James JF Gillooly scite author profile

James JF Gillooly

3Publications

1Citation Statement Received

87Citation Statements Given

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Affiliations

University of Florida

Publications

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Hotter is Smarter: The temperature-dependence of brain size in vertebrates

Gillooly

2013

Preprint

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View the peer-reviewed version (peerj.com/articles/301), which is the preferred citable publication unless you specifically need to cite this preprint. Hotter is Smarter: The temperature-dependence of brain size in vertebratesThe tremendous variation in brain size among vertebrates has long been thought to be related to differences in species' metabolic rates. Species with higher metabolic rates can supply more energy to support the relatively high cost of brain tissue. And yet, while body temperature is known to be a major determinant of metabolic rate, the possible effects of temperature on brain size have scarcely been explored. Thus, here I explore the effects of temperature on brain size among diverse vertebrates (fishes,amphibians, reptiles, birds and mammals). I find that, after controlling for body size,brain size increases exponentially with temperature in much the same way asmetabolic rate. These results suggest that temperature-dependent changes inaerobic capacity, which have long been known to affect physical performance, similarly affect brain size. The observed temperature-dependence of brain size may explain observed gradients in brain size among both ectotherms and endotherms across broad spatial and temporal scales.PeerJ PrePrints | https://peerj.com/preprints/155v1/ | v1

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Constraints on vertebrate athleticism: The temperature dependence of red blood cell volume

Gillooly

Zenil‐Ferguson

2013

Preprint

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The ability to perform at high levels of aerobic activity (i.e. athletic ability) increases with temperature among vertebrates. These differences in species' activity levels, from highly active to sedentary, are reflected in their ecology and behavior. Yet, the changes in the cardiovascular system that allow for greater oxygen supply rates at higher temperatures, and thus greater activity levels, remain unclear. Here we show that vertebrates provide more oxygen to tissues at higher temperatures in part by increasing the total volume of red blood cells in the body. Across 60 species of vertebrates (fishes,amphibians, reptiles, birds and mammals), whole-body red blood cell volume increases exponentially with temperature after controlling for effects of body size and taxonomy. These changes are accompanied by increases in relative heart mass, an indicator of athletic ability. The results help explain how temperature-dependent changes in cardiovascular design allow species to overcome the constraints of passive diffusion on oxygen supply.

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Constraints on vertebrate athleticism: The temperature dependence of red blood cell volume

Gillooly

Zenil‐Ferguson

2013

Preprint

View full text Add to dashboard Cite

The ability to perform at high levels of aerobic activity (i.e. athletic ability) increases with temperature among vertebrates. These differences in species’ activity levels, from highly active to sedentary, are reflected in their ecology and behavior. Yet, the changes in the cardiovascular system that allow for greater oxygen supply rates at higher temperatures, and thus greater activity levels, remain unclear. Here we show that vertebrates provide more oxygen to tissues at higher temperatures in part by increasing the total volume of red blood cells in the body. Across 60 species of vertebrates (fishes,amphibians, reptiles, birds and mammals), whole-body red blood cell volume increases exponentially with temperature after controlling for effects of body size and taxonomy. These changes are accompanied by increases in relative heart mass, an indicator of athletic ability. The results help explain how temperature-dependent changes in cardiovascular design allow species to overcome the constraints of passive diffusion on oxygen supply.

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