Water relations of tetrapod integument

doi:10.1242/jeb.02007

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First published online January 3, 2006
Journal of Experimental Biology 209, 202-226 (2006)
Published by The Company of Biologists 2006
doi: 10.1242/jeb.02007

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Review

Water relations of tetrapod integument

Harvey B. Lillywhite^*

Department of Zoology, University of Florida, Gainesville, FL 32611-8525, USA

^* Author for correspondence (e-mail: hbl{at}zoo.ufl.edu)

Accepted 17 November 2005

The vertebrate integument represents an evolutionary compromisebetween the needs for mechanical protection and those of sensingthe environment and regulating the exchange of materials andenergy. Fibrous keratins evolved as a means of strengtheningthe integument while simultaneously providing a structural supportfor lipids, which comprise the principal barrier to cutaneouswater efflux in terrestrial taxa. Whereas lipids are of fundamental importanceto water barriers, the efficacy of these barriers depends inmany cases on structural features that enhance or maintain theintegrity of function. Amphibians are exceptional among tetrapodsin having very little keratin and a thin stratum corneum. Thus,effective lipid barriers that are present in some specializedanurans living in xeric habitats are external to the epidermis,whereas lipid barriers of amniotes exist as a lipid-keratin complexwithin the stratum corneum. Amphibians prevent desiccation ofthe epidermis and underlying tissues either by evaporating waterfrom a superficial aqueous film, which must be replenished,or by shielding the stratum corneum with superficial lipids.Water barrier function in vertebrates generally appears to berelatively fixed, although various species have `plasticity'to adjust the barrier effectiveness facultatively. While itis clear that both phenotypic plasticity and genetic adaptationcan account for covariation between environment and skin resistanceto water efflux, studies of the relative importance of thesetwo phenomena are few. Fundamental mechanisms for adjustingthe skin water barrier include changes in barrier thickness,composition and physicochemical properties of cutaneous lipids, and/orgeometry of the barrier within the epidermis. While cutaneouslipids have been studied extensively in the contexts of diseaseand cosmetics, relatively little is known about the processesof permeability barrier ontogenesis related to adaptation andenvironment. Advances in such knowledge have didactic significancefor understanding vertebrate evolution as well as practicalapplication to clinical dermatology.

Key words: skin, vertebrate, permeability, lipids, evaporative water loss, phenotypic plasticity

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