Ubiquity and diversity of ammonia-oxidizing archaea in water columns and sediments of the ocean
Christopher A. Francis,Kathryn J. Roberts,J. Michael Beman,Alyson E. Santoro,Brian B. Oakley +4 more
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TLDR
Using PCR primers designed to specifically target archaeal amoA, AOA is found to be pervasive in areas of the ocean that are critical for the global nitrogen cycle, including the base of the euphotic zone, suboxic water columns, and estuarine and coastal sediments.Abstract:
Nitrification, the microbial oxidation of ammonia to nitrite and nitrate, occurs in a wide variety of environments and plays a central role in the global nitrogen cycle. Catalyzed by the enzyme ammonia monooxygenase, the ability to oxidize ammonia was previously thought to be restricted to a few groups within the β- and γ-Proteobacteria. However, recent metagenomic studies have revealed the existence of unique ammonia monooxygenase α-subunit (amoA) genes derived from uncultivated, nonextremophilic Crenarchaeota. Here, we report molecular evidence for the widespread presence of ammonia-oxidizing archaea (AOA) in marine water columns and sediments. Using PCR primers designed to specifically target archaeal amoA, we find AOA to be pervasive in areas of the ocean that are critical for the global nitrogen cycle, including the base of the euphotic zone, suboxic water columns, and estuarine and coastal sediments. Diverse and distinct AOA communities are associated with each of these habitats, with little overlap between water columns and sediments. Within marine sediments, most AOA sequences are unique to individual sampling locations, whereas a small number of sequences are evidently cosmopolitan in distribution. Considering the abundance of nonextremophilic archaea in the ocean, our results suggest that AOA may play a significant, but previously unrecognized, role in the global nitrogen cycle.read more
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Soil warming and fertilization altered rates of nitrogen transformation processes and selected for adapted ammonia-oxidizing archaea in sub-arctic grassland soil
TL;DR: In this paper, the authors used geothermally warmed soils from Iceland as a natural experiment for assessing fertilization and warming effects on gross soil N transformation processes and found that long-term N fertilization alone alone affected only gross N mineralization.
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Bacteria dominate the ammonia-oxidizing community in a hydrothermal vent site at the Mid-Atlantic Ridge of the South Atlantic Ocean
TL;DR: Diversity and abundance of AOA and AOB were significantly correlated with the contents of total nitrogen and total sulfur in investigated samples, suggesting that these two environmental factors exert strong influences on distribution of ammonia oxidizers in deep-sea hydrothermal vent environment.
Journal ArticleDOI
Diversity, abundance and community structure of ammonia-oxidizing archaea and bacteria in riparian sediment of Zhenjiang ancient canal
TL;DR: Cl Clone libraries and qPCR results indicated both abundance and diversity of AOB were higher than that of AOA, suggesting that AOB may play a more important role than AOA in nitrification process.
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AmoA-targeted polymerase chain reaction primers for the specific detection and quantification of comammox Nitrospira in the environment
Petra Pjevac,Clemens Schauberger,Lianna Poghosyan,Craig W. Herbold,Maartje A. H. J. van Kessel,Anne Daebeler,Michaela Steinberger,Mike S. M. Jetten,Sebastian Lücker,Michael Wagner,Holger Daims +10 more
TL;DR: New PCR primer sets that specifically target the amoA genes coding for subunit A of the distinct ammonia monooxygenase of comammox Nitrospira will enable more encompassing studies of nitrifying microorganisms in diverse ecosystems.
Journal ArticleDOI
Molecular diversity of bacterioplankton: link to a predictive biogeochemistry of pelagic ecosystems
TL;DR: Based on the current understanding of the structure- function links in bacterioplankton, it is hypothesized that any local bacterial community comprises 2 parts: the abundant members form a core community that carries out the ongoing biogeochemical functions, and the rareMembers form a seedbank that provides the genetic potential to respond to any change in the system.
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