Nitrogen Fertilization Has a Stronger Effect on Soil Nitrogen-Fixing Bacterial Communities than Elevated Atmospheric CO^sub 2

Biological nitrogen fixation is the primary supply of N to most ecosystems, yet there is considerable uncertainty about how N-fixing bacteria will respond to global change factors such as increasing atmospheric ... and N deposition. Using the nifH gene as a molecular marker, we studied how the commu...

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Veröffentlicht in:	Applied and environmental microbiology 2014-05, Vol.80 (10), p.3103
Hauptverfasser:	Berthrong, Sean T, Yeager, Chris M, Gallegos-Graves, Laverne, Steven, Blaire, Eichorst, Stephanie A, Jackson, Robert B, Kuske, Cheryl R
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Sprache:	eng
Schlagworte:	Bacteria Carbon dioxide Climate change Nitrogen Nonnative species Soil fertility
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creator	Berthrong, Sean T Yeager, Chris M Gallegos-Graves, Laverne Steven, Blaire Eichorst, Stephanie A Jackson, Robert B Kuske, Cheryl R
description	Biological nitrogen fixation is the primary supply of N to most ecosystems, yet there is considerable uncertainty about how N-fixing bacteria will respond to global change factors such as increasing atmospheric ... and N deposition. Using the nifH gene as a molecular marker, we studied how the community structure of N-fixing soil bacteria from temperate pine, aspen, and sweet gum stands and a brackish tidal marsh responded to multiyear elevated ... conditions. We also examined how N availability, specifically, N fertilization, interacted with elevated ... to affect these communities in the temperate pine forest. Based on data from Sanger sequencing and quantitative PCR, the soil nifH composition in the three forest systems was dominated by species in the Geobacteraceae and, to a lesser extent, Alphaproteobacteria. The N-fixing-bacterial-community structure was subtly altered after 10 or more years of elevated atmospheric ..., and the observed shifts differed in each biome. In the pine forest, N fertilization had a stronger effect on nifH community structure than elevated ... and suppressed the diversity and abundance of N-fixing bacteria under elevated atmospheric ... conditions. These results indicate that N-fixing bacteria have complex, interacting responses that will be important for understanding ecosystem productivity in a changing climate. (ProQuest: ... denotes formulae/symbols omitted.)
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Using the nifH gene as a molecular marker, we studied how the community structure of N-fixing soil bacteria from temperate pine, aspen, and sweet gum stands and a brackish tidal marsh responded to multiyear elevated ... conditions. We also examined how N availability, specifically, N fertilization, interacted with elevated ... to affect these communities in the temperate pine forest. Based on data from Sanger sequencing and quantitative PCR, the soil nifH composition in the three forest systems was dominated by species in the Geobacteraceae and, to a lesser extent, Alphaproteobacteria. The N-fixing-bacterial-community structure was subtly altered after 10 or more years of elevated atmospheric ..., and the observed shifts differed in each biome. In the pine forest, N fertilization had a stronger effect on nifH community structure than elevated ... and suppressed the diversity and abundance of N-fixing bacteria under elevated atmospheric ... conditions. These results indicate that N-fixing bacteria have complex, interacting responses that will be important for understanding ecosystem productivity in a changing climate. 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source	American Society for Microbiology; PubMed Central; Alma/SFX Local Collection
subjects	Bacteria Carbon dioxide Climate change Nitrogen Nonnative species Soil fertility
title	Nitrogen Fertilization Has a Stronger Effect on Soil Nitrogen-Fixing Bacterial Communities than Elevated Atmospheric CO^sub 2
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