TY  - GEN
N2  - Annotation
N2  - From the first unicellular life on Earth, living things have had the capacity to sense heat and cold and to avoid extreme temperatures. With the development of a bigger brain and a constant body temperature, mammals were able to change their habitats. The interplay between behavior, body temperature, and ambient temperature may have played a crucial role in human evolution. In this book Carl Gisolfi and Francisco Mora tell the evolutionary story of the brain and thermoregulation, with an emphasis on modern humans. The book first traces the story of the brain throughout evolution and shows how the control of body temperature as a survival mechanism was achieved. It then goes on to discuss the mechanisms of our environmental independence, why a body temperature of 37° C (only five degrees from death) is essential for humans and how this narrow temperature range is defended. It describes how we cope with environmental extremes, the function of fevers, and why thermoregulation is best understood through a combination of physiological and cognitive approaches. It also addresses such questions as "Can we cool the brain?" and "Is the elevation in brain temperature (a hot brain) the reason we stop exercising?"
AB  - Annotation
AB  - From the first unicellular life on Earth, living things have had the capacity to sense heat and cold and to avoid extreme temperatures. With the development of a bigger brain and a constant body temperature, mammals were able to change their habitats. The interplay between behavior, body temperature, and ambient temperature may have played a crucial role in human evolution. In this book Carl Gisolfi and Francisco Mora tell the evolutionary story of the brain and thermoregulation, with an emphasis on modern humans. The book first traces the story of the brain throughout evolution and shows how the control of body temperature as a survival mechanism was achieved. It then goes on to discuss the mechanisms of our environmental independence, why a body temperature of 37° C (only five degrees from death) is essential for humans and how this narrow temperature range is defended. It describes how we cope with environmental extremes, the function of fevers, and why thermoregulation is best understood through a combination of physiological and cognitive approaches. It also addresses such questions as "Can we cool the brain?" and "Is the elevation in brain temperature (a hot brain) the reason we stop exercising?"
T1  - The Hot Brain :Survival, Temperature, and the Human Body.
DA  - Jan. 2003.
CY  - Cambridge :
AU  - Gisolfi, Carl V.,
AU  - Mora Teruel, Francisco,
CN  - QP135
PB  - MIT Press
PP  - Cambridge :
PY  - Jan. 2003.
ID  - 1387297
KW  - Body temperature
KW  - Brain.
KW  - Evolution.
KW  - NEUROSCIENCE/General
SN  - 9780262273886
SN  - 0262273888
TI  - The Hot Brain :Survival, Temperature, and the Human Body.
LK  - https://univsouthin.idm.oclc.org/login?url=https://doi.org/10.7551/mitpress/3564.001.0001?locatt=mode:legacy
LK  - http://www.oclc.org/content/dam/oclc/forms/terms/vbrl-201703.pdf
UR  - https://univsouthin.idm.oclc.org/login?url=https://doi.org/10.7551/mitpress/3564.001.0001?locatt=mode:legacy
UR  - http://www.oclc.org/content/dam/oclc/forms/terms/vbrl-201703.pdf
ER  -