Abstract Background Ectothermic animals living in cold (high latitude or high elevation) regions are predicted to grow slower due to limited thermal opportunities for activity and food resources than those living in warm regions. However, the Qinghai toad-headed lizards (Phrynocephalus vlangalii) grow faster and reach a larger adult size at a high-elevation site than at a low-elevation site. In this study, we aimed to identify the genetic and environmental causes of this between-population difference in growth rate by conducting mark-recapture and common garden experiments on juvenile growth rate, and investigating the thermal environment, lizard body temperature, potential prey availability at the two elevation sites. Results Compared with...
The body growth rate in small reptiles is modulated by per-capita food resources and recent evidence...
The critical thermal limits of organisms and the thermal sensitivity of their performance tend to va...
International audienceWarming climates are facilitating the range expansion of many taxa to habitats...
Body size is directly linked to key life history traits such as growth, fecundity, and survivorship....
Growth rates of ectotherms are frequently affected by environmental conditions, such as temperature,...
Geographically widespread species often exhibit variation in life history traits that are a result o...
The evolution of body size within and among species is predicted to be influenced by multifarious en...
The fence lizard, Sceloporus undulatus, provides a unique opportunity to investigate the causes of p...
Population studies on the high altitude lizard Sceloporus grammicus were conducted using mark-recapt...
In response to a warming climate, many montane species are shifting upslope to track the emergence o...
In response to a warming climate, many montane species are shifting upslope to track the emergence o...
ABSTRACT. We examined elevational and environmental aspects of body size variation in the Qinghai to...
Growth in the lizard Sceloporus grammicus living at two altitudes on the Iztaccihuatl Volcano, Puebl...
Populations should adapt to the climate at their respective localities. Here, we examined difference...
The thermal requirements of ectotherms may vary among species due to adaptation to different thermal...
The body growth rate in small reptiles is modulated by per-capita food resources and recent evidence...
The critical thermal limits of organisms and the thermal sensitivity of their performance tend to va...
International audienceWarming climates are facilitating the range expansion of many taxa to habitats...
Body size is directly linked to key life history traits such as growth, fecundity, and survivorship....
Growth rates of ectotherms are frequently affected by environmental conditions, such as temperature,...
Geographically widespread species often exhibit variation in life history traits that are a result o...
The evolution of body size within and among species is predicted to be influenced by multifarious en...
The fence lizard, Sceloporus undulatus, provides a unique opportunity to investigate the causes of p...
Population studies on the high altitude lizard Sceloporus grammicus were conducted using mark-recapt...
In response to a warming climate, many montane species are shifting upslope to track the emergence o...
In response to a warming climate, many montane species are shifting upslope to track the emergence o...
ABSTRACT. We examined elevational and environmental aspects of body size variation in the Qinghai to...
Growth in the lizard Sceloporus grammicus living at two altitudes on the Iztaccihuatl Volcano, Puebl...
Populations should adapt to the climate at their respective localities. Here, we examined difference...
The thermal requirements of ectotherms may vary among species due to adaptation to different thermal...
The body growth rate in small reptiles is modulated by per-capita food resources and recent evidence...
The critical thermal limits of organisms and the thermal sensitivity of their performance tend to va...
International audienceWarming climates are facilitating the range expansion of many taxa to habitats...