Answer:
Explanation:
Living beings are an individual being, with alive by which it denotes its name, we have a life cycle and a feeding cycle that nourishes part of our organism, however this does not mean that we are the same in everything.
There are living beings suitable for different environments of life, sea, ice, heat, land, and these are the factors that differentiate us, many of these species only live under the water they breathe through trach and not a breathing system like that of dogs. example.
This is one of many differences, we are living beings but we do not have the ability to clean the atmospheric air as silver does with CO2.
The differences are multiple and vary in themselves for each living being on planet earth.
Answer: By the rain, the animals that live in the ocean, and in the air.
Explanation:
The ocean plays an important part in the carbon cycle. Overall, the ocean is called a carbon ‘sink’ because it takes up more carbon from the atmosphere than it gives up.
Antarctic phytoplankton
Antarctic phytoplankton, Fragilaria kerguelensis (large group), Nitzschia sp. (single small cell on the left) and partial cell of Thalassiosira sp.
Carbon dioxide from the atmosphere dissolves in the surface waters of the ocean. Some of the carbon dioxide stays as dissolved gas, but much of it gets turned into other things. Photosynthesis by tiny marine plants (phytoplankton) in the sunlit surface waters turns the carbon into organic matter. Many organisms use carbon to make calcium carbonate, a building material of shells and skeletons. Other chemical processes create calcium carbonate in the water. The using up of carbon by biological and chemical processes allows more carbon dioxide to enter the water from the atmosphere.
I think it's a nuclear
Explanation:
nuclear energy has by far the highest capacity factor of any other energy source
During the day, plants produce oxygen by splitting water molecules in the light-dependent reactions of photosynthesis.
Light-dependent reactions occur in thylakoid membranes of chloroplasts and begin with the absorption of light energy. This energy (together with water and photosystems) is used for the production of ATP and the reduced electron carrier NADPH which are necessary for the next stage of photosynthesis. Oxygen is released.
At the same time, plants use cellular respiration to produce some of the carbon dioxide needed by the light-independent reactions to make sugars.
Cellular respiration is a chemical reaction of plants where they use glucose and oxygen to produce carbon dioxide and water and release energy.
During the night, plants produce carbon dioxide, but not oxygen because only cellular respiration takes place.
There is no sunlight at night, so only the cellular respiration occurs.
