Terrestrial isopods have evolved adaptations to reduce water loss, which is necessary for life in low humidity environments. However, the evolution of a waterproofed cuticle to prevent loss of water to the environment could also impede oxygen uptake from the environment. We therefore postulate an evolutionary trade-off between water retention and gas exchange in this group of soil animals. The outcome of this trade-off is expected to be affected by both differences across species (different types of lung) and differences within species (body size and resulting surface area to volume ratios). To test these ideas, we compared two sympatric isopods: Porcellio scaber and Oniscus asellus. While P. scaber possesses covered lungs typical for drier...
The importance of considering species-specific biotic interactions when predicting feedbacks between...
ACLIn the context of global warming, an increase in soil drought is suspected by the IPCC prediction...
The importance of considering species-specific biotic interactions when predicting feedbacks between...
Terrestrial isopods have evolved adaptations to reduce water loss, which is necessary for life in lo...
Terrestrial isopods have evolved adaptations to reduce water loss, which is necessary for life in lo...
Terrestrial isopods have evolved adaptations to reduce water loss, which is necessary for life in lo...
Terrestrial isopods have evolved adaptations to reduce water loss, which is necessary for life in lo...
Terrestrial isopods have evolved adaptations to reduce water loss, which is necessary for life in lo...
Terrestrial isopods have evolved adaptations to reduce water loss, which is necessary for life in lo...
Terrestrial isopods have evolved pleopodal lungs that provide access to the rich aerial supply of ox...
The importance of considering species-specific biotic interactions when predicting feedbacks between...
The importance of considering species-specific biotic interactions when predicting feedbacks between...
The importance of considering species-specific biotic interactions when predicting feedbacks between...
The importance of considering species-specific biotic interactions when predicting feedbacks between...
Terrestrial isopods, as successful colonizers of land habitats, show a great variety in species dist...
The importance of considering species-specific biotic interactions when predicting feedbacks between...
ACLIn the context of global warming, an increase in soil drought is suspected by the IPCC prediction...
The importance of considering species-specific biotic interactions when predicting feedbacks between...
Terrestrial isopods have evolved adaptations to reduce water loss, which is necessary for life in lo...
Terrestrial isopods have evolved adaptations to reduce water loss, which is necessary for life in lo...
Terrestrial isopods have evolved adaptations to reduce water loss, which is necessary for life in lo...
Terrestrial isopods have evolved adaptations to reduce water loss, which is necessary for life in lo...
Terrestrial isopods have evolved adaptations to reduce water loss, which is necessary for life in lo...
Terrestrial isopods have evolved adaptations to reduce water loss, which is necessary for life in lo...
Terrestrial isopods have evolved pleopodal lungs that provide access to the rich aerial supply of ox...
The importance of considering species-specific biotic interactions when predicting feedbacks between...
The importance of considering species-specific biotic interactions when predicting feedbacks between...
The importance of considering species-specific biotic interactions when predicting feedbacks between...
The importance of considering species-specific biotic interactions when predicting feedbacks between...
Terrestrial isopods, as successful colonizers of land habitats, show a great variety in species dist...
The importance of considering species-specific biotic interactions when predicting feedbacks between...
ACLIn the context of global warming, an increase in soil drought is suspected by the IPCC prediction...
The importance of considering species-specific biotic interactions when predicting feedbacks between...