Biological nitrogen fixation detected under Antarctic sea ice

Nitrogen fixation is the primary source of reactive nitrogen in the ocean. Most ecological models do not predict nitrogen fixation in the Antarctic Ocean because of the low availability of iron and high abundance of nitrogen. Here we extensively examined nitrogen fixation in the Antarctic Ocean, and...

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Published in	Nature geoscience Vol. 13; no. 11; pp. 729 - 732
Main Authors	Shiozaki, Takuhei, Fujiwara, Amane, Inomura, Keisuke, Hirose, Yuu, Hashihama, Fuminori, Harada, Naomi
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 01.11.2020 Nature Publishing Group
Subjects	704/172 704/47 704/47/4112 704/829 Antarctic sea ice Candidatus Atelocyanobacterium thalassa Coastal zone Cyanobacteria Earth and Environmental Science Earth Sciences Earth System Sciences Ecological models Gene expression Geochemistry Geology Geophysics/Geodesy Ice cover Keystone species NifH gene Nitrogen Nitrogen fixation Nitrogenase Nitrogenation Ocean models Oceans Sea ice Stations Tropical climate Southern Ocean
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Abstract	Nitrogen fixation is the primary source of reactive nitrogen in the ocean. Most ecological models do not predict nitrogen fixation in the Antarctic Ocean because of the low availability of iron and high abundance of nitrogen. Here we extensively examined nitrogen fixation in the Antarctic Ocean, and found substantial nitrogen fixation (maximum: 44.4 nmol N l −1 d −1 ) near the Antarctic coast, especially around ice-covered regions. The nitrogenase gene ( nifH ) was detected at all coastal stations, including stations where no nitrogen fixation was found. At the stations where nitrogen fixation was detected, the nitrogen-fixing cyanobacterium UCYN-A (Candidatus ‘ Atelocyanobacterium thalassa ’) dominated nifH gene expression, and the nifH sequence was identical to that of the major oligotype in tropical and subtropical oceans. Our results suggest that marine nitrogen fixation is a ubiquitous process in the global ocean, and that UCYN-A is the keystone species for making it possible. Observational evidence of cyanobacterial activity in the Antarctic Ocean suggests that nitrogen fixation could be a ubiquitous process in the global ocean.
AbstractList	Nitrogen fixation is the primary source of reactive nitrogen in the ocean. Most ecological models do not predict nitrogen fixation in the Antarctic Ocean because of the low availability of iron and high abundance of nitrogen. Here we extensively examined nitrogen fixation in the Antarctic Ocean, and found substantial nitrogen fixation (maximum: 44.4 nmol N l−1 d−1) near the Antarctic coast, especially around ice-covered regions. The nitrogenase gene (nifH) was detected at all coastal stations, including stations where no nitrogen fixation was found. At the stations where nitrogen fixation was detected, the nitrogen-fixing cyanobacterium UCYN-A (Candidatus ‘Atelocyanobacterium thalassa’) dominated nifH gene expression, and the nifH sequence was identical to that of the major oligotype in tropical and subtropical oceans. Our results suggest that marine nitrogen fixation is a ubiquitous process in the global ocean, and that UCYN-A is the keystone species for making it possible.Observational evidence of cyanobacterial activity in the Antarctic Ocean suggests that nitrogen fixation could be a ubiquitous process in the global ocean. Nitrogen fixation is the primary source of reactive nitrogen in the ocean. Most ecological models do not predict nitrogen fixation in the Antarctic Ocean because of the low availability of iron and high abundance of nitrogen. Here we extensively examined nitrogen fixation in the Antarctic Ocean, and found substantial nitrogen fixation (maximum: 44.4 nmol N l −1 d −1 ) near the Antarctic coast, especially around ice-covered regions. The nitrogenase gene ( nifH ) was detected at all coastal stations, including stations where no nitrogen fixation was found. At the stations where nitrogen fixation was detected, the nitrogen-fixing cyanobacterium UCYN-A (Candidatus ‘ Atelocyanobacterium thalassa ’) dominated nifH gene expression, and the nifH sequence was identical to that of the major oligotype in tropical and subtropical oceans. Our results suggest that marine nitrogen fixation is a ubiquitous process in the global ocean, and that UCYN-A is the keystone species for making it possible. Observational evidence of cyanobacterial activity in the Antarctic Ocean suggests that nitrogen fixation could be a ubiquitous process in the global ocean.
Author	Shiozaki, Takuhei Hirose, Yuu Inomura, Keisuke Fujiwara, Amane Harada, Naomi Hashihama, Fuminori
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Snippet	Nitrogen fixation is the primary source of reactive nitrogen in the ocean. Most ecological models do not predict nitrogen fixation in the Antarctic Ocean...
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SubjectTerms	704/172 704/47 704/47/4112 704/829 Antarctic sea ice Candidatus Atelocyanobacterium thalassa Coastal zone Cyanobacteria Earth and Environmental Science Earth Sciences Earth System Sciences Ecological models Gene expression Geochemistry Geology Geophysics/Geodesy Ice cover Keystone species NifH gene Nitrogen Nitrogen fixation Nitrogenase Nitrogenation Ocean models Oceans Sea ice Stations Tropical climate
Title	Biological nitrogen fixation detected under Antarctic sea ice
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