Organisms such as protozoans, bacteria, and plants use photosynthesis to pull in CO2 from the atmosphere, releasing oxygen as a by product of the photosynthetic process.
The ocean is primarily a sink of carbon in the Earth's carbon cycle.
The carbon reservoir in the deep ocean plays a crucial role in the global carbon cycle by storing and releasing carbon dioxide over long periods of time. This helps regulate the amount of carbon dioxide in the atmosphere, which is important for maintaining Earth's climate and overall balance of carbon in the environment.
Oceans play a crucial role in the carbon cycle by absorbing carbon dioxide from the atmosphere. This absorbed carbon is used by phytoplankton for photosynthesis, which generates oxygen and is a key component of the marine food web. Additionally, carbon that is dissolved in the oceans can be stored in the deep ocean for long periods, helping to regulate the Earth's climate.
Phytoplankton, tiny marine plants, play a crucial role in carbon capture in the ocean through photosynthesis. They absorb carbon dioxide from the water and atmosphere, converting it into organic carbon. When phytoplankton die or are eaten by other organisms, this organic carbon sinks to the ocean floor, effectively removing carbon from the atmosphere and storing it in the deep ocean. This process helps regulate the Earth's carbon cycle and mitigate climate change.
Fossil fuels play a significant role in the carbon cycle by releasing carbon dioxide into the atmosphere when burned, contributing to the greenhouse effect and climate change.
The ocean is primarily a sink of carbon in the Earth's carbon cycle.
The carbon reservoir in the deep ocean plays a crucial role in the global carbon cycle by storing and releasing carbon dioxide over long periods of time. This helps regulate the amount of carbon dioxide in the atmosphere, which is important for maintaining Earth's climate and overall balance of carbon in the environment.
An increase in ocean phytoplankton can enhance the carbon cycle by boosting carbon fixation through photosynthesis, as these microorganisms absorb carbon dioxide (CO2) from the atmosphere. This process leads to greater sequestration of carbon in the ocean, potentially mitigating climate change. Additionally, when phytoplankton die, they sink to the ocean floor, effectively trapping carbon in deep waters for extended periods. However, changes in phytoplankton populations can also affect nutrient cycling and marine ecosystems, highlighting the complexity of their role in the carbon cycle.
Oceans play a crucial role in the carbon cycle by absorbing carbon dioxide from the atmosphere. This absorbed carbon is used by phytoplankton for photosynthesis, which generates oxygen and is a key component of the marine food web. Additionally, carbon that is dissolved in the oceans can be stored in the deep ocean for long periods, helping to regulate the Earth's climate.
Oceans have important role. It is a part of water cycle.
both cycles transfer either carbon or nitrogen from the ocean to the atmosphere or from the atmosphere to the ocean.
Animal's role in the carbon cycle is the exchange of carbon dioxide and oxygen between plants. Plants need carbon dioxide for photosynthesis, and the byproduct is oxygen that all living things need to live. Then animals breath out carbon dioxide to be in taken by plants.
Phytoplankton are part of the carbon cycle, as they play a vital role in removing carbon dioxide from the atmosphere through photosynthesis. This process helps regulate the Earth's climate by transferring carbon to the deep ocean and ultimately contributing to the formation of sedimentary rocks.
a huge role
to evaporate
Carbon dioxide gas is largely involved in the carbon cycle. Carbon mono-oxide also plays a very limited role in this cycle.
organic compounds