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What atmospheric gas that enables green plants to carrey on the process of photosynthesis?
Carbon dioxide (CO2) is the atmospheric gas that enables green plants to carry on the process of photosynthesis. Plants absorb carbon dioxide from the air and convert it into sugars and oxygen through the process of photosynthesis.
What are the atmospheric effects caused by carbon dioxide?
The plants Suck in the carbon dioxide then photosynthesis pops in and produces Oxygen.
Why do atmospheric carbon dioxide concentrations fluctuate seasonally?
Atmospheric carbon dioxide concentrations fluctuate seasonally due to the natural processes of photosynthesis and respiration in plants. During the growing season, plants take in carbon dioxide for photosynthesis, which reduces the amount of CO2 in the atmosphere. In the winter, when plants are dormant, there is less photosynthesis and more respiration, leading to an increase in atmospheric CO2 levels.
What atmospheric gas enables green plants to carry on the process of photosynthesis?
Carbon Dioxide
Why does atmospheric carbon dioxide concentration exhibit an annual cycle?
The annual cycle of atmospheric carbon dioxide concentration is mainly due to the natural processes of photosynthesis and respiration in plants. During the spring and summer months, plants take in carbon dioxide for photosynthesis, which reduces the concentration in the atmosphere. In the fall and winter, when plants go dormant and decay, they release carbon dioxide back into the atmosphere, causing an increase in concentration. This cycle repeats annually, leading to fluctuations in atmospheric carbon dioxide levels.
What consumes the most atmospheric carbon dioxide?
Trees and other growing vegetation remove the most carbon dioxide from the atmosphere.
During photosynthesis plants use what as a carbon source to produce sugars for energy?
During photosynthesis, plants use carbon dioxide (CO2) as a carbon source to produce sugars for energy. Carbon dioxide enters the plant through small openings on the leaves called stomata and is converted into sugars through the process of photosynthesis.
Where do the carbon atoms come from to produce the certain sugar for photosynthesis?
The carbon atoms used to produce sugars during photosynthesis primarily come from carbon dioxide in the atmosphere. Plants take in carbon dioxide through small openings in their leaves called stomata, and then use the energy from sunlight to convert the carbon dioxide into sugars through a series of biochemical reactions.
The atmospheric concentration of carbon dioxide is regulated by?
Plants play the biggest role in regulating the amount of carbon dioxide in the atmosphere. They do so by using it during photosynthesis and release oxygen.
The exchange of carbon dioxide and oxygen during photosynthesis and cellular respiration helps to keep oxygen carbon dioxide at what?
The exchange of carbon dioxide and oxygen during photosynthesis and cellular respiration helps to maintain a balance in the Earth's atmosphere. Photosynthesis by plants converts carbon dioxide into oxygen, while cellular respiration by animals and plants consumes oxygen and releases carbon dioxide. This cyclical process keeps atmospheric levels of oxygen and carbon dioxide relatively stable, supporting life on Earth.
Which atmospheric gases do photosynthesis and cellular respiration help keep constant?
Photosynthesis helps keep oxygen levels constant by converting carbon dioxide into oxygen, while cellular respiration helps keep carbon dioxide levels constant by converting oxygen into carbon dioxide. These processes are vital for maintaining the balance of atmospheric gases essential for life on Earth.
Does cyanobacteria increase the levels of carbon dioxide in the atmosphere?
Yes, cyanobacteria can increase the levels of carbon dioxide in the atmosphere through the process of respiration. However, cyanobacteria also play a significant role in reducing atmospheric carbon dioxide levels through photosynthesis, where they convert carbon dioxide into organic compounds. Overall, the impact of cyanobacteria on atmospheric carbon dioxide levels depends on the balance between these two processes.
