how does the tree help in reducing global warming please explain in 500 words
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Save trees is a slogan used to motivate people to save trees and plant more trees in the surrounding areas by spreading the importance of trees among people as well as reduce deforestation and cut down of trees.
Essay on Save Trees
Trees are as much important to our life as food and water. Life becomes very difficult without trees or we can say that life would be finished because trees are most important aspect of giving us healthy and wealthy life. Save trees is the important social awareness now-a-days and have been included in the student’s life through the study. Students are generally assigned this topic to discuss or write short or long essay in their exams or any quiz competition in their school. We have provided variety of short and long essay on save trees under different words limit to help school students. You can select any save trees essay according to the need:
Essay on Save Trees
Trees are as much important to our life as food and water. Life becomes very difficult without trees or we can say that life would be finished because trees are most important aspect of giving us healthy and wealthy life. Save trees is the important social awareness now-a-days and have been included in the student’s life through the study. Students are generally assigned this topic to discuss or write short or long essay in their exams or any quiz competition in their school. We have provided variety of short and long essay on save trees under different words limit to help school students. You can select any save trees essay according to the need:
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Plants could help cool down the warming world through their own climate change response, according to a new study. Trees and other plants are known to emit volatile organic compounds in response to stress--heck, they even make noise--but it's unclear whether this affects the environment.
Some aerosols--small atmospheric particles--can contribute to cooling because they help form clouds, which reflect sunlight. The albedo effect from increased cloud cover contributes to cooler temperatures. But the role of plant aerosols in this process was not well understood.
To investigate this, Finnish researchers collected data from forests in 11 locations around Earth. They measured aerosol concentrations, plant gases, average temperatures, and the height of something called the boundary layer, which is where aerosols and atmospheric gases mix together.
They found that plant emissions do impact climate warming, but only by a tiny degree. Globally, enhanced plant emissions counter about 1 percent of global warming. In forested areas where plants are concentrated, the effect is a more meaningful 30 percent, however. That could mean heavily treed areas--like the boreal forests of Canada, Siberia and Finland--could warm up more slowly than heavily populated areas in more southerly latitudes.
The exact ramifications of plant emissions are still incredibly complex, but the researchers point out that theirs is the first study to quantify it at all. "In estimates of anthropogenic climate change and the effects of aerosol-related air quality directives, the response of the biosphere has to be considered," they write. Their paper is published this week in Nature Geoscience.
Some aerosols--small atmospheric particles--can contribute to cooling because they help form clouds, which reflect sunlight. The albedo effect from increased cloud cover contributes to cooler temperatures. But the role of plant aerosols in this process was not well understood.
To investigate this, Finnish researchers collected data from forests in 11 locations around Earth. They measured aerosol concentrations, plant gases, average temperatures, and the height of something called the boundary layer, which is where aerosols and atmospheric gases mix together.
They found that plant emissions do impact climate warming, but only by a tiny degree. Globally, enhanced plant emissions counter about 1 percent of global warming. In forested areas where plants are concentrated, the effect is a more meaningful 30 percent, however. That could mean heavily treed areas--like the boreal forests of Canada, Siberia and Finland--could warm up more slowly than heavily populated areas in more southerly latitudes.
The exact ramifications of plant emissions are still incredibly complex, but the researchers point out that theirs is the first study to quantify it at all. "In estimates of anthropogenic climate change and the effects of aerosol-related air quality directives, the response of the biosphere has to be considered," they write. Their paper is published this week in Nature Geoscience.
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