Living things use the reverse processes of photosynthesis and respiration. They are also involved in the process of decomposition, which can contribute to carbon release.
1. Biological Processes2. Geological Processes3. Chemical and Physical Processes4. Human ActivityThe biological processes like respiration, the geological processes like volcanic eruptions. Also there are the chemical/physical processes like rain, and lastly the human processes like the burning of fossil fuels.
Because the atmospheric CO2 concentration is part of the "Carbon Cycle" and biological and geological processes therefore affect it.
The non-examples of the carbon cycle are animals and energy.
the Carbon cycle
The two cellular processes that are involved in the oxygen-carbon cycle would be cellular respiration and photosynthesis. These are processes done by both plants and animals.
The two main biological processes in the carbon cycle are photosynthesis (which absorbs carbon) and cellular respiration (which moves it back to the atmosphere as carbon dioxide).
1. Biological Processes2. Geological Processes3. Chemical and Physical Processes4. Human ActivityThe biological processes like respiration, the geological processes like volcanic eruptions. Also there are the chemical/physical processes like rain, and lastly the human processes like the burning of fossil fuels.
Because the atmospheric CO2 concentration is part of the "Carbon Cycle" and biological and geological processes therefore affect it.
The non-examples of the carbon cycle are animals and energy.
The carbon cycle is the set of biogeochemical processes by which carbon undergoes chemical reactions, changes form, and moves through different reservoirs on earth, including living organisms.The geological component of the carbon cycle is driven by plate tectonics and includes processes like volcanic eruptions and burial of carbon-rich sediments on the ocean floor.The biological component of the carbon cycle is driven by respirationand photosynthesis by living organisms.Humans influence the global carbon cycle in several ways, but primarily through burning fossil fuels.
the Carbon cycle
The nitrogen cycle is the process by which nitrogen is converted between its various chemical forms. This transformation can be carried out to both biological and non-biological processes. Important processes in the nitrogen cycle include fixation, mineralization, nitrification, anddenitrification.
The two cellular processes that are involved in the oxygen-carbon cycle would be cellular respiration and photosynthesis. These are processes done by both plants and animals.
Carbon
respiration is the reverse of photosynthesis and are the important processes of carbon cycle and water cycle.
Carbon moves through the carbon cycle in all processes, except for the burning of fossil fuels. Fossil fuel burning releases carbon dioxide (CO2) into the atmosphere, which disrupts the natural carbon cycle by increasing the concentration of CO2, a greenhouse gas, in the atmosphere.
The non-examples of the carbon cycle are animals and energy.