Journal
CANADIAN JOURNAL OF ZOOLOGY
Volume 92, Issue 1, Pages 81-86Publisher
CANADIAN SCIENCE PUBLISHING
DOI: 10.1139/cjz-2013-0189
Keywords
thermoregulation; evaporative water loss; microhabitat selection; parapatry; Vipera aspis; Vipera berus
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Funding
- French National Research Agency (ECTOCLIM project)
- Programme operationnel pluriregional Loire, Fonds Europeen de Developpement Regional [PRESAGE 30810]
- Etablissement Public Loire
- Parc Naturel Regional de Millevaches en Limousin
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Terrestrial ectotherms predominantly use behavioural means to thermoregulate and thereby optimize performances. However, thermoregulation can impart physiological challenges to other critical processes such as water balance by increasing evaporative water loss (EWL). Like thermoregulation, water balance is influenced by both external factors (e. g., microhabitat and environmental constraints) and endogenous traits (e. g., evaporative water loss rates, dehydration tolerance). Although thermoregulation and water balance are tightly linked, the role of water balance is often overlooked when evaluating species climatic adaptation and response to global warming. We studied two congeneric viperid species (the Aspic Viper, Vipera aspis (L., 1758), and the Common Viper, Vipera berus (L., 1758)) with contrasted climatic affinities (south European versus boreal, respectively). These parapatric species are syntopic in narrow contact zones where microhabitat partitioning has been reported. We compared total EWL and cutaneous evaporative water loss (CEWL) of the two species and monitored the thermal and hydric conditions of the microhabitats used in syntopic populations. We found that the boreal V. berus has greater EWL, both total and cutaneous. Accordingly, this species selected more humid microhabitats throughout the year. Humidity appears to be an important determinant of habitat selection, and therefore, V. berus is likely vulnerable to changing precipitation at the southern limit of its distribution.
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