Flatfishes (Actinopterygii: Pleuronectiformes) are a diverse group of teleost fishes, with over 700 species in the order. Jaw asymmetry and diet have been thought to contribute to flatfish diversity but this has not yet been tested in a comparative framework. Here I use geometric morphometric and comparative methods to test whether ocular-blind side asymmetry in flatfish head morphology contributed to flatfish diversification. I find that the repeated convergent evolution of similar morphology, jaw function, and diet likely contribute to the high diversity of flatfishes
The robust skull and highly subdivided adductor mandibulae muscles of triggerfishes provide an excel...
The association between diversification and evolutionary innovations has been well documented and te...
Understanding the causes of body shape variability across the tree of life is one of the central iss...
Flatfishes (Actinopterygii: Pleuronectiformes) are a diverse group of teleost fishes, with over 700...
<p>Does the evolution of jaw asymmetry due to diet changes drive diversification in the flatfishes? ...
Background: Flatfish cranial asymmetry represents one of the most remarkable morphological innovatio...
All adult flatfishes (Pleuronectiformes), including the gastronomically familiar plaice, sole, turbo...
BackgroundFlatfish cranial asymmetry represents one of the most remarkable morphological innovations...
Pleuronectiformes, commonly called flatfishes, is a large order of highly specialized fishes that di...
All extant species of flatfish (order Pleuronectiformes) are thought to descend from a common ancest...
Functional innovations are often invoked to explain the uneven distribution of ecological diversity....
Evolutionary innovations are scattered throughout the tree of life, and have allowed the organisms t...
The flatfishes of the order Pleuronectiformes or Heterosomata comprising halibuts, flounders and so...
Background Flatfish cranial asymmetry represents one of the most remarkable morphological innovat...
Proliferation of phylogenetic studies based on poor taxonomic sampling or insufficient molecular evi...
The robust skull and highly subdivided adductor mandibulae muscles of triggerfishes provide an excel...
The association between diversification and evolutionary innovations has been well documented and te...
Understanding the causes of body shape variability across the tree of life is one of the central iss...
Flatfishes (Actinopterygii: Pleuronectiformes) are a diverse group of teleost fishes, with over 700...
<p>Does the evolution of jaw asymmetry due to diet changes drive diversification in the flatfishes? ...
Background: Flatfish cranial asymmetry represents one of the most remarkable morphological innovatio...
All adult flatfishes (Pleuronectiformes), including the gastronomically familiar plaice, sole, turbo...
BackgroundFlatfish cranial asymmetry represents one of the most remarkable morphological innovations...
Pleuronectiformes, commonly called flatfishes, is a large order of highly specialized fishes that di...
All extant species of flatfish (order Pleuronectiformes) are thought to descend from a common ancest...
Functional innovations are often invoked to explain the uneven distribution of ecological diversity....
Evolutionary innovations are scattered throughout the tree of life, and have allowed the organisms t...
The flatfishes of the order Pleuronectiformes or Heterosomata comprising halibuts, flounders and so...
Background Flatfish cranial asymmetry represents one of the most remarkable morphological innovat...
Proliferation of phylogenetic studies based on poor taxonomic sampling or insufficient molecular evi...
The robust skull and highly subdivided adductor mandibulae muscles of triggerfishes provide an excel...
The association between diversification and evolutionary innovations has been well documented and te...
Understanding the causes of body shape variability across the tree of life is one of the central iss...
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