Add to ORKGField observations indicated a difference in the ability to locomote at low body temperatures in two closely related species of lizards from very different habitats and with radically different seasonal behavior. I measured the critical thermal minimum (the body temperature at which a cooling lizard just loses the ability to right itself) in both species. The winter-active, montane Sceloporus jarrovi had a significantly lower critical thermal minimum in both summer and winter than the winter-hibernating, lowland S. magister. Critical thermal minima were significantly lower in winter than in summer for both species. To determine a physiological basis for these differences, I examined the activity of myosin ATPase, which plays the limiting ro...
The mechanisms that mediate the interaction between the thermal environment and species' ranges are ...
Environmental variability occurring at different timescales can significantly reduce performance, re...
Sprint velocity of the lizard Sceloporus occidentalis was maximal at preferred body temperature (Tb,...
Extended periods of skeletal muscle disuse can cause a significant loss of contractile proteins, whi...
Temperature affects all organisms differently. Physiological processes, such as metabolism, interact...
The fence lizard, Sceloporus undulatus, provides a unique opportunity to investigate the causes of p...
Summary. This study was undertaken to investi-gate thermal adaptations in muscle contractile propert...
Abstract: Simple Summary The ability of animals to maintain their body temperature within an optimal...
We investigated the thermoregulatory abilities and behavior of Pseudocordylus melanotus melanotus (D...
The frillneck lizard, Chlamydosaurus kingii, is a conspicuous component of the fauna of the wetdry t...
Characterization of metabolic rate is critical to constructing daily and seasonal energy budgets, co...
Daily and seasonal fluctuations in the environmental temperature pose a challenge to ectotherms as t...
In environments where the temperature periodically drops below zero, it is remarkable that some liza...
Oxygen consumption rate was measured continuously in young tegu lizards Tupinambis merianae exposed ...
The mechanisms that mediate the interaction between the thermal environment and species ranges are g...
The mechanisms that mediate the interaction between the thermal environment and species' ranges are ...
Environmental variability occurring at different timescales can significantly reduce performance, re...
Sprint velocity of the lizard Sceloporus occidentalis was maximal at preferred body temperature (Tb,...
Extended periods of skeletal muscle disuse can cause a significant loss of contractile proteins, whi...
Temperature affects all organisms differently. Physiological processes, such as metabolism, interact...
The fence lizard, Sceloporus undulatus, provides a unique opportunity to investigate the causes of p...
Summary. This study was undertaken to investi-gate thermal adaptations in muscle contractile propert...
Abstract: Simple Summary The ability of animals to maintain their body temperature within an optimal...
We investigated the thermoregulatory abilities and behavior of Pseudocordylus melanotus melanotus (D...
The frillneck lizard, Chlamydosaurus kingii, is a conspicuous component of the fauna of the wetdry t...
Characterization of metabolic rate is critical to constructing daily and seasonal energy budgets, co...
Daily and seasonal fluctuations in the environmental temperature pose a challenge to ectotherms as t...
In environments where the temperature periodically drops below zero, it is remarkable that some liza...
Oxygen consumption rate was measured continuously in young tegu lizards Tupinambis merianae exposed ...
The mechanisms that mediate the interaction between the thermal environment and species ranges are g...
The mechanisms that mediate the interaction between the thermal environment and species' ranges are ...
Environmental variability occurring at different timescales can significantly reduce performance, re...
Sprint velocity of the lizard Sceloporus occidentalis was maximal at preferred body temperature (Tb,...