Nitrification

Nitrification

Nitrification is the biological oxidation of ammonia with oxygen into nitrite followed by the oxidation of these nitrites into nitrates. Degradation of ammonia to nitrite is usually the rate limiting step of nitrification. Nitrification is an important step in the nitrogen cycle in soil. This process was discovered by the Russian microbiologist, Sergei Winogradsky.

Contents

Microbiology and ecology

The oxidation of ammonia into nitrite is performed by two groups of organisms, ammonia-oxidizing bacteria (AOB) and ammonia-oxidizing archaea (AOA).[1]. AOB can be found among the betaproteobacteria and gammaproteobacteria.[2] Currently, only one AOA, Nitrosopumilus maritimus, has been isolated and described.[3][4] In soils the most studied AOB belong to the genera Nitrosomonas and Nitrosococcus. Although in soils ammonia oxidation occurs by both AOB and AOA, AOA dominate in both soils and marine environments,[5][6] suggesting that Crenarchaeota may be greater contributors to ammonia oxidation in these environments.

The second step (oxidation of nitrite into nitrate) is done (mainly) by bacteria of the genus Nitrobacter. Both steps are producing energy to be coupled to ATP synthesis. Nitrifying organisms are chemoautotrophs, and use carbon dioxide as their carbon source for growth. Some AOB possess the enzyme, urease, which catalyzes the conversion of the urea molecule to two ammonia molecules and one carbon dioxide molecule. Nitrosomonas europaea, as well as populations of soil-dwelling AOB, have been shown to assimilate the carbon dioxide released by the reaction to make biomass via the Calvin Cycle, and harvest energy by oxidizing ammonia (the other product of urease) to nitrite. This feature may explain enhanced growth of AOB in the presence of urea in acidic environments.[7]

Nitrification also plays an important role in the removal of nitrogen from municipal wastewater. The conventional removal is nitrification, followed by denitrification. The cost of this process resides mainly in aeration (bringing oxygen in the reactor) and the addition of an external carbon source (e.g., methanol) for the denitrification.

Nitrification can also occur in drinking water. In distribution systems where chloramines are used as the secondary disinfectant, the presence of free ammonia can act as a substrate for ammonia-oxidizing microorganisms. The associated reactions can lead to the depletion of the disinfectant residual in the system.[8]

In most environments, both organisms are ford together, yielding nitrate as the final product. However, it is possible to design systems in which nitrite is formed (the Sharon process).

Together with ammonification, nitrification forms a mineralization process that refers to the complete decomposition of organic material, with the release of available nitrogen compounds. This replenishes the nitrogen cycle.

Chemistry

Nitrification is a process of nitrogen compound oxidation (effectively, loss of electrons from the nitrogen atom to the oxygen atoms):

  1. NH3 + 1.5 O2 + Nitrosomonas → NO2- + H2O + H+
  2. NO2- + 0.5 O2 + Nitrobacter → NO3-
  3. NH3 + O2 → NO2 + 3H+ + 2e
  4. NO2 + H2O → NO3 + 2H+ + 2e

Nitrification in the marine environment

In the marine environment, nitrogen is often the limiting nutrient, so the nitrogen cycle in the ocean is of particular interest.[9][10] The nitrification step of the cycle is of particular interest in the ocean because it creates nitrate, the primary form of nitrogen responsible for “new” production. Furthermore, as the ocean becomes enriched in anthropogenic CO2, the resulting decrease in pH could lead to decreasing rates of nitrification. Nitrification could potentially become a “bottleneck” in the nitrogen cycle.[11]

Nitrification, as stated above, is formally a two-step process; in the first step ammonia is oxidized to nitrite, and in the second step nitrite is oxidized to nitrate. Different microbes are responsible for each step in the marine environment. Several groups of ammonia oxidizing bacteria (AOB) are known in the marine environment, including Nitrosomonas, Nitrospira, and Nitrosococcus. All contain the functional gene ammonia monooxygenase (AMO) which, as its name implies, is responsible for the oxidation of ammonia.[12] More recent metagenomic studies have revealed that some Crenarchaeote Archaea possess AMO. Crenarchaeote are abundant in the ocean and some species have a 200 times greater affinity for ammonia than AOB, leading researchers to challenge the previous belief that AOB are primarily responsible for nitrification in the ocean.[13] Furthermore, though nitrification is classically thought to be vertically separated from primary production because the oxidation of nitrogen by bacteria is inhibited by light, nitrification by AOA does not appear to be light inhibited, meaning that nitrification is occurring throughout the water column, challenging the classical definitions of “new” and “recycled” production.[14]

In the second step, nitrite is oxidized to nitrate. In the ocean, this step is not as well understood as the first, but the bacteria Nitrospina and Nitrobacter are known to carry out this step in the ocean.[15]

--Brendmack (talk) 04:57, 27 October 2011 (UTC)

See also

References

  1. ^ Treusch, A.H., Leininger, S., Kletzin, A., Schuster, S.C., Klenk, H.P., and Schleper, C. (2005) Novel genes for nitrite reductase and Amo-related proteins indicate a role of uncultivated mesophilic crenarchaeota in nitrogen cycling. Environ Microbiol 7: 1985–1995
  2. ^ Purkhold, U., Pommerening-Roser, A., Juretschko, S.,Schmid, M.C., Koops, H.-P., and Wagner, M. (2000) Phylogeny of all recognized species of ammonia oxidizers based on comparative 16S rRNA and amoA sequence analysis: implications for molecular diversity surveys. Appl Environ Microbiol 66: 5368–5382
  3. ^ Könneke M, Bernhard AE, de la Torre JR,Walker CM, Waterbury JB, Stahl DA. (2005) Isolation of a mesophilic autotrophic ammonia-oxidizing marine archaeon. Nature 437:543-546.
  4. ^ Martens-Habbena, W., Berube, P. M., Urakawa, H., de la Torre, J. R., Stahl, D. A. 2009. Ammonia oxidation kinetics determine niche separation of nitrifying Archaea and Bacteria. Nature 461: 976-981.
  5. ^ Wuchter, C., Abbas, B., Coolen, M.J.L., Herfort, L., van Bleijswijk, J., Timmers, P., et al. (2006) Archaeal nitrification in the ocean. Proc Natl Acad Sci USA 103: 12317–12322.
  6. ^ Leininger, S., Urich, T., Schloter, M., Schwark, L., Qi, J., Nicol, G.W., Prosser, J.I., Schuster, S.C., Schleper, C. (2006) Archaea predominate among ammonia-oxidizing prokaryotes in soils. Nature 442:7014 pages 806-9.
  7. ^ Marsh, K. L., G. K. Sims, and R. L. Mulvaney. 2005. Availability of urea to autotrophic ammonia-oxidizing bacteria as related to the fate of 14C- and 15N-labeled urea added to soil. Biol. Fert. Soil. 42:137-145.
  8. ^ Zhang, Y, Love, N, & Edwards, M (2009), "Nitrification in Drinking Water Systems", Critical Reviews in Environmental Science and Technology, 39(3):153-208, doi: 10.1080/10643380701631739.
  9. ^ Zehr, J. P. and R. M. Kudela. 2011. Nitrogen cycle of the open ocean: from genes to ecosystems. Annu. Rev. Mar Sci. 3:197-225.
  10. ^ Nitrification and Denitrification: Probing the Nitrogen Cycle in Aquatic Environments B. B. Ward Microbial Ecology Vol. 32, No. 3 (1996), pp. 247-261
  11. ^ Hutchins, D. A., Mulholland, M. R., Fu, F. (2009). Nutrient cycles and marine microbes in a CO2-enriched ocean. Oceanography. Vol. 22, pp. 128-145.
  12. ^ Nitrification and Denitrification: Probing the Nitrogen Cycle in Aquatic Environments B. B. Ward Microbial Ecology Vol. 32, No. 3 (1996), pp. 247-261
  13. ^ Zehr, J. P. and R. M. Kudela. 2011. Nitrogen cycle of the open ocean: from genes to ecosystems. Annu. Rev. Mar Sci. 3:197-225.
  14. ^ Zehr, J. P. and R. M. Kudela. 2011. Nitrogen cycle of the open ocean: from genes to ecosystems. Annu. Rev. Mar Sci. 3:197-225.
  15. ^ Zehr, J. P. and R. M. Kudela. 2011. Nitrogen cycle of the open ocean: from genes to ecosystems. Annu. Rev. Mar Sci. 3:197-225.

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Look at other dictionaries:

  • nitrification — [ nitrifikasjɔ̃ ] n. f. • 1797; de nitrifier ♦ Chim. Transformation en nitrates de l ammoniac et des sels ammoniacaux. La nitrification se fait en deux temps (nitrosation; nitration), sous l influence de bactéries (nitrobactéries). Bacille qui… …   Encyclopédie Universelle

  • Nitrification — Ni tri*fi*ca tion, n. [Cf. F. nitrification. see {Nitrify}.] 1. (Chem.) (a) The act, process, or result of combining with nitrogen or some of its compounds. (b) The act or process of oxidizing nitrogen or its compounds so as to form nitrous or… …   The Collaborative International Dictionary of English

  • nitrification — (n.) 1827, from Fr. nitrification (1787, de Morveau), from nitrifier (1777), from nitre (see NITRE (Cf. nitre)) …   Etymology dictionary

  • Nitrification — Diagramme montrant le cycle de l azote. La nitrification est un processus, contrôlé par l action de certains micro organismes spécifiques, qui conduit à la transformation de l ammoniac en nitrite (nitrosation par Nitrosomonas) puis à la… …   Wikipédia en Français

  • nitrification — (ni tri fi ka sion) s. f. Terme de chimie. Opération naturelle par laquelle il se forme des nitrates ou du nitre. L air est indispensable dans la nitrification, Instr. sur la fabric. du salpêtre, p. 20 …   Dictionnaire de la Langue Française d'Émile Littré

  • nitrification — nitrifikacija statusas T sritis chemija apibrėžtis Aerobinių mikroorganizmų sukelta amonio junginių oksidacija iki nitratų. atitikmenys: angl. nitrification rus. нитрификация …   Chemijos terminų aiškinamasis žodynas

  • nitrification — nitrifikacija statusas T sritis ekologija ir aplinkotyra apibrėžtis Aerobinių mikroorganizmų (nitritinių ir nitratinių bakterijų) sukelta amonio junginių oksidacija iki nitratų dirvožemyje ir vandenyje. Būtinos sąlygos – pakankamas deguonies… …   Ekologijos terminų aiškinamasis žodynas

  • nitrification — nitrify ► VERB (nitrifies, nitrified) ▪ convert (ammonia or another nitrogen compound) into nitrites or nitrates. DERIVATIVES nitrification noun …   English terms dictionary

  • nitrification — noun Date: 1827 the oxidation (as by bacteria) of ammonium salts to nitrites and the further oxidation of nitrites to nitrates …   New Collegiate Dictionary

  • NITRIFICATION — n. f. Opération par laquelle se forme le nitrate …   Dictionnaire de l'Academie Francaise, 8eme edition (1935)

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