10.5061/DRYAD.J3TX95XHK
Kulik, Zoe
0000-0003-0789-5380
Burke Museum of Natural History and Culture
Sidor, Christian
Burke Museum of Natural History and Culture
A test of Bergmann’s rule in the Early Triassic: Latitude, body size, and
sampling in Lystrosaurus
Dryad
dataset
2022
FOS: Biological sciences
Bergmann's rule
Lystrosaurus
Triassic
Nick Simons Foundation
https://ror.org/00se21e39
EAR 1713787
Nick Simons Foundation
https://ror.org/00se21e39
ANT 1341304
2022-06-21T00:00:00Z
2022-06-21T00:00:00Z
en
https://doi.org/10.1017/pab.2022.25
40795 bytes
5
CC0 1.0 Universal (CC0 1.0) Public Domain Dedication
The ecogeographical rule known as Bergmann’s rule suggests that there is a
positive relationship between body size and latitude when comparing
closely related taxa. The underlying mechanism, or mechanisms, to explain
this pattern vary as widely as the taxa that seem to follow it, which has
led to skepticism over whether Bergmann’s rule should be considered a rule
at all. Despite this, Bergmann’s rule is widespread among modern birds,
mammals, beetles, and some amphibians, but far fewer extinct taxa have
been subjected to tests of Bergmann’s rule. To test whether Bergmann’s
rule is detected in extinct taxa, we compared body size proxies in
Lystrosaurus recovered from Early Triassic-aged strata in Antarctica,
South Africa, India, and China. Our results reveal that average body size
is largest at mid-northern paleolatitudes (~45°N) instead of the highest
southern paleolatitudes (~70°S). Additionally, maximum body size is
consistent across northern and southern hemispheres, indicating that
Bergmann’s rule did not apply for Lystrosaurus during the Early Triassic.
To test potential sample size biases in our results, we used rarefaction
and subsampling to show that only the Karoo Basin is well sampled, and
that large individuals are exceedingly rare except in the Turpan-Junggar
Basin of Xinjiang, China. Taken together, our results suggest that
Lystrosaurus had the potential to reach large body sizes in each of the
latitudinally widespread tectonic basins studied here, but that local
conditions may have allowed individuals at mid-northern paleolatitudes a
greater chance of reaching large size compared to southern congeners that
suffered increased mortality at young/small sizes.
We gathered cranial measurements from 482 Lystrosaurus skulls in order to
compare body size proxies from Early Triassic specimens. Measurements were
taken using Mitutoyo digital calipers (±0.02mm) at the following
institutions: Burke Museum of Natural History and Culture, Washington,
USA; American Museum of Natural History, New York, USA; Evolutionary
Studies Institute, (formerly Bernard Price Institute for Paleontological
Research), University of the Witwatersrand, Johannesburg, South Africa;
The Field Museum of Natural History, Chicago, Illinois, USA; Institute of
Vertebrate Paleontology and Paleoanthropology, Chinese Academy of
Sciences, Beijing, China; National Museum, Bloemfontein, South Africa;
Iziko, The South African Museum, Cape Town, South Africa. Measurement data
were also compiled from a survey of the literature.
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