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Literature DB >> 26045434

Nitrogen cycling. Rapid nitrous oxide cycling in the suboxic ocean.

Andrew R Babbin¹, Daniele Bianchi², Amal Jayakumar³, Bess B Ward³.

Abstract

Nitrous oxide (N2O) is a powerful greenhouse gas and a major cause of stratospheric ozone depletion, yet its sources and sinks remain poorly quantified in the oceans. We used isotope tracers to directly measure N2O reduction rates in the eastern tropical North Pacific. Because of incomplete denitrification, N2O cycling rates are an order of magnitude higher than predicted by current models in suboxic regions, and the spatial distribution suggests strong dependence on both organic carbon and dissolved oxygen concentrations. Furthermore, N2O turnover is 20 times higher than the net atmospheric efflux. The rapid rate of this cycling coupled to an expected expansion of suboxic ocean waters implies future increases in N2O emissions.

Entities: Chemical

Mesh：

Substances：
Nitrous Oxide
Oxygen

Year: 2015 PMID： 26045434 DOI： 10.1126/science.aaa8380

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

Keyword Cloud
Cited

17 in total

1. Biological nitrogen fixation in the oxygen-minimum region of the eastern tropical North Pacific ocean.

Authors: Amal Jayakumar; Bonnie X Chang; Brittany Widner; Peter Bernhardt; Margaret R Mulholland; Bess B Ward
Journal: ISME J Date: 2017-07-25 Impact factor: 10.302

2. Coupled abiotic-biotic cycling of nitrous oxide in tropical peatlands.

Authors: Steffen Buessecker; Analissa F Sarno; Mark C Reynolds; Ramani Chavan; Jin Park; Marc Fontánez Ortiz; Ana G Pérez-Castillo; Grober Panduro Pisco; José David Urquiza-Muñoz; Leonardo P Reis; Jefferson Ferreira-Ferreira; Jair M Furtunato Maia; Keith E Holbert; C Ryan Penton; Sharon J Hall; Hasand Gandhi; Iola G Boëchat; Björn Gücker; Nathaniel E Ostrom; Hinsby Cadillo-Quiroz
Journal: Nat Ecol Evol Date: 2022-10-06 Impact factor: 19.100

3. Fighting global warming by greenhouse gas removal: destroying atmospheric nitrous oxide thanks to synergies between two breakthrough technologies.

Authors: Tingzhen Ming; Renaud de Richter; Sheng Shen; Sylvain Caillol
Journal: Environ Sci Pollut Res Int Date: 2016-01-25 Impact factor: 4.223

4. Pathways and key intermediates required for obligate aerobic ammonia-dependent chemolithotrophy in bacteria and Thaumarchaeota.

Authors: Jessica A Kozlowski; Michaela Stieglmeier; Christa Schleper; Martin G Klotz; Lisa Y Stein
Journal: ISME J Date: 2016-02-16 Impact factor: 10.302

Review 10. Ecological Energetic Perspectives on Responses of Nitrogen-Transforming Chemolithoautotrophic Microbiota to Changes in the Marine Environment.

Authors: Hongyue Dang; Chen-Tung A Chen
Journal: Front Microbiol Date: 2017-07-14 Impact factor: 5.640

Nitrogen cycling. Rapid nitrous oxide cycling in the suboxic ocean.

1. Biological nitrogen fixation in the oxygen-minimum region of the eastern tropical North Pacific ocean.

2. Coupled abiotic-biotic cycling of nitrous oxide in tropical peatlands.

3. Fighting global warming by greenhouse gas removal: destroying atmospheric nitrous oxide thanks to synergies between two breakthrough technologies.

4. Pathways and key intermediates required for obligate aerobic ammonia-dependent chemolithotrophy in bacteria and Thaumarchaeota.

5. Microbial N₂O consumption in and above marine N₂O production hotspots.

6. Nitrous oxide as a function of oxygen and archaeal gene abundance in the North Pacific.

7. Niche Partitioning of the N Cycling Microbial Community of an Offshore Oxygen Deficient Zone.

8. Low oxygen eddies in the eastern tropical North Atlantic: Implications for N₂O cycling.

9. Metagenomic analysis of nitrogen and methane cycling in the Arabian Sea oxygen minimum zone.

Review 10. Ecological Energetic Perspectives on Responses of Nitrogen-Transforming Chemolithoautotrophic Microbiota to Changes in the Marine Environment.