One path a carbon molecule can take through the carbon cycle is through photosynthesis. In this process, plants absorb carbon dioxide from the atmosphere and convert it into glucose, a form of stored energy. When animals consume these plants, the carbon is transferred into their bodies. Eventually, through respiration or decomposition, the carbon is released back into the atmosphere as carbon dioxide, continuing the cycle.
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One path a carbon molecule can take in the carbon cycle begins when it is absorbed by plants during photosynthesis. The carbon is then incorporated into organic compounds like glucose, which can be consumed by animals. When these animals respire, they release carbon dioxide back into the atmosphere. Additionally, when plants and animals die, their organic matter can be decomposed by microorganisms, returning carbon to the soil or atmosphere and continuing the cycle.
No water can follow one of several paths that form the detailed cycle.
No water can follow one of several paths that form the detailed cycle.
Carbon dioxide can be absorbed by plants during photosynthesis and stored as carbon in their biomass, contributing to the formation of fossil fuels over time. Alternatively, carbon dioxide can be released through the combustion of fossil fuels, deforestation, or other human activities, increasing atmospheric concentrations of the gas.
i don't k
One path a carbon molecule can take in the carbon cycle begins when it is absorbed by plants during photosynthesis. The carbon is then incorporated into organic compounds like glucose, which can be consumed by animals. When these animals respire, they release carbon dioxide back into the atmosphere. Additionally, when plants and animals die, their organic matter can be decomposed by microorganisms, returning carbon to the soil or atmosphere and continuing the cycle.
Carbon molecules can enter the carbon cycle through various processes including photosynthesis by plants, respiration by organisms, decomposition of organic matter, combustion of fossil fuels, and diffusion between the atmosphere and ocean. Once in the cycle, carbon can be stored in plants, soils, oceans, and rocks, circulate through food chains, be released back into the atmosphere as carbon dioxide, or become trapped in long-term carbon sinks like fossil fuels or deep ocean sediments.
No water can follow one of several paths that form the detailed cycle.
No water can follow one of several paths that form the detailed cycle.
No water can follow one of several paths that form the detailed cycle.
Don't know about cycle paths but there sure is plenty of psychopaths.
No water can follow one of several paths that form the detailed cycle.
No water can follow one of several paths that form the detailed cycle.
The hydrologic cycle is essentially a water continuum, representing the different paths through which water circulates and is transformed in the natural environment. Being a cycle, it has no specific beginning or ending.
Carbon dioxide can be absorbed by plants during photosynthesis and stored as carbon in their biomass, contributing to the formation of fossil fuels over time. Alternatively, carbon dioxide can be released through the combustion of fossil fuels, deforestation, or other human activities, increasing atmospheric concentrations of the gas.
cycle next to a friend and stay the dictance apart.Your paths are