Variation in field body temperature and total evaporative water loss along an environmental gradient in a diurnal ectotherm

The maintenance of optimal body temperatures has profound consequences on all aspects of ectotherms life history, like fitness and performance, and has been the subject of research for decades. In contrast, for reptiles, comparatively less is known on the potential effects of water balance on physio...

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Published in	Journal of zoology (1987) Vol. 310; no. 3; pp. 221 - 231
Main Authors	Sannolo, M., Civantos, E., Martín, J., Carretero, M.A.
Format	Journal Article
Language	English
Published	London Blackwell Publishing Ltd 01.03.2020
Subjects	Body temperature Diurnal Ecological effects Ecological monitoring Ectoparasites ectotherm Elevation Environmental gradient evaporative water loss Life history Lizards microclimate Populations Psammodromus algirus Reptiles thermal ecology Thermoregulation Variation Water balance Water loss Water temperature
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Abstract	The maintenance of optimal body temperatures has profound consequences on all aspects of ectotherms life history, like fitness and performance, and has been the subject of research for decades. In contrast, for reptiles, comparatively less is known on the potential effects of water balance on physiology, ecology and behaviour. In recent years, several recent studies are pointing out the importance of studying thermoregulation and water balance within the same framework. Here, we used a Mediterranean lizard, Psammodromus algirus, to investigate how field body temperature and water loss rates may vary among populations, between sexes and along an altitudinal gradient. We found little variation in field body temperatures among populations, while within each population, field body temperature may change daily, seasonally and differ between sexes. On the contrary, water loss rates decreased with elevation and showed no seasonal trend or difference between sexes. Microclimatic data indicated that highland lizards experienced more fluctuating conditions, a factor that may explain their lower water loss rates. Other factors, like inter‐population differences in ectoparasite intensity, might also contribute in explaining the observed patterns. We present here the first data for a lacertid lizard on the inter‐population variability and sexual difference in water loss rates and point out that water balance may play a fundamental role in regulating lizard activity during the hottest and driest period of the year. We investigated how field body temperature and water loss rates may vary among populations, between sexes and along an altitudinal gradient in a lizard. We did not find variation in field body temperatures among populations, while within each population field body temperature may change daily, seasonally and differ between sexes. Instead, water loss rates decreased with elevation and showed no seasonal trend or difference between sexes. Highland lizards experienced more fluctuating conditions, which may explain their lower water loss rates. We present the first data for a lacertid lizard on the inter‐population variability and sexual difference in water loss rates. Hence, water balance may play a fundamental role in regulating lizard activity during the hottest and driest period of the year.
AbstractList	The maintenance of optimal body temperatures has profound consequences on all aspects of ectotherms life history, like fitness and performance, and has been the subject of research for decades. In contrast, for reptiles, comparatively less is known on the potential effects of water balance on physiology, ecology and behaviour. In recent years, several recent studies are pointing out the importance of studying thermoregulation and water balance within the same framework. Here, we used a Mediterranean lizard, Psammodromus algirus, to investigate how field body temperature and water loss rates may vary among populations, between sexes and along an altitudinal gradient. We found little variation in field body temperatures among populations, while within each population, field body temperature may change daily, seasonally and differ between sexes. On the contrary, water loss rates decreased with elevation and showed no seasonal trend or difference between sexes. Microclimatic data indicated that highland lizards experienced more fluctuating conditions, a factor that may explain their lower water loss rates. Other factors, like inter‐population differences in ectoparasite intensity, might also contribute in explaining the observed patterns. We present here the first data for a lacertid lizard on the inter‐population variability and sexual difference in water loss rates and point out that water balance may play a fundamental role in regulating lizard activity during the hottest and driest period of the year. The maintenance of optimal body temperatures has profound consequences on all aspects of ectotherms life history, like fitness and performance, and has been the subject of research for decades. In contrast, for reptiles, comparatively less is known on the potential effects of water balance on physiology, ecology and behaviour. In recent years, several recent studies are pointing out the importance of studying thermoregulation and water balance within the same framework. Here, we used a Mediterranean lizard, Psammodromus algirus , to investigate how field body temperature and water loss rates may vary among populations, between sexes and along an altitudinal gradient. We found little variation in field body temperatures among populations, while within each population, field body temperature may change daily, seasonally and differ between sexes. On the contrary, water loss rates decreased with elevation and showed no seasonal trend or difference between sexes. Microclimatic data indicated that highland lizards experienced more fluctuating conditions, a factor that may explain their lower water loss rates. Other factors, like inter‐population differences in ectoparasite intensity, might also contribute in explaining the observed patterns. We present here the first data for a lacertid lizard on the inter‐population variability and sexual difference in water loss rates and point out that water balance may play a fundamental role in regulating lizard activity during the hottest and driest period of the year. The maintenance of optimal body temperatures has profound consequences on all aspects of ectotherms life history, like fitness and performance, and has been the subject of research for decades. In contrast, for reptiles, comparatively less is known on the potential effects of water balance on physiology, ecology and behaviour. In recent years, several recent studies are pointing out the importance of studying thermoregulation and water balance within the same framework. Here, we used a Mediterranean lizard, Psammodromus algirus, to investigate how field body temperature and water loss rates may vary among populations, between sexes and along an altitudinal gradient. We found little variation in field body temperatures among populations, while within each population, field body temperature may change daily, seasonally and differ between sexes. On the contrary, water loss rates decreased with elevation and showed no seasonal trend or difference between sexes. Microclimatic data indicated that highland lizards experienced more fluctuating conditions, a factor that may explain their lower water loss rates. Other factors, like inter‐population differences in ectoparasite intensity, might also contribute in explaining the observed patterns. We present here the first data for a lacertid lizard on the inter‐population variability and sexual difference in water loss rates and point out that water balance may play a fundamental role in regulating lizard activity during the hottest and driest period of the year. We investigated how field body temperature and water loss rates may vary among populations, between sexes and along an altitudinal gradient in a lizard. We did not find variation in field body temperatures among populations, while within each population field body temperature may change daily, seasonally and differ between sexes. Instead, water loss rates decreased with elevation and showed no seasonal trend or difference between sexes. Highland lizards experienced more fluctuating conditions, which may explain their lower water loss rates. We present the first data for a lacertid lizard on the inter‐population variability and sexual difference in water loss rates. Hence, water balance may play a fundamental role in regulating lizard activity during the hottest and driest period of the year.
Author	Civantos, E. Martín, J. Sannolo, M. Carretero, M.A.
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Snippet	The maintenance of optimal body temperatures has profound consequences on all aspects of ectotherms life history, like fitness and performance, and has been...
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SubjectTerms	Body temperature Diurnal Ecological effects Ecological monitoring Ectoparasites ectotherm Elevation Environmental gradient evaporative water loss Life history Lizards microclimate Populations Psammodromus algirus Reptiles thermal ecology Thermoregulation Variation Water balance Water loss Water temperature
Title	Variation in field body temperature and total evaporative water loss along an environmental gradient in a diurnal ectotherm
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