It takes in water (which has oxygen in it) through the gills, takes out the oxygen, and then uses it.
well oxygen dissolves in the water and makes it dissolved oxygen and so they still take in regular oxygen just mixed with water
Yes organisms take oxygen from the air and aquatic organisms take oxygen from the water using their gills. Some do. Most only from one or the other. For example a tuna fish gets pretty much all its oxygen from oxygen dissolved in water. Humans get all our oxygen from the air. Mudskippers get oxygen from both. Yes. Land animals take in oxygen that plants release using their noses. On the other hand, aquatic or marine animals take in oxygen using their gills.
Neither trachea nor bronchial tree take in any oxygen from the air. It gets oxygen via blood supply.
They take in oxygen and filter water from their gills. They use the 0 from the H20 basically.
Eutrophication is a process that occurs when a body of water receives an excessive amount of nutrients, primarily nitrogen and phosphorus. This often occurs when fertilizers, sewage, and other sources of nutrients enter the water from runoff or drainage. These nutrients stimulate rapid growth of aquatic plants and algae, resulting in an increase in their populations. This process can cause an overabundance of plant and algae growth, leading to decreased oxygen levels in the water. The decreased oxygen levels can have serious implications for aquatic life. Most aquatic plants and animals require oxygen to survive, so when oxygen levels are depleted due to eutrophication, the survival of many species can be threatened. The decrease in oxygen levels can also lead to an increase in the number of harmful bacteria and other organisms in the water, which can further threaten the health of the aquatic environment. In addition to the direct effects of eutrophication on aquatic life, it can also have indirect effects. For example, when aquatic plants and algae grow rapidly due to excessive nutrients, they can block out light and reduce the amount of sunlight that reaches the bottom of the lake or pond. This can have an effect on the growth of plants and other organisms at the bottom of the lake or pond, as they require sunlight in order to photosynthesize. The effects of eutrophication can be devastating for aquatic life, leading to decreased oxygen levels and reduced growth of plants and other organisms. It is important to take steps to reduce eutrophication in order to protect aquatic life. This can include reducing the amount of nutrients entering the water from runoff or drainage, as well as increasing the amount of vegetation around the body of water to reduce nutrient runoff.
2 hours
yes. fishes receive oxygen under ocean . This is because of aquatic plants.
yes
The leaves supply almost all of the oxygen, so through the air.
The key to a healthy pond is keeping the water clear and ensuring that plants do not take over. If you have the right balance of plants and oxygen, you will encourage wildlife and your aquatic plants will thrive.
to take in air and seperate the oxygen from the other gases. also to supply the oxygen to the blood and finely to exhale the carbon dioxide fron your body.
Plants are very important in maintaining balance in our ecosystem. Carbon-di-oxide is very important for All plants including the aquatic type that take in carbon-di-oxide and release oxygen in the atmosphere. Carbon-di-oxide is very important for plants where as oxygen gas is crucial for human beings.