SEARCH

SEARCH BY CITATION

References

  • Berger, A. & Mayr, M. (1992) Ecological studies on two intertidal New Zealand fishes, Acanthoclinus fuscus and Forsterygion nigripenne robustum. New Zealand Journal of Marine and Freshwater Research, 26, 359370.
  • Breiman, L., Friedman, J.H., Olshen, R.A. & Stone, C.G. (1993) Classification and Regression Trees. Chapman & Hall, New York.
  • Bridges, C.R. (1988) Respiratory adaptations in intertidal fish. American Zoologist, 28, 7996.
  • Bridges, C.R. (1993) Adaptation of vertebrates to the intertidal environment. The Vertebrate Gas Transport Cascade: Adaptations to the Environment and Mode of Life (eds J.Eduardo & P.W.Bicudo), pp. 1222. CRC Press, Boca Raton, FL.
  • Bridges, C.R., Taylor, A.C., Morris, S.J. & Grieshaber, M.K. (1984) Ecophysiological adaptations in Blennius pholis blood to intertidal rockpool environments. Journal of Experimental Marine Biology and Ecology, 77, 151168.
  • Brown, L.R. (1989) Temperature preferences and oxygen consumption of three species of sculpin (Cottus) from the Pit River drainage, California. Environmental Biology of Fishes, 26, 223236.
  • Chown, S., Gaston, K. & Robinson, D. (2004) Macrophysiology: large-scale patterns in physiological traits and their ecological implications. Functional Ecology, 18, 159167.
  • Clarke, A. & Johnston, N.M. (1999) Scaling of metabolic rate with body mass and temperature in teleost fish. Journal of Animal Ecology, 68, 893905.
  • Clements, K.D. (2003) Triplefins. The Living Reef: The Ecology of New Zealand's Rocky Reefs (eds N.Andrew & M.Francis), pp. 160167. Craig Potton Publishing, Nelson.
  • Connell, J.H. (1961) The influence of intra-specific competition and other factors on the distribution of the barnacle Chthamalus stellatus. Ecology, 42, 710723.
  • Daniel, M.J. & Boyden, C.R. (1975) Diurnal variations in physico-chemical conditions within intertidal rockpools. Field Studies, 4, 161176.
  • Davis, J.D.L. (2000) Spatial and seasonal patterns of habitat partitioning in a guild of southern California tidepool fishes. Marine Ecology Progress Series, 196, 253268.
  • Davis, J.D.L. (2001) Diel changes in habitat use by two tidepool fishes. Copeia, 3, 835841.
  • De’Ath, G. & Fabricius, K.E. (2000) Classification and regression trees: a powerful yet simple technique for ecological data analysis. Ecology, 81, 31783192.
  • Faria, C. & Almada, V. (2001) Agonistic behaviour and control of access to hiding places in two intertidal blennies, Lipophrys pholis and Coryphoblennius galerita (Pisces: Blenniidae). Acta Ethologica, 4, 5158.
  • Feary, D.A. (2001) Trophic morphology, diet and habitat use of New Zealand triplefins (Family Tripterygiidae). MSc Thesis, The University of Auckland, Auckland.
  • Fricke, R. (1994) Tripterygiid fishes of Australia, New Zealand and the Southwest Pacific Ocean (Teleostei). Koeltz Scientific Books, Königstein.
  • Gibson, R.N. (1982) Recent studies on the biology of intertidal fishes. Oceanography and Marine Biology, 20, 363414.
  • Hardy, G.S. (1987) Revision of some triplefins (Pisces: Tripterygiidae) from New Zealand and Australia, with descriptions of two new genera and two new species. Journal of the Royal Society of New Zealand, 17, 253274.
  • Harvey, P.H. & Pagel, M.D. (1991) The Comparative Method in Evolutionary Biology. Oxford University Press, Oxford.
  • Hickey, A.J.R. & Clements, K.D. (2005) Genome size evolution in New Zealand triplefin fishes. Journal of Heredity, 96, 356362.
  • Hölker, F. (2006) Effects of body size and temperature on metabolism of bream compared to sympatric roach. Animal Biology, 56, 2337.
  • Horn, M.H., Martin, K.L.M. & Chotkowski, M.A. (eds) (1999) Intertidal Fishes: Life in Two Worlds. Academic Press, San Diego, California.
  • Huey, R.B. (1987) Phylogeny, history and the comparative method. New Directions in Ecological Physiology (eds M.E.Feder, A.F.Bennet, W.W.Burggren & R.B.Huey), pp. 7698. Cambridge University Press, New York.
  • Matthews, W.J. & Styron, J. T. Jr. (1981) Tolerance of headwater vs. mainstream fishes for abrupt physicochemical changes. American Midland Naturalist, 105, 149158.
  • Menge, B., Olson, A. & Dahlhoff, E. (2002) Environmental stress, bottom-up effects, and community dynamics: integrating molecular-physiological and ecological approaches. Integrative and Comparative Biology, 42, 892908.
  • Metaxas, A. & Scheibling, R.E. (1993) Community structure and organization of tidepools. Marine Ecology Progress Series, 98, 187198.
  • Morris, S. & Taylor, A.C. (1983) Diurnal and seasonal variation in physico-chemical conditions within intertidal rock pools. Estuarine, Coastal and Shelf Science, 17, 339355.
  • Ohlberger, J., Mehner, T., Staaks, G. & Hölker, F. (2008) Temperature-related physiological adaptations promote ecological divergence in a sympatric species pair of temperate freshwater fish, Coregonus spp. Functional Ecology, 22, 501508.
  • Oosterbaan, R.J. (1994) Frequency and regression analysis. Drainage Principles and Applications (ed. H.P. Ritzema), pp. 175223. ILRI Publication 16, Wageningen, The Netherlands.
  • Raffaelli, D. & Hawkins, S. (1996) Intertidal Ecology. Chapman and Hall, London.
  • Sanford, E. (1999) Regulation of keystone predation by small changes in ocean temperature. Science, 283, 20952097.
  • Seebacher, F. & Wilson, R.S. (2006) Fighting fit: thermal plasticity of metabolic function and fighting success in the crayfish Cherax destructor. Functional Ecology, 20, 10451053.
  • Silberschneider, V. & Booth, D.J. (2001) Resource use by Enneapterygius rufopileus and other rockpool fishes. Environmental Biology of Fishes, 61, 195204.
  • Somero, G.N. (2002) Thermal physiology and vertical zonation of intertidal animals: optima, limits, and costs of living. Integrative and Comparative Physiology, 42, 780789.
  • Stillman, J.H. (2002) Causes and consequences of thermal tolerance limits in rocky intertidal porcelain crabs, genus Petrolisthes. Integrative and Comparative Biology, 42, 790796.
  • Szabo, A.R. (2002) Experimental test of intercohort competition for food and cover in the tidepool sculpin (Oligocottus maculosus Girard). Canadian Journal of Zoology, 80, 137144.
  • Thomas, M.L.H. (1986) A physically derived exposure index for marine shorelines. Ophelia, 25, 113.
  • Tomanek, L. & Helmuth, B. (2002) Physiological ecology of rocky intertidal organisms: a synergy of concepts. Integrative and Comparative Physiology, 42, 771775.
  • Truchot, J.P. & Duhamel Jouve, A. (1980) Oxygen and carbon dioxide in the marine intertidal environment: diurnal and tidal changes in rock pools. Respiratory Physiology, 39, 241254.
  • Wellenreuther, M. & Clements, K.D. (2007) Reproductive isolation in temperate reef fishes. Marine Biology, 152, 619630.
  • Wellenreuther, M. & Clements, K.D. (2008) Determinants of habitat association in a sympatric clade of marine fishes. Marine Biology, 154, 393402.
  • Wellenreuther, M., Barrett, P.T. & Clements, K.D. (2007) Ecological diversification in habitat use by subtidal triplefin fishes (Tripterygiidae). Marine Ecology Progress Series, 330, 235246.
  • Wellenreuther, M., Syms, C. & Clements, K.D. (2008) Consistent habitat use across biogeographic gradients in temperate reef fishes. Ecography, 31, 8494.
  • Wethey, D.S. (1984) Sun and shade mediate competition in the barnacles Chthamalus and Semibalanus: a field experiment. Biological Bulletin, 167, 176185.
  • Zander, C.D., Nieder, J. & Martin, K.L.M. (1999) Vertical distribution patterns. Intertidal Fishes: Life in Two Worlds (eds M.H.Horn, K.L.M.Martin & M.A.Chotkowski), pp. 2653. Academic Press, San Diego, CA.
  • Zimmermann, D.W. (2004) A note on preliminary tests of equality of variances. British Journal of Mathematical and Statistical Psychology, 57, 173181.