Add to ORKGBackground: Global warming has been frequently demonstrated to increase growth rate in larval amphibians that have considerable phenotypic plasticity; this may lead to an increase in larval survival because large larvae are less likely to be captured by gape-limited predators. This study is to test whether warming could improve tadpole growth and thereby enhance the tadpole survival in plateau frog Rana kukunoris. Methodology: We conducted an experiment involving growing tadpoles under two contrasting temperatures, i.e. ambient temperature vs. warming by 3.8uC, with and without their major predators – the gape-limited predaceous diving beetles Agabus sp. in eastern Tibetan Plateau, in a factorial arrangement. We recorded the survival and me...
Ectotherms are vulnerable to climate change, given their dependence on temperature, and amphibians a...
Growth rate, like any other trait, should be under balancing selection in natural populations, with ...
Due to the speed of climate changes, rapid buffering mechanisms such as phenotypic plasticity – whic...
Background: Global warming has been frequently demonstrated to increase growth rate in larval amphib...
<div><p>Background</p><p>Global warming has been frequently demonstrated to increase growth rate in ...
Global warming may induce significant changes in species life history traits particularly in amphibi...
Understanding how temperature affects amphibian populations is fundamental to predict the consequenc...
Amphibians face a variety of anthropogenic environmental perturbations that could act alone or in co...
The larvae of some amphibian species grow and develop more slowly at lower temperature and attain la...
Organisms living in extreme environments, such as amphibians inhabiting the Tibetan plateau, are fac...
One of the consequences of recent anthropogenic-induced climate change is increased climate variabil...
Climate change induced phenological variation in amphibians can disrupt time-sensitive processes suc...
This project seeks to analyze how predicted changes in climate and its interactions with other envir...
The key for the long-term survival of species is their potential to respond to changing conditions. ...
Human activity can result in both local and global changes in the environment which in turn can affe...
Ectotherms are vulnerable to climate change, given their dependence on temperature, and amphibians a...
Growth rate, like any other trait, should be under balancing selection in natural populations, with ...
Due to the speed of climate changes, rapid buffering mechanisms such as phenotypic plasticity – whic...
Background: Global warming has been frequently demonstrated to increase growth rate in larval amphib...
<div><p>Background</p><p>Global warming has been frequently demonstrated to increase growth rate in ...
Global warming may induce significant changes in species life history traits particularly in amphibi...
Understanding how temperature affects amphibian populations is fundamental to predict the consequenc...
Amphibians face a variety of anthropogenic environmental perturbations that could act alone or in co...
The larvae of some amphibian species grow and develop more slowly at lower temperature and attain la...
Organisms living in extreme environments, such as amphibians inhabiting the Tibetan plateau, are fac...
One of the consequences of recent anthropogenic-induced climate change is increased climate variabil...
Climate change induced phenological variation in amphibians can disrupt time-sensitive processes suc...
This project seeks to analyze how predicted changes in climate and its interactions with other envir...
The key for the long-term survival of species is their potential to respond to changing conditions. ...
Human activity can result in both local and global changes in the environment which in turn can affe...
Ectotherms are vulnerable to climate change, given their dependence on temperature, and amphibians a...
Growth rate, like any other trait, should be under balancing selection in natural populations, with ...
Due to the speed of climate changes, rapid buffering mechanisms such as phenotypic plasticity – whic...