Animal Life at Low TemperatureSpringer Science & Business Media, 1992 - 246 páginas To humans, cold has a distinctly positive quality. 'Frostbite', 'a nip in the air', 'biting cold', all express the concept of cold as an entity which attacks the body, numbing and damaging it in the process. Probably the richness of descriptive English in this area stems from the early experiences of a group of essentially tropical apes, making their living on a cold and windswept island group half way between the Equator and the Arctic. During a scientific education we soon learn that there is no such thing as cold, only an absence of heat. Cold does not invade us; heat simply deserts. Later still we come to appreciate that temperature is a reflection of kinetic energy, and that the quantity of kinetic energy in a system is determined by the speed of molecular movement. Despite this realization, it is difficult to abandon the sensible prejudices of palaeolithic Homo sapiens shivering in his huts and caves. For example; appreciating that a polar bear is probably as comfortable when swimming from ice floe to ice floe as we are when swimming in the summer Mediterranean is not easy; understanding the thermal sensa tions of a 'cold-blooded' earthworm virtually impossible. We must always be wary of an anthropocentric attitude when considering the effects of cold on other species. |
Contenido
Basic concepts | 4 |
The cold environment | 33 |
Behavioural responses to low temperature | 66 |
Anatomy and physiology of endotherms | 88 |
Sleep torpor and hibernation | 110 |
11 | 128 |
Subzero survival in terrestrial animals | 139 |
Subzero temperatures and marine ectotherms | 154 |
233 | 169 |
Man and cold | 185 |
Evolution and low temperature | 209 |
References | 220 |
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Términos y frases comunes
acclimation activity adaptation amphipods animals Antarctic antifreeze arctic areas arousal arthropods Balsfjord basking bats behaviour Bergmann's Rule Biological blood body fluids body temperature body weight burrows capelin cell chorion cold concentrations cooling core temperature cryoprotective Davenport demonstrated DeVries diapause ectotherms effects eggs endotherms energy environment environmental temperatures exposed fatty acids Figure fish freezing point freezing-tolerant function glycerol glycopeptides gradients haemolymph heart rate heat loss hibernacula hibernation high latitude hypothermia ice crystals increase insects insulation intertidal intracellular Inuit invertebrates levels lipid living lizard low temperatures mammals marine melting point membrane metabolic rate molecules muscle mussels nests nucleating agents osmolarity osmotic particularly peptide peratures periods peripheral physiological plasma polar polyols polyploidy proteins reduced relatively reptiles respiratory response salinity sauropods sea water shivering skin snow species Storey summer supercooling surface survival teleost temperate terrestrial thermal thermogenesis thermoregulation tissues tolerance torpid torpor tropical vasoconstriction warm weather winter