Tait, K, Laverock, B and Widdicombe, S 2014 Response of an Arctic Sediment Nitrogen Cycling Community to Increased CO2. Estuaries and Coasts, 37 (3). 724-735. https://doi.org/10.1007/s12237-013-9709-x
Full text not available from this repository.Abstract/Summary
Ocean acidification influences sediment/water nitrogen fluxes, possibly by impacting on the microbial process of ammonia oxidation. To investigate this further, undisturbed sediment cores collected from Ny Alesund harbour (Svalbard) were incubated with seawater adjusted to CO2 concentrations of 380, 540, 760, 1,120 and 3,000 μatm. DNA and RNA were extracted from the sediment surface after 14 days' exposure and the abundance of bacterial and archaeal ammonia oxidising (amoA) genes and transcripts quantified using quantitative polymerase chain reaction. While there was no change to the abundance of bacterial amoA genes, an increase to 760 μatm pCO2 reduced the abundance of bacterial amoA transcripts by 65 %, and this was accompanied by a shift in the composition of the active community. In contrast, archaeal amoA gene and transcript abundance both doubled at 3,000 μatm, with an increase in species richness also apparent. This suggests that ammonia oxidising bacteria and archaea in marine sediments have different pH optima, and the impact of elevated CO2 on N cycling may be dependent on the relative abundances of these two major microbial groups. Further evidence of a shift in the balance of key N cycling groups was also evident: the abundance of nirS-type denitrifier transcripts decreased alongside bacterial amoA transcripts, indicating that NO3 − produced by bacterial nitrification fuelled denitrification. An increase in the abundance of Planctomycete-specific 16S rRNA, the vastmajority of which grouped with known anammox bacteria, was also apparent at 3,000 μatm pCO2. This could indicate a possible shift from coupled nitrification–denitrification to anammox activity at elevated CO2.
Item Type: | Publication - Article |
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Additional Keywords: | Ocean acidification; Arctic; Sediment; Archaeal ammonia oxidation; Bacterial; Nitrification |
Subjects: | Ecology and Environment Marine Sciences |
Divisions: | Plymouth Marine Laboratory > Science Areas > Marine Life Support Systems (expired) |
Depositing User: | Karen Tait |
Date made live: | 10 Jun 2014 13:49 |
Last Modified: | 25 Apr 2020 09:56 |
URI: | https://plymsea.ac.uk/id/eprint/6068 |
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