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Bibliographic Details
Main Authors: Jiang, Qiuyun, Cao, Lei, Han, Yingchun, Li, Shengjie, Zhao, Rui, Zhang, Xiaoli, Ruff, S Emil, Zhao, Zhuoming, Peng, Jiaxue, Liao, Jing, Zhu, Baoli, Wang, Minxiao, Lin, Xianbiao, Dong, Xiyang
Format: Artículo científico
Language:en
Published: Nature communications 2025
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Online Access:https://pubmed.ncbi.nlm.nih.gov/39952920/
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Table of Contents:
  • Cold seeps are potential hotspots of deep-sea nitrogen loss driven by microorganisms across 21 phyla. Jiang, Qiuyun Cao, Lei Han, Yingchun Li, Shengjie Zhao, Rui Zhang, Xiaoli Ruff, S Emil Zhao, Zhuoming Peng, Jiaxue Liao, Jing Zhu, Baoli Wang, Minxiao Lin, Xianbiao Dong, Xiyang Geologic Sediments Nitrogen Seawater Bacteria Metagenome Metagenomics Cold Temperature Phylogeny Nitrogen Cycle Oceans and Seas Nitrogen bioavailability, governed by fixation and loss processes, is crucial for oceanic productivity and global biogeochemical cycles. The key nitrogen loss organisms-denitrifiers and anaerobic ammonium-oxidizing (anammox) bacteria-remain poorly understood in deep-sea cold seeps. This study combined geochemical measurements, N stable isotope tracer analysis, metagenomics, metatranscriptomics, and three-dimensional protein structural simulations to explore cold-seeps nitrogen loss processes. Geochemical evidence from 359 sediment samples shows significantly higher nitrogen loss rates in cold seeps compared to typical deep-sea sediments, with nitrogen loss flux from surface sediments estimated at 4.96-7.63 Tg N yr (1.65-2.54% of global marine sediment). Examination of 147 million non-redundant genes indicates a high prevalence of nitrogen loss genes, including nitrous-oxide reductase (NosZ; 6.88 genes per million reads, GPM), nitric oxide dismutase (Nod; 1.29 GPM), and hydrazine synthase (HzsA; 3.35 GPM) in surface sediments. Analysis of 3,164 metagenome-assembled genomes expands the nitrous-oxide reducers by three phyla, nitric oxide-dismutating organisms by one phylum and two orders, and anammox bacteria by ten phyla going beyond Planctomycetota. These microbes exhibit structural adaptations and complex gene cluster enabling survival in cold seeps. Cold seeps likely are previously underestimated nitrogen loss hotspots, potentially contributing notably to the global nitrogen cycle.