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Literature DB >> 21700837

Dinosaur body temperatures determined from isotopic (¹³C-¹⁸O) ordering in fossil biominerals.

Robert A Eagle¹, Thomas Tütken, Taylor S Martin, Aradhna K Tripati, Henry C Fricke, Melissa Connely, Richard L Cifelli, John M Eiler.

Abstract

The nature of the physiology and thermal regulation of the nonavian dinosaurs is the subject of debate. Previously, arguments have been made for both endothermic and ectothermic metabolisms on the basis of differing methodologies. We used clumped isotope thermometry to determine body temperatures from the fossilized teeth of large Jurassic sauropods. Our data indicate body temperatures of 36° to 38°C, which are similar to those of most modern mammals. This temperature range is 4° to 7°C lower than predicted by a model that showed scaling of dinosaur body temperature with mass, which could indicate that sauropods had mechanisms to prevent excessively high body temperatures being reached because of their gigantic size.

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Year: 2011 PMID： 21700837 DOI： 10.1126/science.1206196

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

16 in total

1. The evolution of mammalian body temperature: the Cenozoic supraendothermic pulses.

Authors: Barry G Lovegrove
Journal: J Comp Physiol B Date: 2012-01-11 Impact factor: 2.200

2. Isotopic ordering in eggshells reflects body temperatures and suggests differing thermophysiology in two Cretaceous dinosaurs.

Authors: Robert A Eagle; Marcus Enriquez; Gerald Grellet-Tinner; Alberto Pérez-Huerta; David Hu; Thomas Tütken; Shaena Montanari; Sean J Loyd; Pedro Ramirez; Aradhna K Tripati; Matthew J Kohn; Thure E Cerling; Luis M Chiappe; John M Eiler
Journal: Nat Commun Date: 2015-10-13 Impact factor: 14.919

10. Seasonality and paleoecology of the late Cretaceous multi-taxa vertebrate assemblage of "Lo Hueco" (central eastern Spain).

Authors: Laura Domingo; Fernando Barroso-Barcenilla; Oscar Cambra-Moo
Journal: PLoS One Date: 2015-03-25 Impact factor: 3.240

Dinosaur body temperatures determined from isotopic (¹³C-¹⁸O) ordering in fossil biominerals.

1. The evolution of mammalian body temperature: the Cenozoic supraendothermic pulses.

2. Isotopic ordering in eggshells reflects body temperatures and suggests differing thermophysiology in two Cretaceous dinosaurs.

3. Dinosaurs: rise of the titans.

4. Anomalously high variation in postnatal development is ancestral for dinosaurs but lost in birds.

5. Fossil biomolecules reveal an avian metabolism in the ancestral dinosaur.

6. Whole-body endothermy: ancient, homologous and widespread among the ancestors of mammals, birds and crocodylians.

7. Quantum-mechanical equilibrium isotopic fractionation correction to radiocarbon dating: a theory study.

8. Body temperatures in dinosaurs: what can growth curves tell us?

Review 9. An evolutionary cascade model for sauropod dinosaur gigantism--overview, update and tests.

10. Seasonality and paleoecology of the late Cretaceous multi-taxa vertebrate assemblage of "Lo Hueco" (central eastern Spain).