COOPERATION MAKES IT HAPPEN Homeostasis. What is homeostasis? The ability of all living things – plants, animals, even bacteria – to maintain stable internal.

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Presentation transcript:

COOPERATION MAKES IT HAPPEN Homeostasis

What is homeostasis? The ability of all living things – plants, animals, even bacteria – to maintain stable internal conditions in response to changing environmental conditions.  Stimuli – anything in the environment that causes a response Conditions inside living things must remain within tolerable limits or else the cells/organism will not be able to function properly.

BODY TEMPERATURE BLOOD PRESSURE BLOOD PH LEVEL GLUCOSE LEVELS IN THE BLOOD OSMOREGULATION – WATER BALANCE What are some examples of things that need to be kept within a certain range in our bodies?

How does homeostasis work? Feedback mechanisms  Specific systems and structures must communicate and work together to keep levels and processes within normal ranges  Positive feedback vs. Negative feedback  Negative feedback occurs more often Allows baseline to be regained Conserves resources like energy and cellular materials

Key Players Your endocrine system plays an important role in maintaining homeostasis.  It produces and secretes the hormones that regulate many body processes  Feedback mechanisms are needed to control hormone secretions used to regain internal balance Your nervous system also plays an important role because it sends the messages out to the body to elicit a response to the stimuli.

Negative Feedback Occurs when your systems need to slow down or completely stop a process that is happening. Various receptors and effectors bring about a reaction to ensure that conditions remain favorable.  A receptor is a structure that monitors internal conditions, sense changes, and initiate a response (usually by sending signals to the brain)  Effectors are muscles, organs, or other structures that receive signals from the brain. When an effector receives a signal from the brain, it changes its function in order to correct the change.

Negative Feedback

Example 1 Example 2 When you eat, food travels into your stomach, and digestion begins. You don't need your stomach working if you aren't eating. The digestive system works with a series of hormones and nervous impulses to stop and start the secretion of acids in your stomach. When your body's temperature begins to rise and a negative feedback response works to counteract and stop the rise in temperature. Sweating is a good example of negative feedback. Negative Feedback

Example 3 After you exercise, you feel thirsty because of the drop in water content in your blood. The hypothalamus senses this and signals the pituitary gland to release ADH (antidiuretic). ADH reduces the water content of urine. The hypothalamus senses that level in blood is back up and signals pituitary gland to stop making ADH. Negative Feedback

Positive Feedback Positive feedback is the opposite of negative feedback in that it encourages a physiological process or amplifies the action of a system. Positive feedback is a cyclic process that can continue to amplify your body's response to a stimulus until a negative feedback response takes over. Less common

Example 1 Example 2 Your stomach normally secretes a compound called pepsinogen that is an inactive enzyme. As your body converts pepsinogen to the enzyme pepsin, it triggers a process that helps convert other pepsinogen molecules to pepsin. This cascade effect occurs and soon your stomach has enough pepsin molecules to digest proteins. When you get a cut your cells produce the enzyme thrombin to aid in blood clotting. The production of thrombin causes more thrombin to be produced. Blood clotting will occur faster and faster. Positive Feedback

Example 3 Positive Feedback

Disease and cellular malfunction can be caused in two basic ways: Deficiency – cells not getting all they need Toxicity – cells being poisoned by things they do not need How could an imbalance of homeostasis cause disease?

Internal Influences External Influences Genetics  Type 1 Diabetes  Predisposition to heart disease or some cancers Environment exposure  Drug toxins Lifestyle choices  Diet – lack of essential vitamins and minerals  Anemia – iron deficiency which affect oxygen content  Physical activity – adequate sleep and exercise What factors do you think influence your ability to maintain homeostasis?