M.W., Miller, L.P. & Harley, C.D.G. (2006) Thermal stress on intertidal limpets: long-term hindcasts and lethal limits. Journal of Experimental Biology, 209, 24202431.
  • Ebling, F.J., Sloan, J.F., Kitching, J.A. & Davies, H.M. (1962) The ecology of Lough Ine. XII. The distribution and characteristics of Patella species. Journal of Animal Ecology, 31, 457470.
  • Etter, R.J. (1988) Physiological stress and color polymorphism in the intertidal snail Nucella lapillus. Evolution, 42, 660680.
  • Evans, R.G. (1948) The lethal temperatures of some common British littoral molluscs. Journal of Animal Ecology, 17, 165173.
  • Frank, P.W. (1965) The biodemography of an intertidal snail population. Ecology, 46, 831844.
  • Garrity, S.D. (1984) Some adaptations of gastropods to physical stress on a tropical rocky shore. Ecology, 65, 559574.
  • Giraldo-López, A., & Gómez-Schouben, C. (1999) Shell variations of Siphonaria gigas (Sowerby, 1825) in response to the effect of wave intensity. Ciencias Marinas, 25, 213224.
  • Gray, D.R., & Hodgson, A.N. (2004) The importance of a crevice environment to the limpet Helcion pectunculus (Patellidae). Journal of Molluscan Studies, 70, 6772.
  • Halpin, P.M., Sorte, C.J., Hofmann, G.E. & Menge, B.A. (2002) Patterns of variation in levels of Hsp70 in natural rocky shore populations from microscales to mesoscales. Integrative and Comparative Biology, 42, 815824.
  • Hardin, D.D. (1968) A comparative study of lethal temperatures in the limpets Acmaea scabra and Acmaea digitalis. Veliger, 11S, 8387.
  • Harley, C.D.G. (2008) Tidal dynamics, topographic orientation, and temperature-mediated mass mortalities on rocky shores. Marine Ecology Progress Series, in press.
  • Harley, C.D.G., & Helmuth, B.S.T. (2003) Local- and regional-scale effects of wave exposure, thermal stress, and absolute vs. effective shore level on patterns of intertidal zonation. Limnol. Oceanogr., 48, 14981508.
  • Harvell, C.D., Mitchell, C.E., Ward, J.R., Altizer, S., Dobson, A.P., Ostfeld, R.S. & Samuel, M.D. (2002) Climate warming and disease risks for terrestrial and marine biota. Science, 296, 21582162.
  • Heath, J.E. (1970) Behavioral regulation of body temperature in poikilotherms. Physiologist, 13, 399410.
  • Helmuth, B.S.T. & Hofmann, G.E. (2001) Microhabitats, thermal heterogeneity, and patterns of physiological stress in the rocky intertidal zone. Biological Bulletin, 201, 374384.
  • Helmuth, B., Harley, C.D.G., Halpin, P.M., O'Donnell, M., Hofmann, G.E. & Blanchette, C.A. (2002) Climate change and latitudinal patterns of intertidal thermal stress. Science, 298, 10151017.
  • Hochachka, P.W. & Somero, G.N. (2002) Biochemical Adaptation: Mechanism and Process in Physiological Evolution. Oxford University Press, New York.
  • Huey, R.B. & Berrigan, D. (2001) Temperature, demography, and ectotherm fitness. American Naturalist, 158, 204210.
  • Jenkins, S.R., Hawkins, S.J. & Norton, T.A. 1999. Interaction between a fucoid canopy and limpet grazing in structuring a low shore intertidal community. Journal of Experimental Marine Biology and Ecology 233, 4163.
  • Johnson II, S.E. (1975) Microclimate and energy flow in the marine rocky intertidal. Perspectives of Biophysical Ecology (eds D.M. Gates & R.B. Schmerl), pp. 559587. Springer-Verlag, New York.
  • Kohn, A.J. (1993) Episodic mortality of limpets on a shore platform at Rottnest Island, Western Australia. The Fifth International Marine Biology Workshop: The Marine Flora and Fauna of Rottnest Island, Western Australia, pp. 497508. Western Australia Museum, Australia.
  • Lechanteur, Y.A.R.G. & Prochazka, K. (2001) Feeding biology of the giant clingfish Chorisochismus dentex – implications for limpet populations. African Zoology, 36, 7986.
  • Levings, S.C. & Garrity, S.D. (1984) Grazing patterns in Siphonaria gigas (Mollusca, Pulmonata) on the rocky Pacific coast of Panama. Oecologia, 64, 152159.
  • Lewis, J.R. (1954) Observations on a high-level population of limpets. Journal of Animal Ecology, 23, 85100.
  • Lindberg, D.R., Estes, J.A. & Warheit K.I. (1998) Human influences on trophic cascades along rocky shores. Ecological Applications, 8, 880890.
  • Lively, C.M. (1986) Predator-induced shell dimorphism in the acorn barnacle Chthamalus anisopoma. Evolution, 40, 232242.
  • Lowell, R.B. (1984) Desiccation of intertidal limpets: effects of shell size, fit to substratum, and shape. Journal of Experimental Marine Biology and Ecology, 77, 197207.
  • Lowell, R.B. (1986) Crab predation on limpets: predator behavior and defensive features of the shell morphology of the prey. Biological Bulletin, 171, 577596.
  • Lowell, R.B. (1987) Safety factors of tropical versus temperate limpet shells: multiple selection pressures on a single structure. Evolution, 41, 638650.
  • Miller, L.P. (2008) Life on the edge: morphological and behavioral adaptations for survival on wave-swept shores. PhD Thesis, Stanford University, Stanford, CA, USA
  • Moore, H.B. (1934) The relation of shell growth to environment in Patella vulgata. Proceedings of the Malacological Society of London, 21, 217222.
  • Orton, J.H. (1933) Studies on the relation between organism and environment. Transactions of the Liverpool Bibliographical Society, 46, 116.
  • Sanders, B.M., Hope, C., Pascoe, V.M. & Martin, L.S. (1991) Characterization of the stress protein response in two species of Collisella limpets with different temperature tolerances. Physiological Zoology, 64, 14711489.
  • Seebacher, F. & Franklin, C.E. (2005) Physiological mechanisms of thermoregulation in reptiles: a review. Journal of Comparative Physiology. B, 175, 533541.
  • Somero, G.N. (2002) Thermal physiology and vertical zonation of intertidal animals: optima, limits, and costs of living. Integrative and Comparative Biology, 42, 780789.
  • Sutherland, J.P. (1970) Dynamics of high and low populations of the limpet, Acmaea scabra (Gould). Ecological Monographs, 40, 169188.
  • Thompson, R.C., Norton, T.A. & Hawkins, S.J. (2004) Physical stress and biological control regulate the producer-consumer balance in intertidal biofilms. Ecology, 85, 13721382.
  • Tsuchiya, M. (1983) Mass mortality in a population of the mussel Mytilus edulis L. caused by high temperature on rocky shores. Journal of Experimental Marine Biology and Ecology, 66, 101111.
  • Vermeij, G.J. (1973) Morphological patterns in high-intertidal gastropods: adaptive strategies and their limitations. Marine Biology, 20, 319346.
  • Williams, G.A. & Morritt, D. (1995) Habitat partitioning and thermal tolerance in a tropical limpet, Cellana grata. Marine Ecology Progress Series, 124, 89103.
  • Williams, G.A., De Pirro, M., Leung, K.M.Y. & Morritt, D. (2005) Physiological responses to heat stress on a tropical shore: the benefits of mushrooming behaviour in the limpet Cellana grata. Marine Ecology Progress Series, 292, 213224.
  • Wolcott, T.G. (1973) Physiological ecology and intertidal zonation in limpets (Acmaea): a critical look at ‘limiting factors’. Biological Bulletin, 145, 389422.