Not exact matches
This is an important state to understand
because it's key to the initial charge separation, or the moment energy conversion begins
during photosynthesis.
Because plants take up CO2
during photosynthesis, it has long been assumed that they will provide a large carbon «sink» to help offset increases in atmospheric CO2 caused by the burning of fossil fuels.
This is
because the amount of CO2 released from E85
during combustion is practically identical to the level of carbon dioxide the plants absorbed from the atmosphere through
photosynthesis when they were growing.
Indeed, on an annual basis, CO2 increases
during N. Hemisphere winter
because plant respiration exceeds
photosynthesis.
Because of methane's greater greenhouse potency, the warming potential of the emissions measured
during the second period greatly exceeded the potential cooling produced by the uptake of carbon dioxide
during photosynthesis.
And we exist
because in eating the carbon dioxide
during photosynthesis the oxygen in it is released, how Earth got its oxygen atmosphere in the first place.
Because plants take up CO2
during photosynthesis, it has long been assumed that they will provide a large carbon «sink» to help offset increases in atmospheric CO2 caused by the burning of fossil fuels.
The Amazon forest acts as a carbon sink,
because trees suck the greenhouse gas CO2 out of the atmosphere as they grow,
during photosynthesis, converting this to plant matter including bark, wood and roots.
Rice production is also a methane - intensive activity,
because root systems in rice plants secrete carbohydrates
during photosynthesis.