In the evolutionary long run, small
critters tend to evolve into bigger beasts—at least according to
the idea attributed to paleontologist Edward Cope, now known as
Cope's Rule. Using the latest advanced statistical modeling methods,
a new test of this rule as it applies dinosaurs shows that Cope was
right—sometimes.
"For a long time, dinosaurs were
thought to be the example of Cope's Rule," says Gene Hunt,
curator in the Department of Paleobiology at the National Museum of
Natural History (NMNH) in Washington, D.C. Other groups, particularly
mammals, also provide plenty of classic examples of the rule, Hunt
says.
To see if Cope's rule really applies to
dinosaurs, Hunt and colleagues Richard FitzJohn of the University of
British Columbia and Matthew Carrano of the NMNH used dinosaur thigh
bones (aka femurs) as proxies for animal size. They then used that
femur data in their statistical model to look for two things:
directional trends in size over time and whether there were any
detectable upper limits for body size.
"What we did then was explore how
constant a rule is this Cope's Rule trend within dinosaurs,"
said Hunt. They looked across the “family tree” of dinosaurs and
found that some groups, or clades, of dinosaurs do indeed trend
larger over time, following Cope's Rule. Ceratopsids and hadrosaurs,
for instance, show more increases in size than decreases over time,
according to Hunt. Although birds evolved from theropod dinosaurs,
the team excluded them from the study because of the evolutionary
pressure birds faced to lighten up and get smaller so they could fly
better.
As for the upper limits to size, the
results were sometimes yes, sometimes no. The four-legged sauropods
(i.e., long-necked, small-headed herbivores) and ornithopod (i.e.,
iguanodons, ceratopsids) clades showed no indication of upper limits
to how large they could evolve. And indeed, these groups contain the
largest land animals that ever lived.
Theropods, which include the
famous Tyrannosaurus rex, on the other hand, did show what
appears to be an upper limit on body size. This may not be
particularly surprising, says Hunt, because theropods were bipedal,
and there are physical limits to how massive you can get while still
being able to move around on two legs.
Hunt, FitzJohn, and Carrano will be
presenting the results of their study on the afternoon of Sunday,
Nov. 4, at the annual meeting of The Geological Society of America in
Charlotte, North Carolina, USA.
As for why Cope's Rule works at all,
that is not very well understood, says Hunt. "It does happen
sometimes, but not always," he added. The traditional idea that
somehow "bigger is better" because a bigger animal is less
likely to be preyed upon is naïve, Hunt says. After all, even the
biggest animals start out small enough to be preyed upon and spend a
long, vulnerable, time getting gigantic.
WHAT: Testing Cope's Rule and the
Existence of an Upper Bound for Body Size in Non-Avian
Dinosaurs
WHEN: 4:15-4:30 p.m., Sunday 4 November
WHERE: Charlotte Convention Center, Room 217D
ABSTRACT: https://gsa.confex.com/gsa/2012AM/webprogram/Paper211594.html
WHEN: 4:15-4:30 p.m., Sunday 4 November
WHERE: Charlotte Convention Center, Room 217D
ABSTRACT: https://gsa.confex.com/gsa/2012AM/webprogram/Paper211594.html
CONTACT:
Gene Hunt
National Museum of Natural History, Smithsonian Institution
hunte@si.edu
+1-202-633-1331
http://paleobiology.si.edu/staff/individuals/hunt.cfm
Gene Hunt
National Museum of Natural History, Smithsonian Institution
hunte@si.edu
+1-202-633-1331
http://paleobiology.si.edu/staff/individuals/hunt.cfm
No comments:
Post a Comment