Add to ORKGExternal conditions can drive biological rates in ectotherms by directly influencing body temperatures. While estimating the temperature dependence of performance traits such as growth and development rate is feasible under controlled laboratory settings, predictions in nature are difficult. One major challenge lies in translating performance under constant conditions to fluctuating environments. Using the butterfly Pieris napi as model system, we show that development rate, an important fitness trait, can be accurately predicted in the field using models parameterized under constant laboratory temperatures. Additionally, using a factorial design, we show that accurate predictions can be made across microhabitats but critically hinge on ade...
Widespread species often show geographic variation in thermally-sensitive traits, providing insight ...
Temperature has profound effects on biochemical processes as suggested by the extensive variation in...
<div><p>Widespread species often show geographic variation in thermally-sensitive traits, providing ...
External conditions can drive biological rates in ectotherms by directly influencing body temperatur...
Nature is variable. Unfortunately, compressed representations of this variable world, like averages,...
In ectotherms there is typically a strong and positive correlation between growth rate and ambient t...
Organisms are able to respond to their changing environment, and the extent of the response is thoug...
International audienceThe impact of warming on the persistence and distribution of ectotherms is oft...
Although fast growth seems to be generally favored by natural selection, growth rates are rarely max...
Although fast growth seems to be generally favored by natural selection, growth rates are rarely max...
This dataset is a compilation of lepidopteran development and survival rates measured at constant te...
Using a combination of computer simulations and laboratory experiments we test if the thermal sensit...
Using a combination of computer simulations and laboratory experiments we test if the thermal sensit...
<div><p>Development time is a critical life-history trait that has profound effects on organism fitn...
Using a combination of computer simulations and laboratory experiments we test if the thermal sensit...
Widespread species often show geographic variation in thermally-sensitive traits, providing insight ...
Temperature has profound effects on biochemical processes as suggested by the extensive variation in...
<div><p>Widespread species often show geographic variation in thermally-sensitive traits, providing ...
External conditions can drive biological rates in ectotherms by directly influencing body temperatur...
Nature is variable. Unfortunately, compressed representations of this variable world, like averages,...
In ectotherms there is typically a strong and positive correlation between growth rate and ambient t...
Organisms are able to respond to their changing environment, and the extent of the response is thoug...
International audienceThe impact of warming on the persistence and distribution of ectotherms is oft...
Although fast growth seems to be generally favored by natural selection, growth rates are rarely max...
Although fast growth seems to be generally favored by natural selection, growth rates are rarely max...
This dataset is a compilation of lepidopteran development and survival rates measured at constant te...
Using a combination of computer simulations and laboratory experiments we test if the thermal sensit...
Using a combination of computer simulations and laboratory experiments we test if the thermal sensit...
<div><p>Development time is a critical life-history trait that has profound effects on organism fitn...
Using a combination of computer simulations and laboratory experiments we test if the thermal sensit...
Widespread species often show geographic variation in thermally-sensitive traits, providing insight ...
Temperature has profound effects on biochemical processes as suggested by the extensive variation in...
<div><p>Widespread species often show geographic variation in thermally-sensitive traits, providing ...
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