Add to ORKGNo family of mammals has undergone a greater adaptive radiation than phyllostomid bats. Phylogeny combined with eco-morphological considerations of trophic structures can help understand this adaptive radiation and the evolution of Microchiroptera. Microchiropteran bats are overwhelmingly insectivorous, and constraints within the morphospace of insectivory have produced a dynamic equilibrium in bat morphologies that has persisted for 60 million years. The ability to eat fruit may be the key synapomorphy that allowed phyllostomids to escape insectivore morphospace and diversify. Although many phyllostomids have changed greatly, others that have maintained insectivory have changed little, which is equally remarkable
The family Phyllostomidae, which evolved in the New World during the last 30 million years, represen...
The family Phyllostomidae, which evolved in the New World during the last 30 million years, represen...
Morphology can play a major role in ecological diversification and adaptive radiation when it consis...
No family of mammals has undergone a greater adaptive radiation than phyllostomid bats. Phylogeny co...
No family of mammals has undergone a greater adaptive radiation than phyllostomid bats. Phylogeny co...
No family of mammals has undergone a greater adaptive radiation than phyllostomid bats. Phylogeny co...
Background The phyllostomid bats present the most extensive ecological and phenotypic radiation know...
Background The phyllostomid bats present the most extensive ecological and phenotypic radiation know...
Background The neotropical leaf‐nosed bats (Chiroptera, Phyllostomidae) are an ecologically diverse ...
Background The neotropical leaf‐nosed bats (Chiroptera, Phyllostomidae) are an ecologically diverse ...
Derived from insectivorous ancestors, microchiropteran bats have diversified into a remarkable array...
We explored the evolution of morphological integration in the most noteworthy example of adaptive ra...
Derived from insectivorous ancestors, microchiropteran bats have diversified into a remarkable array...
We explored the evolution of morphological integration in the most noteworthy example of adaptive ra...
We explored the evolution of morphological integration in the most noteworthy example of adaptive ra...
The family Phyllostomidae, which evolved in the New World during the last 30 million years, represen...
The family Phyllostomidae, which evolved in the New World during the last 30 million years, represen...
Morphology can play a major role in ecological diversification and adaptive radiation when it consis...
No family of mammals has undergone a greater adaptive radiation than phyllostomid bats. Phylogeny co...
No family of mammals has undergone a greater adaptive radiation than phyllostomid bats. Phylogeny co...
No family of mammals has undergone a greater adaptive radiation than phyllostomid bats. Phylogeny co...
Background The phyllostomid bats present the most extensive ecological and phenotypic radiation know...
Background The phyllostomid bats present the most extensive ecological and phenotypic radiation know...
Background The neotropical leaf‐nosed bats (Chiroptera, Phyllostomidae) are an ecologically diverse ...
Background The neotropical leaf‐nosed bats (Chiroptera, Phyllostomidae) are an ecologically diverse ...
Derived from insectivorous ancestors, microchiropteran bats have diversified into a remarkable array...
We explored the evolution of morphological integration in the most noteworthy example of adaptive ra...
Derived from insectivorous ancestors, microchiropteran bats have diversified into a remarkable array...
We explored the evolution of morphological integration in the most noteworthy example of adaptive ra...
We explored the evolution of morphological integration in the most noteworthy example of adaptive ra...
The family Phyllostomidae, which evolved in the New World during the last 30 million years, represen...
The family Phyllostomidae, which evolved in the New World during the last 30 million years, represen...
Morphology can play a major role in ecological diversification and adaptive radiation when it consis...