Close, R;
Benson, R;
Alroy, J;
Carrano, M;
Cleary, T;
Dunne, E;
Mannion, P;
... Butler, R; + view all
(2020)
The apparent exponential radiation of Phanerozoic land vertebrates reflects spatial sampling biases.
Proceedings of the Royal Society B: Biological Sciences
(In press).
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Abstract
There is no consensus about how terrestrial biodiversity was assembled through deep time, and in particular whether it has risen exponentially over the Phanerozoic. Using a database of 60,859 fossil occurrences, we show that the spatial extent of the worldwide terrestrial tetrapod fossil record itself expands exponentially through the Phanerozoic. Changes in spatial sampling explain up to 67% of the change in known fossil species counts and, because these changes are decoupled from variation in habitable land area that existed through time, this therefore represents a real and profound sampling bias that cannot be explained as redundancy. To address this bias, we estimate terrestrial tetrapod diversity for palaeogeographic regions of approximately equal size. We find that regional-scale diversity was constrained over timespans of tens to hundreds of millions of years, and similar patterns are recovered for major subgroups, such as dinosaurs, mammals, and squamates. Although Cretaceous/Paleogene mass extinction catalysed an abrupt two- to three-fold increase in regional diversity 66 million years ago, no further increases occurred, and recent levels of regional diversity do not exceed those of the Paleogene. These results parallel those recovered in analyses of local community-level richness. Taken together, our findings strongly contradict past studies that suggested unbounded diversity increases at local and regional scales over the last 100 million years.
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