salmon
Squids are aquatic animals that use gills for respiration. They extract oxygen from water passing over their gills and release carbon dioxide. Squids also have a siphon or funnel through which they can expel water, allowing them to jet-propel through the water.
Direct respiration is the process by which an organism exchanges gases with its environment without the use of specialized respiratory organs, such as lungs or gills. This type of respiration is common in many simple aquatic animals and allows for the direct diffusion of gases, such as oxygen and carbon dioxide, across the organism's body surface.
Most aquatic animals use gills to extract oxygen from water. Through a process called gas exchange, they take in water containing dissolved oxygen, absorb the oxygen through their gills, and release carbon dioxide back into the water.
Fish use their gills to extract oxygen from water for respiration. As water passes over the gills, oxygen diffuses from the water into the fish's blood, while carbon dioxide diffuses out. This process is essential for the fish to obtain the oxygen necessary for survival.
Animals use various mechanisms such as lungs for gas exchange, gills for aquatic respiration, digestive systems for nutrient absorption, and skin for diffusion of gases and wastes. Additionally, animals have specialized structures like alveoli in lungs, villi in intestines, and capillary networks to increase surface area for efficient exchange of materials. Some animals also use specialized respiratory pigments like hemoglobin to enhance the transport of oxygen.
Breathing is breathing is breathing whatever you use to do it with. There is no special term or word to my knowledge that specifically means "Breathing with gills".
Squids are aquatic animals that use gills for respiration. They extract oxygen from water passing over their gills and release carbon dioxide. Squids also have a siphon or funnel through which they can expel water, allowing them to jet-propel through the water.
Oysters have gills. They absorb oxygen from the water.
Direct respiration is the process by which an organism exchanges gases with its environment without the use of specialized respiratory organs, such as lungs or gills. This type of respiration is common in many simple aquatic animals and allows for the direct diffusion of gases, such as oxygen and carbon dioxide, across the organism's body surface.
Most aquatic animals use gills to extract oxygen from water. Through a process called gas exchange, they take in water containing dissolved oxygen, absorb the oxygen through their gills, and release carbon dioxide back into the water.
Generally the body parts used for breathing (exchanging gases with the atmosphere for respiration) are:lungs in most larger animals (mammals, reptile, birds)gills in aquatic animals (fish, amphibians, cephalopods)diffuse tracheal systems (insects)some animals use secondary methods of breathing as their gills or lungs are not sufficient for their needs (animals such as frogs and eels) they use their skin to supplement the gas exchange
Yes, gills are organs that aquatic animals use for breathing underwater. They extract oxygen from water and release carbon dioxide as a byproduct.
amphibians use gills AND lungs, fish/marine life use gills alone
Gills or gill-like organs are found in various groups of aquatic animals, such as mollusks, fishes, crustaceans, insects, and amphibians. Please see the related link below for more information:
The mollusc group that includes primarily sedentary animals using mucus-coated gills to trap fine food particles is bivalves. This group includes clams, oysters, and mussels, which typically live in aquatic environments and filter-feed by siphoning water through their gills. The gills not only serve for respiration but also play a crucial role in feeding by capturing plankton and other small food particles from the water.
They use their skin for respiration then some have gills.
Fish Use Gills Instead of lungs. Gills Help fish to Breath. Fish Use Gills Instead of lungs. Gills Help fish to Breath.