Absence of selective brain cooling in free-ranging zebras in their natural habitat

Andrea Fuller; Shane K. Maloney; Peter R. Kamerman; Graham Mitchell; Duncan Mitchell

doi:10.1111/j.1469-445X.2000.01954.x

Abstract

We used implanted miniature data loggers to measure brain and arterial blood temperatures in three free-ranging zebras (Equus burchelli) in their natural habitat, every 5 min for 9 days. The animals experienced globe temperatures exceeding 40°C, and radiant heat load of about 1000 W m-2. Arterial blood exhibited a moderate amplitude (1.7°C) nychthemeral rhythm, with an acrophase at 19.00 h and a nadir late in the morning, at 10.00 h. Brain temperature consistently exceeded blood temperature, on average by 0.2-0.4°C, and changes in brain temperature closely tracked changes in blood temperature. There was no evidence of selective brain cooling, even during the hyperthermia which followed surgery or that associated with intense, short-duration exercise. The relationship between brain and arterial blood temperatures in free-ranging zebras was unlike that reported for horses in the laboratory. Our results do not support the view that mammals lacking a carotid rete can achieve selective brain cooling.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Maloney, Shane K. Fuller, Andrea Mitchell, Graham and Mitchell, Duncan 2001. Rectal temperature measurement results in artifactual evidence of selective brain cooling. American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, Vol. 281, Issue. 1, p. R108.

Jessen, Claus 2001. Selective Brain Cooling in Mammals and Birds.. The Japanese Journal of Physiology, Vol. 51, Issue. 3, p. 291.

Fuller, Andrea Kamerman, Peter R. Maloney, Shane K. Mitchell, Graham and Mitchell, Duncan 2003. Variability in brain and arterial blood temperatures in free-ranging ostriches in their natural habitat. Journal of Experimental Biology, Vol. 206, Issue. 7, p. 1171.

Fuller, Andrea Kamerman, Peter R. Maloney, Shane K. Matthee, André Mitchell, Graham and Mitchell, Duncan 2005. A year in the thermal life of a free-ranging herd of springbokAntidorcas marsupialis. Journal of Experimental Biology, Vol. 208, Issue. 15, p. 2855.

Mitchell, Graham Fuller, Andrea Maloney, Shane K Rump, Nicola and Mitchell, Duncan 2006. Guttural pouches, brain temperature and exercise in horses. Biology Letters, Vol. 2, Issue. 3, p. 475.

SMITH, J. E. BARNES, A. L. and MALONEY, S. K. 2006. A nonsurgical method allowing continuous core temperature monitoring in mares for extended periods, including during endurance exercise. Equine Veterinary Journal, Vol. 38, Issue. S36, p. 65.

Ostrowski, Stéphane and Williams, Joseph B. 2006. Heterothermy of free-living Arabian sand gazelles (Gazella subgutturosa marica) in a desert environment. Journal of Experimental Biology, Vol. 209, Issue. 8, p. 1421.

Maloney, Shane K. Mitchell, Duncan and Blache, Dominique 2007. The contribution of carotid rete variability to brain temperature variability in sheep in a thermoneutral environment. American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, Vol. 292, Issue. 3, p. R1298.

Mitchell, G and Lust, A 2008. The carotid rete and artiodactyl success. Biology Letters, Vol. 4, Issue. 4, p. 415.

BROOKS, C. BONYONGO, C. and HARRIS, S. 2008. Effects of Global Positioning System Collar Weight on Zebra Behavior and Location Error. The Journal of Wildlife Management, Vol. 72, Issue. 2, p. 527.

Brooks, C.J. and Harris, Stephen 2008. Directed movement and orientation across a large natural landscape by zebras, Equus burchelli antiquorum. Animal Behaviour, Vol. 76, Issue. 2, p. 277.

Maloney, Shane K. Fuller, Andrea Meyer, Leith C. R. Kamerman, Peter R. Mitchell, Graham and Mitchell, Duncan 2009. Brain thermal inertia, but no evidence for selective brain cooling, in free-ranging western grey kangaroos (Macropus fuliginosus). Journal of Comparative Physiology B, Vol. 179, Issue. 3, p. 241.

Wilson, Wendy A. O’Riain, M. Justin Hetem, Robyn S. Fuller, Andrea and Fick, Linda G. 2010. Winter body temperature patterns in free-ranging Cape ground squirrel, Xerus inauris: no evidence for torpor. Journal of Comparative Physiology B, Vol. 180, Issue. 7, p. 1099.

Meir, Jessica U. and Ponganis, Paul J. 2010. Blood Temperature Profiles of Diving Elephant Seals. Physiological and Biochemical Zoology, Vol. 83, Issue. 3, p. 531.

Hetem, Robyn Sheila Strauss, Willem Maartin Fick, Linda Gayle Maloney, Shane Kevin Meyer, Leith Carl Rodney Shobrak, Mohammed Fuller, Andrea and Mitchell, Duncan 2010. Variation in the daily rhythm of body temperature of free-living Arabian oryx (Oryx leucoryx): does water limitation drive heterothermy?. Journal of Comparative Physiology B, Vol. 180, Issue. 7, p. 1111.

Foreman, J.H. 2012. The effects of prolonged endurance exercise on the neurological system in horses. Comparative Exercise Physiology, Vol. 8, Issue. 2, p. 81.

Meir, Jessica U. and Milsom, William K. 2013. High thermal sensitivity of blood enhances oxygen delivery in the high-flying bar-headed goose. Journal of Experimental Biology,

Fuller, Andrea Hetem, Robyn S. Maloney, Shane K. and Mitchell, Duncan 2014. Adaptation to Heat and Water Shortage in Large, Arid-Zone Mammals. Physiology, Vol. 29, Issue. 3, p. 159.

Fuller, Andrea Mitchell, Duncan Maloney, Shane K. and Hetem, Robyn S. 2016. Towards a mechanistic understanding of the responses of large terrestrial mammals to heat and aridity associated with climate change. Climate Change Responses, Vol. 3, Issue. 1,

Hetem, Robyn S. Maloney, Shane K. Fuller, Andrea and Mitchell, Duncan 2016. Heterothermy in large mammals: inevitable or implemented?. Biological Reviews, Vol. 91, Issue. 1, p. 187.

Download full list

Article contents

Absence of selective brain cooling in free-ranging zebras in their natural habitat

Abstract

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Absence of selective brain cooling in free-ranging zebras in their natural habitat

Abstract

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests