Add to ORKGAlthough many factors have been shown to influence the evolution of species recognition signals in a wide variety of taxa, it is difficult to draw general conclusions because of fundamental differences in the morphologies and ecologies of the animals considered. In this study, two morphologically and ecologically similar lizard genera (Sceloporus and Liolaemus) are used to provide replicate examples of the evolution of a complex visual display. New data on the headbob displays of 16 Liolaemus species are presented. As in other taxa, phylogenetic analyses show that evolutionary changes in display structure have been rapid, leaving little, if any, phylogenetic information in the display structure. Evolutionary changes in display structure als...
1. Few studies have examined how the anatomy of an animal signal contributes to, or limits, the evol...
Adaptations that facilitate the reception of long-range signals under challenging conditions are exp...
Currently, Liolaemus is the second most species-rich reptile genus in the world (257 species), and p...
Although many factors have been shown to influence the evolution of species recognition signals in a...
One of the most common visual signals in lizards is the headbob display. Headbob displays consist of...
Differentiation in the structure of animal signals and displays among closely related species has in...
Signals that convey related information may impose selection on each other, creating evolutionary li...
Many evolutionary forces can shape the evolution of communicative signals, and the long-term impact ...
Evolutionary correlations between phenotypic and environmental traits characterize adaptive radiatio...
Long-term signal evolution is shaped by a variety of selective pressures including the need to conve...
To demonstrate adaptive convergent evolution, it must be shown that shared phenotypes have evolved i...
We identified hypotheses for the cause and consequences of the loss of complexity in animal signals ...
Animal signals are observed to vary widely in complexity among species, but why this should be the c...
The existence of elaborate ornamental structures in males is often assumed to reflect the outcome of...
Communication signals are often key for encoding information on species identity, but determining th...
1. Few studies have examined how the anatomy of an animal signal contributes to, or limits, the evol...
Adaptations that facilitate the reception of long-range signals under challenging conditions are exp...
Currently, Liolaemus is the second most species-rich reptile genus in the world (257 species), and p...
Although many factors have been shown to influence the evolution of species recognition signals in a...
One of the most common visual signals in lizards is the headbob display. Headbob displays consist of...
Differentiation in the structure of animal signals and displays among closely related species has in...
Signals that convey related information may impose selection on each other, creating evolutionary li...
Many evolutionary forces can shape the evolution of communicative signals, and the long-term impact ...
Evolutionary correlations between phenotypic and environmental traits characterize adaptive radiatio...
Long-term signal evolution is shaped by a variety of selective pressures including the need to conve...
To demonstrate adaptive convergent evolution, it must be shown that shared phenotypes have evolved i...
We identified hypotheses for the cause and consequences of the loss of complexity in animal signals ...
Animal signals are observed to vary widely in complexity among species, but why this should be the c...
The existence of elaborate ornamental structures in males is often assumed to reflect the outcome of...
Communication signals are often key for encoding information on species identity, but determining th...
1. Few studies have examined how the anatomy of an animal signal contributes to, or limits, the evol...
Adaptations that facilitate the reception of long-range signals under challenging conditions are exp...
Currently, Liolaemus is the second most species-rich reptile genus in the world (257 species), and p...