Dinos Not Necessarily Cold-Blooded

The leading argument for dinosaurs being cold-blooded is overturned as a nearly identical bone structure is found in mammals.

By | June 27, 2012

JURASSIC FEC" > These two have more in common than previously thought.JORGE NAVA OLIVARES, JURASSIC FEC

These two have more in common than previously thought. JORGE NAVA OLIVARES, JURASSIC FEC

Dinosaurs weren’t necessarily cold blooded creatures, as is often argued, according to new research published today (June 27) in Nature, which disproved a leading bit of evidence for this claim. Specifically, researchers showed that the dark layers in dinosaur bones that represent pauses in bone growth also exist in more than 40 species of ruminant mammals.

Dinosaur bones contain fibromellar tissue which is indicative of fast growth in mammals, and supports the idea that dinosaurs were actually warm-blooded (endothermic) creatures with high metabolisms. But in the 1980s, paleontologists found that the bones also contained dark layers known as lines of arrested growth (LAGs), which are commonly found in the bones of reptiles and amphibians and were thought to be indicative of cold-bloodedness, or ectothermy: because these animals rely on the external environment to provide internal heat, they tend to temporarily stop their growth when the season is unfavorable. For the past 30 years, scientists have debated whether dinosaurs were warm- or cold-blooded creatures.

Meike Köhler and colleagues at the Autonomous University of Barcelona studied the femurs of 115 ruminants extending across most of the world’s climatic zones, and found LAGs in every case, indicating that the bone markings are not unique to cold-blooded animals.

“We provide conclusive evidence that the presence of these rest lines can no longer be seen as evidence against endothermy,” said Köhler. “We finally settled this discussion.”

Although smaller studies have shown LAGs in some mammals and large extinct birds, this result stands out because of its scope, said Kevin Padian of the Museum of Paleontology at the University of California, Berkeley, who was not involved in the study. “By taking a range of large related animals that lived across all latitudes, temperatures, and precipitation regimes, they eliminated these variables as critical,” he said. Furthermore, ruminants need to maintain constant high core temperature, and were the least expected mammals to shut down metabolism and stop growing, so Köhler suspects LAGs are to be found in every other type of mammal.

While this provides conclusive evidence that LAGs are not exclusive to cold-blooded animals, Padian argued that this doesn’t necessarily mean dinosaurs didn’t have some ectothermic characteristics. “It suggests that people should stop using single features as ‘magic bullets’ that aren't properly understood in their evolutionary contexts,” he said. “We should not think of warm/cold blooded as a dichotomy, but as a continuum,” he added. “Some mammals are very poor thermoregulators, and some reptiles are pretty good at it.”

Some larger dinosaurs, for example, may have been able to stay warm, and keep growing, simply by being large. Changes in external temperature would have taken a matter of days to be felt throughout the entire animal, so that the effects daily temperature fluctuations were minimized. This phenomenon has been observed in large turtles and crocodilians, suggesting high metabolism is not the only way to protect against environmental fluctuations.

Thus, the debate over dinosaur metabolism continues. In the meantime, Köhler suggest that the LAGs they found in mammalian bones may provide a critical tool for population ecologists.

It was long believed that warm-blooded mammals had such high metabolism that they were invulnerable to seasonal changes in terms of their growth, as many previous studies of mammals had failed to identify such LAGs. But these studies tended to focus on small mammals, which reach maturity quickly and so do not experience a winter during their phase of bone growth.

By correlating biological studies with bone patterns, Köhler and colleagues have shown that in larger mammals, seasonal lows in hormonal and metabolic factors are concurrent with actual growth arrest, and that bone growth is accelerated during favorable seasons as these factors peak. The pattern is annual, so that  researchers should be able to infer animal ages at death, as is often done in studies of reptiles and amphibians to assess the overall health of a population. Furthermore, Köhler hopes that by correlating the development of LAGs and accelerated bone growth with the environmental conditions at the time, they can also be used to track responses to environmental changes.

“We can now use this information in the same way as for reptiles, to study population dynamics and to study to risks of extinction of populations,” she said. “It’s also important to understand how this ability to cope with harsh seasons has an influence on the survival of species.”

M. Köhler et al., “Seasonal bone growth and physiology in endotherms shed light on dinosaur physiology,” Nature, doi:10.1038/nature11264, 2012.

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Avatar of: R.S. Rawding

R.S. Rawding

Posts: 1457

June 28, 2012

I wish people would stop using the term "cold-blooded" - in thermal biology, it is rarely - if ever - used to describe ectotherms (source of heat is external) or poikilotherms (variable body temperature).  I will show you that some lizards, actively thermoregulating, can have extremely warm blood, and some bats, during torpor, having cool blood, with animals like hibernating ground squirrels whose blood temperature is slightly above freezing.  Please get your jargon straight.

Robert S. Rawding, Ph.D.

Avatar of: GrandpaTarkin


Posts: 8

June 28, 2012

I wasn't aware that anyone had claimed that dinos were poikilotherm in the last 30 years.

Avatar of: R.S. Rawding

R.S. Rawding

Posts: 1457

July 2, 2012

Look in the literature.  Thermal stability comes with increases in body water content.  And anyone having studied physiology knows about the mouse-elephant metabolism curve.   You do not have to be an endotherm to have thermal stability.  If you live in warm places and stay put in a small territory, you can be very large and have minimal contraints on metabolic rates, so you don't 'need' to be endothermic.  There are no extant reptilians that are endothermic.  If endothermy has been successful for many small therians present at the time of large reptilians, they still exhibit it today.   Some reptilian lines developed as birds - also endothermic, but their highly-specialized lung structures and four-chambered hearts allow massive oxygen transport too.  If there are successes with endothermic animals such as dinosaurs, then why did they disappear, with only a few extant relatives, such as the crocodillians, none of whom is ectothermic - but indeed poikilothermic?  No, GrandpaTarkin, you misinterpreted the whole point of this report.  And bone remodeling by itself is not a smoking gun for endotherm/homeotherm dinosaur arguments either.  This is one report - right now still conjecture, speculation, and theoretical.

Avatar of: GrandpaTarkin


Posts: 8

July 14, 2012

 Actually birds are endothermic reptiles. Not to mention that birds are dinosaurs. And that most non-avian dinosaurs too appear to have had thermal insulation in the form of feathers (with, as in mammals, the exception of some of the largest forms). Then there's the growth rate thing, and the bone structure thing, and the isotope thing.

The point is that no one in the last 30 years have believed that dinosaurs were coldblooded animals. The authors of this study have kicked in a wide open door.

Avatar of: R.S. Rawding

R.S. Rawding

Posts: 1

November 11, 2012

Birds are NOT reptiles.  They evolved from a reptilian stock.  Their pelvis is "reptile-like".   Birds have hard-shelled eggs; dinosaurs did not, nor do any reptiles of today - all reprilian eggs are soft-shelled.  The only extant reptiles that were in the dinosaur cohort are the crocodillians.  The "growth rate thing" is exactly what?  NO extant bird has indeterminant growth - as did many of the dinosaurs and some extant reptiles.  The "bone structure thing" is ludicrous - period.   Dinosaurs were tidal breathers; birds are not.  Feathers do provide some meager insulation; their adaptive value is for flight.  And what is "the isotope thing"?  Isotopes are useful in predicating general ages but are not absolutes.   Paleontologists work is predicated on certain historical findings which may or may not hold true - they weren't there....  And the above writer's "conclusive evidence" is a misnomer - you can't be conclusive and have it as evidence too - like saying this is a conclusive 'maybe' - evidence supports or refutes theories and is never a finality.  Read Einstein's theory of relativity - it's just that.  A theory.  There are exceptions to it.  A scientist steps slowly in jungles, lest quicksand gobbles him or her up....

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