Constant interval enviroment

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Angelina

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Homeostasis is the regulation of the internal conditions of a cell or organism
Some examples of these internal conditions include:
Water content (of an individual cell or of the body fluids of an organism)
Body temperature
pH
Blood pressure
Blood glucose concentration
It is important for an organism to respond to internal and external environmental changes whilst maintaining optimum internal conditions for enzyme action and healthy cell functions
If the homeostatic limits are exceeded, the organism may die
Control of homeostasis
Maintaining controlled conditions within the body is under involuntary (automatic) control
This means that the brain stem (or non-conscious part of the brain) and the spinal cord are involved in maintaining homeostasis – you don’t consciously maintain your body temperature or blood glucose level
These automatic control systems may involve nervous responses or chemical responses
All control systems include:
Cells called receptors, which detect stimuli (changes in the environment)
Coordination centres (such as the brain, spinal cord and pancreas) that receive and process information from receptors
Effectors (muscles or glands) which bring about responses which restore optimum levels
The majority of homeostatic control mechanisms in organisms use negative feedback to maintain homeostatic balance (ie. to keep certain physiological factors, such as blood glucose concentration, within certain limits)
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
The system is restored to its original level
Negative feedback mechanisms are usually a continuous cycle of bringing levels down and then bringing them back up so that overall, they stay within a narrow range of what is considered ‘normal’
A negative feedback control loop: