Homeostasis: Maintaining the Internal Environment (DP IB Biology)
Revision Note
Maintaining the Internal Environment
The process of maintaining a constant internal environment is known as homeostasis
Homeostasis ensures that conditions inside the body are kept within preset limits
Homeostasis is critically important for organisms as it ensures the maintenance of optimal conditions for enzyme action and cell function
Sensory cells can detect information about the conditions inside and outside the body; if conditions have changed then the body can respond to keep conditions constant
Examples of physiological factors that are controlled by homeostasis in mammals include
Core body temperature
Blood pH
Concentration of glucose in the blood
Osmotic concentration of the blood
Negative Feedback Loops
The majority of homeostatic control mechanisms in organisms use negative feedback loops to achieve homeostasis
Negative feedback mechanisms work to return values to a set point; they reverse the effects of any change within a system
Negative feedback loops are essential for maintaining conditions within set limits; this is not the case in positive feedback mechanisms which instead amplify any change
Negative feedback control loops involve:
A receptor – receptor cells detect change in a physiological factor
A coordination system – the brain and nervous system transfer information between different parts of the body
An effector – the muscles and glands bring about a response
Outcome of a negative feedback loop:
The factor / stimulus is continuously monitored
If there is an increase in the factor, the body responds to make the factor decrease
If there is a decrease in the factor, the body responds to make the factor increase
Negative feedback loops maintain conditions to a set point
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