The kidneys remove nitrogenous wastes, such as urea and ammonia, from the bloodstream through the process of filtration and excretion. They play a vital role in maintaining the body's nitrogen balance and overall waste elimination.
Removes the surface material of the earth.
Photosynthesis does not.A:The photosynthesis process in vegetation, plants and trees does release CO2. Not only that, it also captures it again from the atmosphere. The photosynthesis process is part of a larger natural process called the Carbon Cycle. In this cycle, oceans release and capture CO2 too.
Wind removes sand and sediment from the ground in a process called deflation.
Wind removes sand and sediment from the ground in a process called deflation.
A coal and heat process that removes sulphur and other impurities without actually burning the coal.
Bacteria utilize an enzyme called nitrogenase to convert nitrogen gas (N2) into ammonia (NH3) in a process known as nitrogen fixation. This ammonia can then be further converted into other nitrogen compounds by bacteria to be used by plants and other organisms.
it doesn't, it only removes soil nitrogen
The natural process of silicate weathering removes carbon from the atmosphere by breaking down rocks that contain carbon dioxide, converting it into bicarbonate ions that are then carried to the oceans to be stored in the geosphere through the formation of carbonate minerals like limestone.
The urinary system removes nitrogen-containing wastes from the blood. This process occurs primarily in the kidneys, where waste products such as urea are filtered out of the blood and excreted in the form of urine.
It doesn't. Harvesting removes soil nitrogen
Carbon dioxide and nitrogen.
The kidneys remove nitrogenous wastes, such as urea and ammonia, from the bloodstream through the process of filtration and excretion. They play a vital role in maintaining the body's nitrogen balance and overall waste elimination.
Bacteria performs nitrogen fixation, which involves converting the atmospheric nitrogen (N2) into usable organic nitrates (NO3-). Said bacteria are often referred to as nitrogen fixating bacteria. The process is sometimes called nitrification.Scientists have been able to give plants genes from bacteria to help them do a beeter job. This process is called recombinant DNA technology. Nitrogen fixing bacteria are in root nodules on legumes and maybe some other plant groups.Converts nitrogen in the air to nitrates.
The short answer is no, denitrification is actually favorable to farming. When farmers fertilize fields, most of the nitrogen is lost to groundwater or streams. The farm is responsible for where that nitrogen ultimately ends up (excess nitrogen causes depleted water quality downstream). Denitrification naturally removes nitrogen from groundwater, soils, and streams. This process does have a downside, though. It can produce nitrous oxide, a potent greenhouse gas. Although denitrification removes nitrogen from water, it can also release a greenhouse gas to the atmosphere. Scientists are studying when more nitrous oxide is released and how that can be managed.
Removes the surface material of the earth.
Purifying selection removes harmful genetic variations, while positive selection promotes beneficial genetic variations in natural selection.