AUTHOR=Knaus Philipp L. , van Heteren Anneke H. , Lungmus Jacqueline K. , Sander P. Martin 

TITLE=High Blood Flow Into the Femur Indicates Elevated Aerobic Capacity in Synapsids Since the Synapsida-Sauropsida Split

JOURNAL=Frontiers in Ecology and Evolution

VOLUME=9

YEAR=2021

URL=https://www.frontiersin.org/journals/ecology-and-evolution/articles/10.3389/fevo.2021.751238

DOI=10.3389/fevo.2021.751238

ISSN=2296-701X

ABSTRACT=<p>Varanids are the only non-avian sauropsids that are known to approach the warm-blooded mammals in stamina. Furthermore, a much higher maximum metabolic rate (MMR) gives endotherms (including birds) higher stamina than crocodiles, turtles, and non-varanid lepidosaurs. This has led researchers to hypothesize that mammalian endothermy evolved as a second step after the acquisition of elevated MMR in non-mammalian therapsids from a plesiomorphic state of low metabolic rates. In recent amniotes, MMR correlates with the index of blood flow into the femur (<italic>Q</italic><sub><italic>i</italic></sub>), which is calculated from femoral length and the cross-sectional area of the nutrient foramen. Thus, <italic>Q</italic><sub><italic>i</italic></sub> may serve as an indicator of MMR range in extinct animals. Using the <italic>Q</italic><sub><italic>i</italic></sub> proxy and phylogenetic eigenvector maps, here we show that elevated MMRs evolved near the base of Synapsida. Non-mammalian synapsids, including caseids, edaphosaurids, sphenacodontids, dicynodonts, gorgonopsids, and non-mammalian cynodonts, show <italic>Q</italic><sub><italic>i</italic></sub> values in the range of recent endotherms and varanids, suggesting that raised MMRs either evolved in synapsids shortly after the Synapsida-Sauropsida split in the Mississippian or that the low MMR of lepidosaurs and turtles is apomorphic, as has been postulated for crocodiles.</p>