Add to ORKGChelonians are ectothermic, with an extensive fossil record preserved in diverse palaeoenvironmental settings: consequently, they represent excellent models for investigating organismal response to long-term environmental change. We present the first Mesozoic chelonian taxic richness curve, subsampled to remove geological/collection biases, and demonstrate that their palaeolatitudinal distributions were climate mediated. At the Jurassic/ Cretaceous transition, marine taxa exhibit minimal diversity change, whereas non-marine diversity increases. A Late Cretaceous peak in ‘global ’ non-marine subsampled richness coincides with high palaeolatitude occurrences and the Cretaceous thermal maximum (CTM): however, this peak also records increased g...
© 2016 The Authors. Published by the Royal Society under the terms of the Creative Commons Attributi...
Our study investigates how factors, such as latitude, productivity, and several environmental variab...
For many species, climate oscillations drove cycles of population contraction during cool glacial pe...
Turtles are key components of modern vertebrate faunas and their diversity and distributions are lik...
Past responses to environmental change provide vital baseline data for estimating the potential resi...
During the Cretaceous, non-marine turtles show strong patterns of provincialism, mirroring the patte...
Living turtles are characterized by extraordinarily low species diversity given their age. The clade...
Turtles are key components of modern vertebrate faunas and it is predicted that their diversity and ...
The climatic cycles of the Quaternary, during which global mean annual temperatures have regularly c...
The climatic cycles of the Quaternary, during which global mean annual temperatures have regularly c...
Evolutionary transitions to marine habitats occurred frequently among Mesozoic reptiles. Only one su...
"Turtles" (Testudines) form a successful group of reptiles with several terrestrial, marine and fres...
Turtles are a major group of reptiles with moderate species richness (335 extant species) but high e...
Evolutionary transitions to marine habitats occurred frequently among Mesozoic reptiles. Only one su...
Aim Modern biodiversity peaks in the tropics and declines poleward, a pattern that is potentially dr...
© 2016 The Authors. Published by the Royal Society under the terms of the Creative Commons Attributi...
Our study investigates how factors, such as latitude, productivity, and several environmental variab...
For many species, climate oscillations drove cycles of population contraction during cool glacial pe...
Turtles are key components of modern vertebrate faunas and their diversity and distributions are lik...
Past responses to environmental change provide vital baseline data for estimating the potential resi...
During the Cretaceous, non-marine turtles show strong patterns of provincialism, mirroring the patte...
Living turtles are characterized by extraordinarily low species diversity given their age. The clade...
Turtles are key components of modern vertebrate faunas and it is predicted that their diversity and ...
The climatic cycles of the Quaternary, during which global mean annual temperatures have regularly c...
The climatic cycles of the Quaternary, during which global mean annual temperatures have regularly c...
Evolutionary transitions to marine habitats occurred frequently among Mesozoic reptiles. Only one su...
"Turtles" (Testudines) form a successful group of reptiles with several terrestrial, marine and fres...
Turtles are a major group of reptiles with moderate species richness (335 extant species) but high e...
Evolutionary transitions to marine habitats occurred frequently among Mesozoic reptiles. Only one su...
Aim Modern biodiversity peaks in the tropics and declines poleward, a pattern that is potentially dr...
© 2016 The Authors. Published by the Royal Society under the terms of the Creative Commons Attributi...
Our study investigates how factors, such as latitude, productivity, and several environmental variab...
For many species, climate oscillations drove cycles of population contraction during cool glacial pe...