Add to ORKGTeleost fishes vary in their reliance on median and paired fins (MPF) or undulation of the body (BCF) to generate thrust during straight-line, steady swimming. Previous work indicates that swimming mode is associated with different body shapes, though this has never been empirically demonstrated across the diversity of fishes. As the body does not play as active a mechanical role in steady swimming by MPF swimmers, this may relax constraints and spur higher rates of body shape diversification. We test these predictions by measuring the impact of the dominant steady swimming mode on the evolution of body shape across 2295 marine teleost fishes. Aligning with historical expectations, BCF swimmers exhibit a more elongate, slender body shape, w...
The ability to sustain high swimming speeds is believed to be an important factor affecting resource...
Moving through a dense fluid such as water presents some unique challenges to minimizing energy use ...
Synopsis Fish inhabit environments greatly varying in intensity of water velocity, and these flow re...
Teleost fishes vary in their reliance on median and paired fins (MPF) or undulation of the body (BCF...
Fishes exhibit an astounding diversity of locomotor behaviors, from classic swimming with their body...
Convergent evolution of a novel locomotor strategy implies that a fitness benefit may be associated ...
Colonization of novel habitats can result in marked phenotypic responses to the new environment that...
Fishes have evolved a wide variety of fin and body shapes and inhabit nearly every aquatic habitat o...
Colonization of novel habitats can result in marked phenotypic responses to the new environment that...
Undulatory fishes display a wide range of body amplitudes and wavelengths during steady swimming. Th...
Body and fin shape are chief determinants of swimming performance in fishes. Different configuration...
Synopsis In fishes the shape of the body and the swimming mode generally are correlated. Slender-bod...
Most fish species swim with lateral body undulations running from head to tail, These waves run more...
It is widely believed that because of biomechanical trade-offs, fish body shape and the mode of prop...
By covering 80% of Earth, the global ocean is the most spread ecosystem in the world. Human activiti...
The ability to sustain high swimming speeds is believed to be an important factor affecting resource...
Moving through a dense fluid such as water presents some unique challenges to minimizing energy use ...
Synopsis Fish inhabit environments greatly varying in intensity of water velocity, and these flow re...
Teleost fishes vary in their reliance on median and paired fins (MPF) or undulation of the body (BCF...
Fishes exhibit an astounding diversity of locomotor behaviors, from classic swimming with their body...
Convergent evolution of a novel locomotor strategy implies that a fitness benefit may be associated ...
Colonization of novel habitats can result in marked phenotypic responses to the new environment that...
Fishes have evolved a wide variety of fin and body shapes and inhabit nearly every aquatic habitat o...
Colonization of novel habitats can result in marked phenotypic responses to the new environment that...
Undulatory fishes display a wide range of body amplitudes and wavelengths during steady swimming. Th...
Body and fin shape are chief determinants of swimming performance in fishes. Different configuration...
Synopsis In fishes the shape of the body and the swimming mode generally are correlated. Slender-bod...
Most fish species swim with lateral body undulations running from head to tail, These waves run more...
It is widely believed that because of biomechanical trade-offs, fish body shape and the mode of prop...
By covering 80% of Earth, the global ocean is the most spread ecosystem in the world. Human activiti...
The ability to sustain high swimming speeds is believed to be an important factor affecting resource...
Moving through a dense fluid such as water presents some unique challenges to minimizing energy use ...
Synopsis Fish inhabit environments greatly varying in intensity of water velocity, and these flow re...