Like ashes Released from supervolano, microplastics has filled the atmosphere and circled the globe. These are pieces of plastic less than 5 mm long, and come in two major colors. Pieces breed from exploding bags and bottles (babies drink small amounts of one day in their form), and microfibers tear open fabric in the wash as well come out to sea. Then the wind blows around the land and sea, carrying microplastics to the sky. The atmosphere is so much better with things that every year, the same more than 120 million plastic bottles falls in 11 protected areas in the US, which make up only 6 percent of the country’s total.
Mu learning published today in the newspaper Nature, scientists have taken the initiative in experimenting with celestial phenomena, and it is an unusual mix of good and bad news. The good news is that microplastics may be showing a small amount of solar energy returning to the atmosphere, which can cool the climate slightly. The bad news is that humanity is elevating the environment and microplastic (ocean sediment samples shows that the rate has doubled every 15 years since the 1940s), and the factors in which we live are different, so it is difficult to know how the pollution affects the climate. Over time, that is likely to change Heat the earth.
The earth absorbs more energy from the sun than it does from another source, a process known as compulsory solar radiation. Like other aerosols in the atmosphere, such as dust and ash, microplastics is associated with this energy, the kind that has been discovered. “They are extremely efficient in transmitting sunlight to the atmosphere, which is why we are seeing a resurgence of cooling,” says astronomer Laura Revell, lead author of the new paper. “But they also know how to absorb the radiation that the earth emits, which means they contribute to the warming of the earth.”
Like snowflakes, no two microplastics are made of different polymers, and they come in a rainbow of colors. The pieces are torn as they rotate around the universe, while the fibers split repeatedly. And everything else grows differently. “plaster”Bacteria, viruses, and algas.
So when Revell and his colleagues began to make examples of how the weather affected them, they realized that they could not represent such diversity. Instead, he was determined many small groups of threads and fragments of small pieces. For example, we can discern the brightness of the sun or its energy. They base their color on white polymer-free polymers, and consider the atmosphere in the form of tiny particles in the atmosphere. The researchers combined all of these in the form of weather patterns, which told them how atmospheric simulations affect climate.