Difference between revisions of "Thermoregulation - Anatomy & Physiology"
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*Sweating Stops | *Sweating Stops | ||
*Cutaneous arteries constrict - ''Vasoconstriction''. This minimises heat loss from the blood to the body surface. | *Cutaneous arteries constrict - ''Vasoconstriction''. This minimises heat loss from the blood to the body surface. | ||
− | *[[Hair - Anatomy & Physiology|Hairs]] on the skin are raised involuntarily by the ''arrector pili'' | + | *[[Hair - Anatomy & Physiology|Hairs]] on the skin are raised involuntarily by the ''arrector pili'' muscles attached to each hair follicle. This layer acts as an insulator, trapping heat. |
+ | *Increased Heat Production - muscles receive messages from the brain causing shivering. This causes increased heat production as the muscle cells respire. | ||
+ | *Respiration - this may be increased as respiration is an exothermic reaction. |
Revision as of 14:53, 5 August 2008
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Thermoregulation
Thermoregulation is the ability of an endothermic organism to maintain a relatively constant body temperature despite fluctuations in temperature of the external environment. This is a vital part of homeostasis.
- Homeotherm/Endotherm: an organism with an internal temperature which remains relatively constant despite external temperature fluctuations.
- Poikilotherm/Ectotherm: an organism having a body temperature which fluctuates with the external environment - eg Fish, Reptile.
Mechanism of Action
The thermoregulatory mechanism consists of:
- Sensory Component: neurones that possess nerve endings with thermoreceptors continuously monitor body temperature and transmit it to the integrating centre. These neurons may be within the skin or internal organs.
- Integrating Centre: the Hypothalamus is the control centre in the brain which compares the temperature information with an Internal Reference or Set point.
- Motor Component: neurons which send signals to alter the internal temperature - altering heat production or heat loss.
- These command signals may travel via the somatic motor system and affect heat production in skeletal muscle.
- These command signals may travel via the Sympathetic Nerve Fibres and change
- Blood Flow to the Skin
- Sweat Gland Activity
- Activity of the smooth muscles which regulate fur/plumage thickness
Adaptation to Heat
- Sweating - causes heat loss via evaporation.
- Reduction of the resistance of cutaneous arterioles = Vasodilation. This allows more heat from the circulation to be transferred to the air.
- Hairs on the skin lie flat - the arrector pili muscle attached to the proximal end of each hair follicle relax to minimise heat being trapped by the hairs.
Adaptation to Cold
- Sweating Stops
- Cutaneous arteries constrict - Vasoconstriction. This minimises heat loss from the blood to the body surface.
- Hairs on the skin are raised involuntarily by the arrector pili muscles attached to each hair follicle. This layer acts as an insulator, trapping heat.
- Increased Heat Production - muscles receive messages from the brain causing shivering. This causes increased heat production as the muscle cells respire.
- Respiration - this may be increased as respiration is an exothermic reaction.