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Nitrifying bacteria converts ammonia compounds into nitrites and nitrates while denitrifying converts the nitrates into atmospheric nitrogen gas. It is confusing as at first I thought that the denitrifying bacteria would convert the nitrates into ammonia, but that is wrong. Denitrification is the opposite to nitrogen fixation, not nitrification.
The nodules contain bacteria which can convert atmospheric nitrogen into ammonia
Although the air is made up of about 70% nitrogen, plants cannot use nitrogen in this N2 form. Nitrogen fixing bacteria change nitrogen into the form of soluble nitrates so that plants can use it. Other bacteria, known as de-nitrifying bacteria, change nitrates back into N2, which completes the nitrogen cycle Updated by: Levi Levitt
The process you have mentioned is called nitrogen fixation. It is done by bacteria named Rhizobium Bacillus.
Although the air is made up of about 70% nitrogen, plants cannot use nitrogen in this N2 form. Nitrogen fixing bacteria change nitrogen into the form of soluble nitrates so that plants can use it. Other bacteria, known as de-nitrifying bacteria, change nitrates back into N2, which completes the nitrogen cycle Updated by: Levi Levitt
Bacteria Ammonia, nitrates, nitrites
Nitrifying bacteria converts ammonia compounds into nitrites and nitrates while denitrifying converts the nitrates into atmospheric nitrogen gas. It is confusing as at first I thought that the denitrifying bacteria would convert the nitrates into ammonia, but that is wrong. Denitrification is the opposite to nitrogen fixation, not nitrification.
Bacteria Ammonia, nitrates, nitrites
A few plants, especially, legumes (or pulses: pod bearers), of which there is a wide variety; are able to convert nitrogen gas (N2) from the atmosphere to produce Ammonia NH3, a fertilizer. They do this with the symbiotic help of a bacteria (Rhizobium).Lichens, Blue-green algae, and some soil bacteriaalso produce and contribute ammonia to natural ecosystems.Other organisms, chemoautotrophic bacteria, Nitrosomonas, and Nitrobac­ter, convert ammonia to compounds of nitrous oxides culminating in mineral Nitrates (compounds of the form (M)NO3), fertilizers. Examples are Sodium Nitrate (NaNO3) and Potassium Nitrate (KNO3).
Rhizobium bacteria absorb nitrogen gas from atmosphere and convert it into nitrogenous compounds called nitrates. the roots decompose the nitrates present in the root nodules mix with the soil enrich it with the nitrogenous compounds and hence increase the soil fertility.
Any legume will convert nitrogen to nitrates, as well as many bacteria found in the soil
it is bacteria and lightening or decomposers, not sure. I am doing the same biology homework crap that Ms. elliot signed to all the students over break. i am looking for the same answer i think decomposers is the answer. its the one that makes most sense. :D
nitrifying bacteria
The nodules contain bacteria which can convert atmospheric nitrogen into ammonia
Nitrobacter play an essential role in aquaponics. Nitrosomonas bacteria first convert ammonia into nitrites. Nitrobacter convert the nitrites into nitrates, which are readily absorbed by the plants. Read more at the link below.
Nitrogen-fixing bacteria in nodules on plant roots (legume plants; beans, peas, alfalfa) convert nitrogen in the air (ammonia) to nitrites then nitrates which is then absorbed by plants through their roots.
Humans and other animals usually have bacteria that convert nitrates into nitrates in their large intestines. For adults, the presence of these bacteria in the digestive system is not harmful, because the stomach of an adult is so acidic that the bacteria cannot survive. But the stomach of an infant is much less acidic, so the bacteria can move up into the stomach, where they will convert nitrates into nitrites. The nitrites can then pass into the blood of the infant.