nitrfying bacteria
No It's >>>Cyanobacteria
bacteria rhizobium fixes atmospheric nitrogen into air which plants can breathe.
rhizobium, clostridium, rhodospirillum,rhodomicrobium
1) Haber Process (Fertilizing) 2) Lightning 3) Nitrification (Process of nitrogen being fixed in the air by rhyzobium)
bacteria and lightning
Atmospheric Fixation:the enormous energy of lightning breaks nitrogen molecules and enables their atoms to combine with oxygen in the air forming nitrogen oxides. These dissolve in rain, forming nitrates, that are carried to the earth. Atmospheric nitrogen fixation probably contributes some 5– 8% of the total nitrogen fixed.
the mechanism how pulse crop fix atmospheric nitrogen.
Some bacteria have the ability to "fix" nitrogen, that is they can utilize gaseous (atmospheric) nitrogen to produce organic compounds. (They can all break down compounds to free nitrogen too.)
bacteria rhizobium fixes atmospheric nitrogen into air which plants can breathe.
rhizobium, clostridium, rhodospirillum,rhodomicrobium
oxygen fixes atmospheric nitrogen
Why does atmospheric nitrogen need to be converted?
1) Haber Process (Fertilizing) 2) Lightning 3) Nitrification (Process of nitrogen being fixed in the air by rhyzobium)
it is The ability to fix nitrogen is found only in certain bacteria and archaea.
One of the main reasons is because pulse crops have the ability to "fix" atmospheric nitrogen in the soil, providing a primary nutrient for the following cereal crop. Sufficient soil nitrogen is probably the most potentially yield-limiting nutrient that the plant needs.
Everybody would die. However, this is not likely to happen.
Legumes (e.g peas and beans). They form symbiotic relationships with Rhizobia bacteria which fix atmospheric nitrogen into nitrates which can be used by the plant.
oxygen fixes atmospheric nitrogen