The respiratory system responds to changes primarily at the levels of the lungs, alveoli, and the central nervous system. Chemoreceptors in the brainstem and peripheral arteries detect changes in carbon dioxide and oxygen levels, triggering adjustments in breathing rate and depth. Additionally, the alveoli respond to changes in gas concentrations by facilitating gas exchange, while the lungs can adjust airflow and resistance through bronchoconstriction or bronchodilation. Together, these mechanisms help maintain homeostasis in the body's respiratory function.
As your heart slows down, so does your entire respiratory system.
Respiratory system
how can respiatory system respond to internal and external stimuli
in the alveoli
Medulla Oblongata
respiratory system endocrine system
After a period of anaerobic respiration, the respiratory system responds by increasing the rate and depth of breathing to expel excess carbon dioxide and replenish oxygen levels. This heightened respiratory activity helps clear lactic acid produced during anaerobic metabolism and restores the body's aerobic capacity. Additionally, the increased oxygen intake supports recovery and energy production as the body shifts back to aerobic respiration.
The respiratory system is the system that handles breathing.
There are hair follicles in that distribution that respond to the increased levels of testosterone and change the type of hair they produce from a fine vellus hair to thicker androgenic hair. It is in direct response to increased circulating levels of testosterone in your system.
Respiratory disturbances affect the levels of carbon dioxide in the blood, which can disrupt the bicarbonate buffer system. For example, in respiratory acidosis, decreased ventilation can lead to an increase in carbon dioxide levels, causing a shift towards metabolic acidosis. In contrast, in respiratory alkalosis, hyperventilation can decrease carbon dioxide levels, leading to a shift towards metabolic alkalosis.
chemoreceptors
It becomes oxygenated.