Gills are the respiratory structures in aquatic animals that remove oxygen from water. They are specialized tissues with a large surface area that allows for efficient exchange of gases. Water passes over the gills, and oxygen diffuses from the water into the bloodstream of the aquatic animal.
Gills are the internal organs used by aquatic animals to remove oxygen from water. They extract oxygen from water through specialized structures and transfer it into the bloodstream to support the animal's respiratory process.
Marine organisms extract dissolved oxygen from seawater through their gills, lungs, or skin. These structures have respiratory surfaces with a large surface area, allowing for efficient exchange of oxygen and carbon dioxide with the surrounding water. Oxygen diffuses from the seawater into the organism's respiratory surface and is then transported to the cells for cellular respiration.
Boiling water will not remove oxygen from boiler water; it will actually deaerate the water, reducing the dissolved oxygen content. Oxygen removal from boiler water typically relies on mechanical deaeration processes or chemical treatments.
The respiratory system is responsible for taking oxygen into the body and removing carbon dioxide and water vapor. This process occurs through breathing, where oxygen is inhaled into the lungs and carbon dioxide is exhaled out of the body.
Oxygen is slightly soluble in water, with approximately 1 molecule of oxygen being dissolved for every 3 molecules of water at room temperature. This solubility increases with decreasing temperature and increasing pressure.
Gills are the internal organs used by aquatic animals to remove oxygen from water. They extract oxygen from water through specialized structures and transfer it into the bloodstream to support the animal's respiratory process.
Gills
Freshwater marine organisms obtain oxygen through diffusion across their body surface or through specialized respiratory structures like gills. They extract dissolved oxygen from the water around them to support their metabolic processes. Some organisms, like fish, have a more efficient respiratory system to extract oxygen from water.
No, boiling water does not remove oxygen from the water.
Euglena obtains oxygen through diffusion from its surroundings, as it lacks specialized respiratory structures. It eliminates carbon dioxide by diffusing it out of its cell membrane into the surrounding water.
Marine organisms extract dissolved oxygen from seawater through their gills, lungs, or skin. These structures have respiratory surfaces with a large surface area, allowing for efficient exchange of oxygen and carbon dioxide with the surrounding water. Oxygen diffuses from the seawater into the organism's respiratory surface and is then transported to the cells for cellular respiration.
The respiratory system moves oxygen in and carbon dioxide (CO2) out.
The gills
The gills.
its water
the respiratory medium of aquatic and terrestrial organisms are water and air respectively.Aquatic animals get oxygen dissolved in water while terrestrial animals get oxygen from atmospheric air.The oxygen content of air is much higher then the oxygen content of water.The ventilation in water is far more difficult than the ventilation in air because water is denser then air. Thus air is the better respiratory medium then water.
the respiratory medium of aquatic and terrestrial organisms are water and air respectively.Aquatic animals get oxygen dissolved in water while terrestrial animals get oxygen from atmospheric air.The oxygen content of air is much higher then the oxygen content of water.The ventilation in water is far more difficult than the ventilation in air because water is denser then air. Thus air is the better respiratory medium then water.