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Adaptability as the key to success for the ubiquitous marine nitrite oxidizer Nitrococcus

Nitrite-oxidizing bacteria (NOB) have conventionally been regarded as a highly specialized functional group responsible for the production of nitrate in the environment. However, recent culture-based studies suggest that they have the capacity to lead alternative lifestyles, but direct environmental...

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Published in:	Science advances 2017-11, Vol.3 (11), p.e1700807-e1700807
Main Authors:	Füssel, Jessika, Lücker, Sebastian, Yilmaz, Pelin, Nowka, Boris, van Kessel, Maartje A H J, Bourceau, Patric, Hach, Philipp F, Littmann, Sten, Berg, Jasmine, Spieck, Eva, Daims, Holger, Kuypers, Marcel M M, Lam, Phyllis
Format:	Article
Language:	English
Subjects:	Ectothiorhodospiraceae - classification Ectothiorhodospiraceae - genetics Ectothiorhodospiraceae - metabolism Environmental Studies Metagenomics Nitrates - chemistry Nitrates - metabolism Nitrites - chemistry Nitrogen Cycle Oceans and Seas Oxidation-Reduction Phylogeny SciAdv r-articles Sulfides - chemistry
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creator	Füssel, Jessika Lücker, Sebastian Yilmaz, Pelin Nowka, Boris van Kessel, Maartje A H J Bourceau, Patric Hach, Philipp F Littmann, Sten Berg, Jasmine Spieck, Eva Daims, Holger Kuypers, Marcel M M Lam, Phyllis
description	Nitrite-oxidizing bacteria (NOB) have conventionally been regarded as a highly specialized functional group responsible for the production of nitrate in the environment. However, recent culture-based studies suggest that they have the capacity to lead alternative lifestyles, but direct environmental evidence for the contribution of marine nitrite oxidizers to other processes has been lacking to date. We report on the alternative biogeochemical functions, worldwide distribution, and sometimes high abundance of the marine NOB . These largely overlooked bacteria are capable of not only oxidizing nitrite but also reducing nitrate and producing nitrous oxide, an ozone-depleting agent and greenhouse gas. Furthermore, can aerobically oxidize sulfide, thereby also engaging in the sulfur cycle. In the currently fast-changing global oceans, these findings highlight the potential functional switches these ubiquitous bacteria can perform in various biogeochemical cycles, each with distinct or even contrasting consequences.
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subjects	Ectothiorhodospiraceae - classification Ectothiorhodospiraceae - genetics Ectothiorhodospiraceae - metabolism Environmental Studies Metagenomics Nitrates - chemistry Nitrates - metabolism Nitrites - chemistry Nitrogen Cycle Oceans and Seas Oxidation-Reduction Phylogeny SciAdv r-articles Sulfides - chemistry
title	Adaptability as the key to success for the ubiquitous marine nitrite oxidizer Nitrococcus
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