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References

  • Altig, R. & Johnston, G.F. 1989. Guilds of anuran larvae: relationships among developmental modes, morphologies, and habitats. Herpet. Monogr. 3: 81109.
  • Altig, R. & McDiarmid, R.W. 1999. Body plan: development and morphology. In: Tadpoles: The Biology of Anuran Larvae (R.W.McDiarmid & R.Altig, eds), pp. 2451. University of Chicago Press, Chicago, IL.
  • Anstis, M. 2002. Tadpoles of South-eastern Australia: A Guide with Keys. Reed Books, Sydney.
  • Benkman, C.W. 1993. Adaptation to single resources and the evolution of crossbill (Loxia) diversity. Ecol. Monogr. 63: 305325.
  • Blomberg, S.P. & Garland, T. 2002. Tempo and mode in evolution: phylogenetic inertia, adaptation, and comparative methods. J. Evol. Biol. 15: 899910.
  • Bonacci, A., Brunelli, E., Sperone, E. & Tripepi, S. 2008. The oral apparatus of tadpoles of Rana dalmatina, Bombina variegata, Bufo bufo, and Bufo viridis (Anura). Zool. Anzeig. 247: 4754.
  • Butler, M.A. & King, A.A. 2004. Phylogenetic comparative analysis: a modeling approach for adaptive evolution. Am. Nat. 164: 683695.
  • Byrne, P.G., Roberts, J.D. & Simmons, L.W. 2002. Sperm competition selects for increased testes mass in Australian frogs. J. Evol. Biol. 15: 347355.
  • Cogger, H.G. 2000. Reptiles and Amphibians of Australia. Reed Books, Sydney.
  • Connell, J.H. 1961. The influence of interspecific competition and other factors on the distribution of the barnacle Chthamalus stellatus. Ecology 42: 710723.
  • Derrickson, E.M. & Ricklefs, R.E. 1988. Taxon-dependent diversification of life-history traits and the perception of phylogenetic constraints. Funct. Ecol. 2: 417423.
  • Diaz-Paniagua, C. 1985. Larval diets related to morphological characters in five anuran species in the biological reserve of Donaña (Huelva, Spain). Amphibia-Reptilia 6: 307322.
  • Donnellan, S.C. & Mahony, M.J. 2004. Allozyme, chromosomal, and morphological variability in the Litoria lesueuri species group (Anura: Hylidae), including a description of a new species. Aust. J. Zool. 52: 128.
  • Felsenstein, J. 1985. Phylogenies and the comparative method. Am. Nat. 125: 115.
  • Gosner, K.L. 1960. A simplified table for staging anuran embryos and larvae with notes on identification. Herpetologica 16: 183190.
  • Gould, S.J. & Lewontin, R.C. 1979. The spandrels of San Marco and the Panglossian paradigm: a critique of the adaptationist programme. Proc. R. Soc. Lond. B 205: 581598.
  • Grant, P.R. & Grant, B.R. 2002. Adaptive radiation of Darwin’s finches. Am. Sci. 90: 130139.
  • Hansen, T.F. 1997. Stabilizing selection and the comparative analysis of adaptation. Evolution 51: 13411351.
  • Hansen, T.F. & Orzack, S.H. 2005. Assessing current adaptation and phylogenetic inertia as explanations of trait evolution: the need for controlled comparisons. Evolution 59: 20632072.
  • Hansen, T.F., Pienaar, J. & Orzack, S.H. 2008. A comparative method for studying adaptation to a randomly evolving environment. Evolution 62: 19651977.
  • Harvey, P.H. & Pagel, M.D. 1991. The Comparative Method in Evolutionary Biology. Oxford University Press, Oxford.
  • Hespenheide, H.A. 1973. Ecological inferences from morphological data. Annu. Rev. Ecol. Syst. 4: 213229.
  • Hill, M.O. & Smith, A.J.E. 1976. Principal component analysis of taxonomic data with multi-state discrete characters. Taxon 25: 249255.
  • Hoff, K.v.S., Blaustein, A.R., McDiarmid, R.W. & Altig, R. 1999. Behavior: interactions and their consequences. In: Tadpoles: The Biology of Anuran Larvae (R.W.McDiarmid & R.Altig, eds), pp. 215239. University of Chicago Press, Chicago, IL.
  • Hutchinson, M.N. & Maxson, L.R. 1986. Immunological evidence of relationships of some Australian terrestrial frogs (Anura: Hylidae: Pelodryadinae). Aust. J. Zool. 34: 575582.
  • Hutchinson, M.N. & Maxson, L.R. 1987. Phylogenetic relationships among Australian tree frogs (Anura: Hylidae: Pelodryadinae): an immunological approach. Aust. J. Zool. 35: 6174.
  • Inger, R.F. 1986. Diets of tadpoles living in a Bornean rain forest. Alytes 5: 153164.
  • Johnston, G.F. 1990. Feeding Function and Anatomy of the Oral Apparatus of Anuran Larvae. Ph.D. dissertation, Southern Illinois University, Carbondale, IL, 151 p.
  • Keddy, P., Nielsen, K., Weiher, E. & Lawson, R. 2002. Relative competitive performance of 63 species of terrestrial herbaceous plants. J. Veg. Sci. 13: 516.
  • Kiers, H.A.L. 1994. Simple structure in component analysis techniques for mixtures of qualitative and quantitative variables. Psychometrika 56: 197212.
  • Kraft, P.G., Wilson, R.S. & Franklin, C.E. 2005. Predator-mediated phenotypic plasticity in tadpoles of the striped marsh frog, Limnodynastes peronii. Aust. Ecol. 30: 558563.
  • Lack, D. 1961. Darwin’s Finches, 2nd edn. Harper, New York.
  • Lande, R. 1976. Natural selection and random genetic drift in phenotypic evolution. Evolution 30: 314334.
  • Lande, R. 1979. Quantitative genetic analysis of multivariate evolution, applied to brain:body size allometry. Evolution 33: 402416.
  • Laurin, M. 2004. The evolution of body size, Cope’s rule, and the origin of amniotes. Syst. Biol. 53: 594622.
  • Legendre, P., Lapointe, F.-J. & Casgrain, P. 1994. Modeling brain evolution from behavior: a permutational regression approach. Evolution 48: 14871499.
  • Liu, H., Wassersug, R.J. & Kawachi, K. 1997. The three-dimensional hydrodynamics of tadpole locomotion. J. Exp. Biol. 200: 28072819.
  • Losos, J.B., Jackman, T.R., Larson, A., De Queiroz, K. & Rodriguez-Schettino, L. 1999. Contingency and determinism in replicated adaptive radiations of island lizards. Science 279: 21152118.
  • Mable, B.K. & Roberts, J.D. 1997. Mitochondrial DNA evolution of tetraploids in the genus Neobatrachus (Anura: Myobatrachidae). Copeia 1997: 680689.
  • Marjanović, D. & Laurin, M. 2007. Fossils, molecules, divergence times, and the origin of lissamphibians. Syst. Biol. 56: 369388.
  • Marjanović, D. & Laurin, M. 2008. Assessing confidence intervals for stratigraphic ranges of higher taxa: the case of Lissamphibia. Acta Palaeont. Pol. 53: 413432.
  • Martins, E.P. 1994. Estimating rates of character change from comparative data. Am. Nat. 144: 193209.
  • Martins, E.P. 2000. Adaptation and the comparative method. Trends Ecol. Evol. 15: 296299.
  • Martins, E.P. & Hansen, T.F. 1997. Phylogenies and the comparative method: a general approach to incorporating phylogenetic information into the analysis of interspecific data. Am. Nat. 149: 646667.
  • Maxson, L.R. 1992. Temporal pattern in anuran speciation and phylogeny: an anuran perspective. In: Current Research on the Biology of Amphibians and Reptiles (K.Adler, ed), pp. 4157. Proc. First World Congr. Herpetol., Society for the Study of Amphibians and Reptiles, Oxford, OH.
  • Maxson, L.R. & Roberts, J.D. 1984. Albumin and Australian frogs: molecular data a challenge to speciation models. Science 225: 957958.
  • Maxson, L.R., Tyler, M.J. & Maxson, R.D. 1982. Phylogenetic relationships of Cyclorana and the Litoria aurea species-group (Anura: Hylidae): a molecular perspective. Aust. J. Zool. 30: 1722.
  • Maxson, L.R., Ondrulla, D.P. & Tyler, M.J. 1985. An immunological perspective on evolutionary relationships in Australian frogs of the hylid genus Cyclorana. Aust. J. Zool. 33: 1722.
  • McPeek, M.A. 1996. Trade-offs, food web structure, and the coexistence of habitat specialists and generalists. Am. Nat. 148: S124S138.
  • Noble, G.K. 1929. The adaptive modifications of the arboreal tadpoles of Hoplophryne and the torrent tadpoles of Staurois. Bull. Am. Mus. Nat. Hist. 58: 291337.
  • Orton, G.L. 1953. The systematics of vertebrate larvae. Syst. Zool. 2: 6375.
  • Orton, G.L. 1957. The bearing of larval evolution on some problems in frog classification. Syst. Zool. 6: 7986.
  • Passarge, J., Hol, S., Escher, M. & Huisman, J. 2006. Competition for nutrients and light: stable coexistence, alternative stable states, or competitive exclusion? Ecol. Monogr. 76: 5772.
  • R Development Core Team. 2008. R Version 2.8.1. The R Foundation for Statistical Computing; available at: http://www.r-project.org.
  • Read, K., Keogh, J.S., Scott, I.A.W., Roberts, J.D. & Doughty, P. 2001. Molecular phylogeny of the Australian frog genera Crinia, Geocrinia, and allied taxa (Anura: Myobatrachidae). Mol. Phylogenet. Evol. 21: 294308.
  • Relyea, R.A. 2001. Morphological and behavioral plasticity of larval anurans in response to different predators. Ecology 82: 523540.
  • Relyea, R.A. & Werner, E.E. 2000. Morphological plasticity in four larval anurans distributed along an environmental gradient. Copeia 2000: 178190.
  • Roberts, J.D. & Maxson, L.R. 1986. Phylogenetic relationships in the genus Limnodynastes (Anura: Myobatrachidae): a molecular perspective. Aust. J. Zool. 34: 561573.
  • Roberts, J.D. & Maxson, L.R. 1989. A molecular perspective on relationships of Australian Pseudophryne (Anura: Myobatrachidae). Syst. Zool. 38: 154165.
  • Roelants, K., Gower, D.J., Wilkinson, M., Loader, S.P., Biju, S.D., Guillaume, K., Moriau, L. & Bossuyt, F. 2007. Global patterns of diversification in the history of modern amphibians. Proc. Natl Acad. Sci. USA 104: 887892.
  • Rohlf, F.J. 1990. Rotational fit (Procrustes) methods. In: Proceedings of the Michigan Morphometrics Workshop (F.J.Rohlf & F.L.Bookstein, eds), pp. 227236. University of Michigan Museum of Zoology, Ann Arbor, MI.
  • SAS Institute. 1990. SAS STAT User’s Guide. SAS Institute, Cary, NC.
  • Schäuble, C.S., Moritz, C. & Slade, R.W. 2000. A molecular phylogeny for the frog genus Limnodynastes (Anura: Myobatrachidae). Mol. Phylogenet. Evol. 16: 379391.
  • Schluter, D. 2000. The Ecology of Adaptive Radiation. Oxford University Press, Oxford.
  • Schneider, D.W. 1997. Predation and food web structure along a habitat duration gradient. Oecologia 110: 567575.
  • Seale, D.B. & Wassersug, R.J. 1979. Suspension feeding dynamics of anuran larvae related to their functional morphology. Oecologia 39: 259272.
  • Sheets, H.D. 2004. Morphometrics Software: IMP, Integrated Morphometrics Package; available at: http://www3.canisius.edu/~sheets/morphsoft.html.
  • Skelly, D.K. 2001. Distributions of pond-breeding anurans: an overview of mechanisms. Israel J. Zool. 47: 313332.
  • Smith, D.C. & Van Buskirk, J. 1995. Phenotypic design, plasticity, and ecological performance in two tadpole species. Am. Nat. 145: 211233.
  • Tilman, D. & Wedin, D. 1991. Plant traits and resource reduction for five grasses growing on a nitrogen gradient. Ecology 72: 685700.
  • Tyler, M.J. 1994. Australian Frogs: A Natural History. Reed Books, Sydney.
  • Van Buskirk, J. 2002. A comparative test of the adaptive plasticity hypothesis: relationships between habitat and phenotype in anuran larvae. Am. Nat. 160: 87102.
  • Van Buskirk, J. 2005. Local and landscape influence on amphibian occurrence and abundance. Ecology 86: 19361947.
  • Van Buskirk, J. & McCollum, S.A. 2000. Functional mechanisms of an inducible defense in tadpoles: morphology and behavior influence mortality risk from predation. J. Evol. Biol. 13: 336347.
  • Van Buskirk, J., Anderwald, P., Lüpold, S., Reinhardt, L. & Schuler, H. 2003. The lure effect, tadpole tail shape, and the target of dragonfly strikes. J. Herp. 37: 192196.
  • Vera Candioti, M.F. 2005. Morphology and feeding in tadpoles of Ceratophrys cranwelli (Anura: Leptodactylidae). Acta Zool. 86: 111.
  • Vera Candioti, M.F. 2007. Anatomy of anuran tadpoles from lentic water bodies: systematic relevance and correlation with feeding habits. Zootaxa 1600: 3175.
  • Wassersug, R.J. 1989. Locomotion in amphibian larvae (or why aren’t tadpoles built like fishes). Am. Zool. 29: 6584.
  • Wassersug, R.J. & Heyer, W.R. 1983. Morphological correlates of subaerial existence in leptodactylid tadpoles associated with flowing water. Can. J. Zool. 61: 761769.
  • Wassersug, R.J. & Yamashita, M. 2001. Plasticity and constraints on feeding kinematics in anuran larvae. Comp. Bioch. Phys. A 131: 183195.
  • Wellborn, G.A. 2002. Trade-off between competitive ability and antipredator adaptation in a freshwater amphipod species complex. Ecology 83: 129136.
  • Wellborn, G.A., Skelly, D.K. & Werner, E.E. 1996. Mechanisms creating community structure across a freshwater habitat gradient. Annu. Rev. Ecol. Syst. 27: 337363.
  • Werner, E.E. & Anholt, B.R. 1993. Ecological consequences of the tradeoff between growth and mortality rates mediated by foraging activity. Am. Nat. 142: 242272.
  • Werner, E.E. & McPeek, M.A. 1994. Direct and indirect effects of predators on two anuran species along an environmental gradient. Ecology 75: 13681382.
  • Werner, E.E., Skelly, D.K., Relyea, R.A. & Yurewicz, K.L. 2007. Amphibian species richness across environmental gradients. Oikos 116: 16971712.
  • Whittaker, R.H., Levin, S.A. & Root, R.B. 1973. Niche, habitat, and ecotype. Am. Nat. 107: 321338.
  • Wissinger, S.A., Whiteman, H.H., Sparks, G.B., Rouse, G.L. & Brown, W.S. 1999. Foraging trade-offs along a predator-permanence gradient in subalpine wetlands. Ecology 80: 21022116.
  • Woodward, B.D. 1983. Predator-prey interactions and breeding-pond use of temporary-pond species in a desert anuran community. Ecology 64: 15491555.
  • Zelditch, M.L., Swiderski, D.L., Sheets, H.D. & Fink, W.L. 2004. Geometric Morphometrics for Biologists. Elsevier, New York.