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Ecosystems primarily gain carbon through the process of photosynthesis, where plants, algae, and certain bacteria convert carbon dioxide from the atmosphere into organic matter using sunlight. This carbon is then transferred through the food web as organisms consume plants and each other. Additionally, carbon can be deposited in soils and sediments, contributing to long-term carbon storage. Overall, photosynthesis is the key mechanism through which ecosystems capture and store carbon.
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From what place does most of the ecosystem get its carbon from?
Most of the carbon in ecosystems comes from the atmosphere, primarily in the form of carbon dioxide (CO2). Through the process of photosynthesis, plants absorb CO2 and convert it into organic matter, which forms the basis of the food web. Additionally, carbon is also released back into the atmosphere through respiration and decomposition, creating a dynamic carbon cycle. Overall, the atmosphere is the primary source of carbon for the majority of ecosystems.
Differences of the carbon and energy in ecosystems?
In ecosystems, carbon refers to the element that cycles through living organisms and the environment, playing a key role in processes like photosynthesis and respiration. Energy, on the other hand, is the ability to do work and is transferred through trophic levels in an ecosystem via food chains. Both carbon and energy are essential for the functioning of ecosystems, but while carbon cycles, energy flows through ecosystems.
How is the carbon cycle realted to energy flow in ecosystems?
related*
Is water nitrogen carbon and oxygen recycled in ecosystems?
yes
How much carbon sequestration per acre is typically achieved in grassland ecosystems?
Grassland ecosystems typically sequester around 1 to 2 tons of carbon per acre per year.
From what place does most of the ecosystem get its carbon from?
Most of the carbon in ecosystems comes from the atmosphere, primarily in the form of carbon dioxide (CO2). Through the process of photosynthesis, plants absorb CO2 and convert it into organic matter, which forms the basis of the food web. Additionally, carbon is also released back into the atmosphere through respiration and decomposition, creating a dynamic carbon cycle. Overall, the atmosphere is the primary source of carbon for the majority of ecosystems.
Differences of the carbon and energy in ecosystems?
In ecosystems, carbon refers to the element that cycles through living organisms and the environment, playing a key role in processes like photosynthesis and respiration. Energy, on the other hand, is the ability to do work and is transferred through trophic levels in an ecosystem via food chains. Both carbon and energy are essential for the functioning of ecosystems, but while carbon cycles, energy flows through ecosystems.
What are the cycles in the ecosystems?
carbon cycle and the water cycle
How is the carbon cycle realted to energy flow in ecosystems?
related*
Is water nitrogen carbon and oxygen recycled in ecosystems?
yes
What materials are part of the three most important cycles in the ecosystems?
The three most important cycles in ecosystems are made of the materials water, carbon and nitrogen. As a result of these three cycles, the ecosystem is able to dispose of waste and recycle elements back into nature.
How much carbon sequestration per acre is typically achieved in grassland ecosystems?
Grassland ecosystems typically sequester around 1 to 2 tons of carbon per acre per year.
How does carbon get into the oceans and what impact does it have on marine ecosystems?
Carbon enters the oceans through a process called carbon sequestration, where carbon dioxide from the atmosphere dissolves in the water. This can lead to ocean acidification, which can harm marine ecosystems by affecting the growth and survival of marine organisms like corals and shellfish.
What is the basic difference between the autotrophs and the heterotraphs?
autotrophs gain carbon via CO2. Heterotrophs gain carbon by consuming organic molecules.
What Is the biogeochemical cycle in which carbon cycles through earth's ecosystems?
The biogeochemical cycle that involves the cycling of carbon through Earth's ecosystems is known as the carbon cycle. This cycle involves the movement of carbon between the atmosphere, oceans, soil, and living organisms through processes such as photosynthesis, respiration, and decomposition. Carbon plays a crucial role in the regulation of Earth's climate and is a key component of all living organisms.
Is carbon a limiting nutrient?
Yes, carbon can be a limiting nutrient for certain organisms in ecosystems, especially in marine environments where it is needed for photosynthesis to produce energy. In terrestrial ecosystems, carbon availability can also impact plant growth and productivity in certain conditions.
How many electrons does carbon gain?
4
