Temperature, growth rate, and body size in ectotherms: Fitting pieces of a life-history puzzle

Michael J. Angilletta, Todd D. Steury, Michael W. Sears

Research output: Contribution to journalArticlepeer-review

564 Scopus citations

Abstract

The majority of ectotherms grow slower but mature at a larger body size in colder environments. This phenomenon has puzzled biologists because classic theories of life-history evolution predict smaller sizes at maturity in environments that retard growth. During the last decade, intensive theoretical and empirical research has generated some plausible explanations based on nonadaptive or adaptive plasticity. Nonadaptive plasticity of body size is hypothesized to result from thermal constraints on cellular growth that cause smaller cells at higher temperatures, but the generality of this theory is poorly supported. Adaptive plasticity is hypothesized to result from greater benefits or lesser costs of delayed maturation in colder environments. These theories seem to apply well to some species but not others. Thus, no single theory has been able to explain the generality of temperature-size relationships in ectotherms. We recommend a multivariate theory that focuses on the coevolution of thermal reaction norms for growth rate and size at maturity. Such a theory should incorporate functional constraints on thermal reaction norms, as well as the natural covariation between temperature and other environmental variables.

Original languageEnglish (US)
Pages (from-to)498-509
Number of pages12
JournalIntegrative and comparative biology
Volume44
Issue number6
DOIs
StatePublished - Dec 2004
Externally publishedYes

ASJC Scopus subject areas

  • Animal Science and Zoology
  • Plant Science

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