The plants that plants that inside that water are green and are autotrophs and can produce their food by photosynthesis through the light which come in water of sun and they made their food through photosynthesis. During this process the oxygen is also produced which is used by plants for respiration and access oxygen is given out which is then used by the sea animals for respiration.
The Higher you go, the colder it gets and less oxygen.
Animals without blood, such as sea sponges, obtain oxygen and nutrients through diffusion. They rely on their porous body structures to allow oxygen and food particles to diffuse in and waste products to diffuse out. This process occurs through direct contact with their environment.
Oxygen does dissolve into sea water, as do many other gasses such as CO2.
A lower partial pressure of CO2 at sea level can facilitate the diffusion of CO2 from tissues to blood. This promotes efficient removal of CO2 during gas exchange in terrestrial animals, ensuring effective respiration and transportation of gases in the body.
Sea stars do not sleep in the same way animals with brains do. They are known to be less active at night and may slow down their movements when resting. Sea stars are constantly filtering water and moving around even when they appear to be still.
because there is more oxygen in the air than in water, land creatures use more oxygen because there is more water around them, sea creature use less oxygen because there is less oxygen around them. simple really. hope this help you.
Underwater, animals have special adaptations to extract oxygen from sea water. Fish, for example, use their gills to convert water into usable oxygen.
Because there are many harmful sea animals who can harm humans and there is no oxygen under the sea to breathe in.
Less oxygen
The mass of oxygen in one breath remains constant as you climb from sea level. However, the decrease in atmospheric pressure at higher altitudes can make it feel like you are getting less oxygen with each breath, leading to symptoms of altitude sickness.
No, H2O is H20 there will always be the same amount of oxygen no matter the depth of the water.This person iswrong don't listen to him, there is less oxygen in the depths of the ocean as oxygen tends to float to the surface from the pressure of the sea.
not sure about the air but when waste goes into the sea the bacteria uses up all the oxygen, so the plants and sea life get less oxygen and die.
Sea animals eat and need water and so do land animals.
well.logically it just makes sense that since there is less oxygen above sea level (mt Everest roughly 1/3 of the oxygen at sea level) that there would be more oxygen below sea level. note: this is completely hypothetical and has no scientific backing whatsoever
Sea lilies obtain oxygen through a process called diffusion, where oxygen is absorbed directly from the surrounding seawater through their skin and tube feet. They do not have gills or lungs like some other marine animals.
At 8000 feet above sea level, there is approximately 25% less oxygen available compared to sea level. This reduction in oxygen levels can make breathing more difficult and can affect physical performance for individuals not acclimated to high altitudes. It's important to acclimatize properly when ascending to high altitudes to avoid altitude sickness.
There are no native animals in Antarctica.Many sea animals, including penguins and seals, come to the Antarctic continent to breed and fledge their young.When the young are more or less self-sufficient, all the animals return to the sea, where they live.