What is the Difference Between Allostasis and Homeostasis?
🆚 Go to Comparative Table 🆚Homeostasis and allostasis are related concepts in physiological regulation, but they have distinct meanings and implications.
Homeostasis refers to a biological system's state of internal dynamic equilibrium with respect to external or internal changes. It is the maintenance of a stable internal environment in an organism despite external changes. Homeostasis regulates variables such as body temperature, pH, and the concentration of essential elements like Na+, Ca2+, and K+. It is crucial for the survival of organisms and involves various physiological processes, such as the regulation of heart rate, respiration, and digestion.
Allostasis, on the other hand, refers to the process of achieving stability through physiological and behavioral changes during changing conditions. It is defined as achieving stability through change and is a more adaptive process. Allostasis involves the response to environmental changes and maintaining homeostasis over time. It includes the predictable and unpredictable, and involves the production of hormones (e.g., cortisol, adrenalin) and other mediators (e.g., cytokines, parasympathetic activity) that help an organism adapt to new situations or challenges.
The main differences between allostasis and homeostasis are:
- Homeostasis is a general phenomenon of organisms that maintains a stable internal environment, while allostasis is a more adaptive process that responds to environmental changes.
- Homeostasis relies on physiological processes within the organism, while allostasis relies on environmental changes to maintain stability.
- Homeostasis is important for the survival of organisms, while allostasis is important for adaptation.
In summary, homeostasis is the maintenance of a stable internal environment within an organism, while allostasis is the process of achieving stability through physiological and behavioral changes in response to changing conditions. Both concepts are essential for understanding the physiological regulation of organisms in their environment.
Comparative Table: Allostasis vs Homeostasis
Here is a table comparing the differences between allostasis and homeostasis:
Feature | Homeostasis | Allostasis |
---|---|---|
Definition | Homeostasis is the maintenance of a stable internal environment within an organism. | Allostasis is the process of achieving stability through physiological and behavioral changes. |
Purpose | To protect the body from harm by resisting physiological changes. | To adapt to environmental changes and maintain internal viability. |
Responses | Homeostatic responses are not detrimental and regulate set points, such as concentration, pH, and temperature. | Allostasis creates chronic responses, which can be detrimental to the organism. |
Regulation | Regulated by sensors and regulators in the hypothalamus, spinal cord, internal organs, kidneys, carotid artery, and aortic arch. | Regulated by neuroendocrine, autonomic nervous, and immune systems. |
Examples | Homeostasis regulates body temperature, pH, and concentration of ions like Na+, Ca2+, and K+. | Allostasis is involved in compensated heart failure, kidney failure, and liver failure. |
In summary, homeostasis is the maintenance of a stable internal environment within an organism, while allostasis is the process of achieving stability through physiological and behavioral changes. Homeostasis serves to protect the body from harm by resisting physiological changes, whereas allostasis helps animals adapt to environmental changes and maintain internal viability. Homeostatic responses are not detrimental, while allostatic responses can be chronic and detrimental to the organism.
- Homeostasis vs Equilibrium
- Homeostasis vs Metabolism
- Homeothermic vs Poikilothermic
- Osmoregulation vs Thermoregulation
- Acclimation vs Adaptation
- Equilibrium vs Steady State
- Alkalosis vs Acidosis
- Allosteric vs Non-allosteric Enzymes
- Adaptation vs Acclimatization
- Metabolic Acidosis vs Metabolic Alkalosis
- Allosteric Site vs Active Site
- Dynamic Equilibrium vs Equilibrium
- Ectotherm vs Endotherm
- Adaptation vs Evolution
- Chemical Equilibrium vs Dynamic Equilibrium
- Endosmosis vs Exosmosis
- Natural Selection vs Adaptation
- Positive Feedback vs Negative Feedback
- Homogeneous vs Heterogeneous Equilibrium