what are the difference between nitrification and dinitrification?
Answers
Nitrifying bacteria fix nitrogen from ammonia. Denitrifying bacteria brekdown nitrogen compounds(eg. nitrates) to atmospheric nitrogen. Nitrogen fixing bacteria produce nitrogen compounds from atmospheric nitrogen.
Table of Contents hide
Nitrification Definition
Denitrification Definition
Key differences (Nitrification vs Denitrification)
Basis for comparison
Nitrification
Denitrification
Video: Nitrification & Denitrification
References and Sources
Last Updated on December 30, 2020 by Sagar Aryal
Differences between Nitrification and Denitrification
Image Source (Nitrogen Cycle): Wikipedia.
Nitrification Definition
Nitrification is a biological process of oxidation of ammonia into nitrite which is then followed by the oxidation of nitrite into nitrate.
Nitrification is a part of the nitrogen cycle where living beings oxidize ammonia present in the soil into useful forms of nitrogen that can then be consumed by various organisms.
In the nitrogen cycle, nitrogen is converted into many forms successively passing from atmosphere to soil to organisms and back to the atmosphere.
Nitrification is an aerobic process that occurs in soil by various aerobic microorganisms like bacteria and some archaea.
The bacteria oxidizing ammonia are termed ammonia-oxidizing bacteria (AOB), and the archaea oxidizing archaea are termed ammonia-oxidizing archaea (AOA).
Nitrification
The reactions involved in nitrification are the following:
2NH4+ + 3O2 → 2NO2– + 2H+ + H2O
2NO2– + O2 → 2NO3–
Because this process consists of two reaction steps, two different groups of microorganisms are involved in nitrification.
The first step of oxidation of ammonia is brought about by microbes in the soil which includes bacteria of the genus Nitrosomonas and Nitrosococcus, and arceae like Nitrosopumilus maritimus and Nitrososphaera viennensis. The conversion of ammonia into nitrite is the rate-limiting step of nitrification.
The second reaction is performed by bacteria of the genus Nitrobacter and Nitrospira.
All of these microorganisms are chemoautotrophs that utilize the energy from the reaction to produce organic carbon compounds.
Nitrification is important in many organisms as it is the only process of obtaining nitrogen source for some microorganisms present in the soil.
These organisms convert ammonia into nitrates which is more soluble than ammonia and thus can be taken into the system more conveniently.
Besides, it is also important in agricultural systems where ammonia is used as a fertilizer. The ammonia is then converted into nitrate which facilitates nitrogen leaching into the plants.
Nitrifying bacteria also play an important role in wastewater treatment where different nitrogen compounds are converted into nitrates and then nitrogen before removing the gas out of the water.
The nitrification process is controlled by a number of factors like the availability of oxygen, soil moisture, and the availability of ammonia.
The activity of the nitrifying bacteria also decreases in acidic conditions and at a temperature above 35°C.
Denitrification Definition
Denitrification is a biological process of reduction of nitrate into nitrite, which is then followed by the reduction of nitrate into nitrogen gas that usually results in the removal of nitrogen gas into the air.
Denitrification, like nitrification, is a microbial process that is performed by various groups of microorganisms.
It is also an important step in the nitrogen cycle where nitrogen is released back into the atmosphere from the ground.
In this case, the oxidized products of nitrogen are reduced to its gaseous forms, mainly nitrous oxide (NO2) and nitrogen gas (N2).
Denitrification, unlike nitrification, is performed by facultative anaerobes that perform denitrification as anaerobic respiration to reduce oxidized forms into gases.
Denitrification takes place at about 10% or less concentration of oxygen and organic carbon compounds.
Denitrification
The process of denitrification takes place through a set of half-reactions, which are:
NO3– + 2H+ + 2e– → NO2– + H2O
NO2− + 2 H+ + e− → NO + H2O
2NO + 2 H+ + 2 e− → N2O + H2O
N2O + 2 H+ + 2 e− → N2 + H2O
The overall reaction can be represented as:
2 NO3− + 10 e− + 12 H+ → N2 + 6 H2O
The process is primarily performed by heterotrophic bacteria like Paracoccus denitrificans and some species of Pseudomonas, but some autotrophic denitrifiers like Thiobacillus denitrificans are also present.
Denitrification is an important microbiological process that is performed naturally in both terrestrial and marine environments.
Besides, denitrification follows nitrification in wastewater treatments to convert nitrogen-rich compounds into nitrogen gas before being released into the atmosphere.
However, sometimes denitrification can be disadvantageous by removing the NO3– present in the soil, thus reducing the extent of leaching.
Denitrification is controlled by various factors like the concentration of oxygen and carbons, even though some aerobic bacteria of the genus Proteobacteria, might facilitate denitrification even in the presence of oxygen