Contents 1 History 2 Emergent properties 3 Areas of research 4 Techniques 5 Funding and societies 6 Some journals that frequently publish articles in evolutionary physiology 7 See also 8 References 9 External links

History[edit] As the name implies, evolutionary physiology is the product of what was at one time two distinct scientific disciplines. According to Garland and Carter,[1] evolutionary physiology arose in the late 1970s, following debates concerning the metabolic and thermoregulatory status of dinosaurs (see physiology of dinosaurs) and mammal-like reptiles. This period was followed by attempts in the early 1980s to integrate quantitative genetics into evolutionary biology, which had spill-over effects on other fields, such as behavioral ecology and ecophysiology. In the mid- to late-1980s, phylogenetic comparative methods started to become popular in many fields, including physiological ecology and comparative physiology. A 1987 volume titled "New Directions in Ecological Physiology"[5] had little ecology[6] but a considerable emphasis on evolutionary topics. It generated vigorous debate, and within a few years the National Science Foundation had developed a panel titled Ecological and Evolutionary Physiology. Shortly thereafter, selection experiments and experimental evolution became increasingly common in evolutionary physiology. Macrophysiology has emerged as a subdiscipline, in which practitioners attempt to identify large-scale patterns in physiological traits (e.g., patterns of covariation with latitude) and their ecological implications.[7] [8] [9] More recently, the importance of a merger of evolutionary biology and physiology has been argued from the perspective of functional analyses, epigenetics, and an extended evolutionary synthesis.[10] The growth of evolutionary physiology is also reflected by the emergence of subdisciplines, such as evolutionary endocrinology,[11][12] which addresses such hybrid questions as "What are the most common endocrine mechanisms that respond to selection on behavior or life-history traits?"[13]

Emergent properties[edit] As a hybrid scientific discipline, evolutionary physiology provides some unique perspectives. For example, an understanding of physiological mechanisms can help in determining whether a particular pattern of phenotypic variation or covariation (such as an allometric relationship) represents what could possibly exist or just what selection has allowed.[1] Similarly, a thorough knowledge of physiological mechanisms can greatly enhance understanding of possible reasons for evolutionary correlations and constraints than is possible for many of the traits typically studied by evolutionary biologists (such as morphology).

Areas of research[edit] Important areas of current research include: Organismal performance as a central phenotype (e.g., measures of speed or stamina in animal locomotion) Role of behavior in physiological evolution Physiological and endocrinological basis of variation in life history traits (e.g., clutch size) Functional significance of molecular evolution Extent to which species differences are adaptive Physiological underpinnings of limits to geographic ranges Geographic variation in physiology[14] Role of sexual selection in shaping physiological evolution Magnitude of "phylogenetic signal" in physiological traits Role of pathogens and parasites in physiological evolution and immunity Application of optimality modeling to elucidate the degree of adaptation Role of phenotypic plasticity in accounting for individual, population, and species differences[15] Mechanistic basis of trade-offs and constraints on evolution (e.g., putative Carrier's constraint on running and breathing) Limits on sustained metabolic rate Origin of allometric scaling relations or allometric laws (and the so-called metabolic theory of ecology) Individual variation (see also Individual differences psychology) Functional significance of biochemical polymorphisms Analysis of physiological variation via quantitative genetics Paleophysiology and the evolution of endothermy Human adaptational physiology Darwinian medicine Evolution of dietary antioxidants

Techniques[edit] Artificial selection and experimental evolution [16] mouse wheel running video Genetic analyses and manipulations[1] Measurement of selection in the wild [17] Phenotypic plasticity and manipulation[1] Phylogenetically based comparisons[18] Doubly labeled water measurements of free-living energy demands of animals

Funding and societies[edit] In the United States, research in evolutionary physiology is funded mainly by the National Science Foundation. A number of scientific societies feature sections that encompass evolutionary physiology, including: American Physiological Society "integrating the life sciences from molecule to organism" Society for Integrative and Comparative Biology Society for Experimental Biology

Some journals that frequently publish articles in evolutionary physiology[edit] American Naturalist Comparative Biochemistry and Physiology Comprehensive Physiology Ecology Evolution Functional Ecology Integrative and Comparative Biology Journal of Comparative Physiology Journal of Evolutionary Biochemistry and Physiology Journal of Experimental Biology Physiological and Biochemical Zoology

See also[edit] Allometry Allometric law Beneficial acclimation hypothesis Comparative physiology Darwinian medicine Field metabolic rate Ecophysiology Evolutionary neuroscience Evolutionary psychology Experimental evolution Human physiology I. M. Sechenov Institute of Evolutionary Physiology and Biochemistry Kleiber's law Krogh Principle John Speakman Leon Orbeli Life history theory List of physiologists Metabolic theory of ecology Peter Hochachka Phenotypic plasticity Phylogenetic comparative methods Physiology Physiology of dinosaurs Raymond B. Huey Theodore Garland, Jr. Thrifty phenotype

References[edit] ^ a b c d e Garland, T., Jr.; P. A. Carter (1994). "Evolutionary physiology" (PDF). Annual Review of Physiology. 56: 579–621. doi:10.1146/ PMID 8010752.  ^ Arnold, S. J. (1983). "Morphology, performance and fitness" (PDF). American Zoologist. 23: 347–361. doi:10.1093/icb/23.2.347.  ^ Careau, V. C.; T. Garland, Jr. (2012). "Performance, personality, and energetics: correlation, causation, and mechanism" (PDF). Physiological and Biochemical Zoology. 85: 543–571. doi:10.1086/666970. PMID 23099454.  ^ Lovegrove, B. G. (2006). "The power of fitness in mammals: perceptions from the African slipstream". Physiological and Biochemical Zoology. 79: 224–236. doi:10.1086/499994.  ^ Feder, M. E.; A. F. Bennett; W. W. Burggren; R. B. Huey, eds. (1987). New directions in ecological physiology. New York: Cambridge Univ. Press. ISBN 0-521-34938-9.  ^ Kingsolver, J. G (1988). "Evolutionary physiology: Where's the ecology? A review of New Directions in Ecological physiology, Feder et al. 1987". Ecology. 69: 1644. doi:10.2307/1941674.  ^ Chown, S. L.; K. J. Gaston; D. Robinson (2004). "Macrophysiology: large-scale patterns in physiological traits and their ecological implications". Functional Ecology. 18 (2): 159–167. doi:10.1111/j.0269-8463.2004.00825.x.  ^ Gaston, K. J.; Chown, S. L.; Calosi, P.; Bernardo, J.; Bilton, D. T.; Clarke, A.; Clusella-Trullas, S.; Ghalambor, C. K.; Konarzewski, M.; Peck, L. S.; Porter, W. P.; Pörtner, H. O.; Rezende, E. L.; Schulte, P. M.; Spicer, J. I.; Stillman, J. H.; Terblanche, J. S.; van Kleunen, M. (2009). "Macrophysiology: a conceptual reunification". The American Naturalist. 174: 595–612. doi:10.1086/605982.  ^ Chown, S. L.; Gaston, K. J. (2015). "Macrophysiology - progress and prospects". Functional Ecology. 30: 330–344. doi:10.1111/1365-2435.12510.  ^ Noble, D.; Jablonka, E.; Joyner, M. J.; Müller, G. B.; Omholt, S. W. (2014). "Evolution evolves: physiology returns to centre stage". The Journal of Physiology. 592: 2237–2244. doi:10.1113/jphysiol.2014.273151. PMC 4048083 . PMID 24882808.  ^ Zera, A. J.; Harshman, L. G.; Williams, T. D. (2007). "Evolutionary endocrinology: the developing synthesis between endocrinology and evolutionary genetics". Annual Review of Ecology, Evolution, and Systematics. 38: 793–817. doi:10.1146/annurev.ecolsys.38.091206.095615.  ^ Cox, R. M.; McGlothlin, J. W.; Bonier, F. (2016). "Hormones as mediators of phenotypic and genetic integration: an evolutionary genetics approach". Integrative and Comparative Biology. 56: 126–137. doi:10.1093/icb/icw033.  ^ Garland Jr, T.; Zhao, M.; Saltzman, W. (2016). "Hormones and the evolution of complex traits: insights from artificial selection on behavior". Integrative and Comparative Biology. 56: 207–224. doi:10.1093/icb/icw040.  ^ Garland, T., Jr.; S. C. Adolph (1991). "Physiological differentiation of vertebrate populations" (PDF). Annual Review of Ecology and Systematics. 22: 193–228. doi:10.1146/annurev.ecolsys.22.1.193.  ^ Kelly, S. A.; T. Panhuis; A. Stoehr (2012). "Phenotypic plasticity: molecular mechanisms and adaptive significance". Comprehensive Physiology. 2: 1417–1439. doi:10.1002/cphy.c110008.  ^ Bennett, A. F.; R. E. Lenski (1999). "Experimental evolution and its role in evolutionary physiology" (PDF). American Zoologist. 39 (2): 346–362. doi:10.1093/icb/39.2.346.  ^ Irschick, D. J.; J. J. Meyers; J. F. Husak; J.-F. Le Galliard (2008). "How does selection operate on whole-organism functional performance capacities? A review and synthesis" (PDF). Evolutionary Ecology Research. 10: 177–196. CiteSeerX . ISSN 0003-1569.  ^ Garland, T., Jr.; A. F. Bennett; E. L. Rezende (2005). "Phylogenetic approaches in comparative physiology" (PDF). Journal of Experimental Biology. 208 (Pt 16): 3015–3035. doi:10.1242/jeb.01745. PMID 16081601. 

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