• Control of body temperature is a?homeostatic?mechanism
• Homeostasis is?the maintenance of a constant internal environment
• This means that?internal conditions within your body?(such as temperature, blood pressure, water concentration, glucose concentration etc) need to be?kept within set limits?in order to ensure that reactions in body cells can function and therefore the organism as a whole can live
• The human body maintains the temperature at which enzymes work best, around?37°C
• If body temperature increases over this temperature,?enzymes will denature?and become less effective at catalysing reactions such as respiration

The Structure of the Skin

A cross-section of human skin

Temperature Regulation by the Skin

• Regulation is controlled by the?brain?which contains?receptors?sensitive to the temperature of the?blood
• The?skin?also has?temperature receptors?and sends nervous impulses to the brain via?sensory neurones
• The brain responds to this information by sending nerve impulses to?effectors?in the skin to?maintain the temperature within a narrow range of the optimum, 37°C
• Fatty tissue?under the dermis acts as a layer of?insulation?to prevent too much body heat being lost through the skin

Homeostatic responses to changes in body temperature

Responses to changes in temperature:

• When we are?cold?blood flow in capillaries slows down because arterioles leading to the skin capillaries get narrower - this is known as?vasoconstriction
• This?reduces the amount of heat lost from blood by radiation?as less blood flows through the surface of the skin
• When we are?hot?blood flow in capillaries increases because blood vessels to the skin capillaries get wider - this is known as?vasodilation
• This cools the body as blood (which carries heat around the body) is flowing at a faster rate through the skin’s surface and so?more heat is lost by radiation

Responses in the skin when hot

Responses in the skin when cold

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