Data_Sheet_1_Nutrient Inputs Stimulate Mercury Methylation by Syntrophs in a Subarctic Peatland.DOCX
Climate change dramatically impacts Arctic and subarctic regions, inducing shifts in wetland nutrient regimes as a consequence of thawing permafrost. Altered hydrological regimes may drive changes in the dynamics of microbial mercury (Hg) methylation and bioavailability. Important knowledge gaps rem...
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ftfrontimediafig:oai:figshare.com:article/16728424 2023-05-15T15:16:37+02:00 Data_Sheet_1_Nutrient Inputs Stimulate Mercury Methylation by Syntrophs in a Subarctic Peatland.DOCX Spencer Roth Brett A. Poulin Zofia Baumann Xiao Liu Lin Zhang David P. Krabbenhoft Mark E. Hines Jeffra K. Schaefer Tamar Barkay 2021-10-04T04:40:44Z https://doi.org/10.3389/fmicb.2021.741523.s001 https://figshare.com/articles/dataset/Data_Sheet_1_Nutrient_Inputs_Stimulate_Mercury_Methylation_by_Syntrophs_in_a_Subarctic_Peatland_DOCX/16728424 unknown doi:10.3389/fmicb.2021.741523.s001 https://figshare.com/articles/dataset/Data_Sheet_1_Nutrient_Inputs_Stimulate_Mercury_Methylation_by_Syntrophs_in_a_Subarctic_Peatland_DOCX/16728424 CC BY 4.0 CC-BY Microbiology Microbial Genetics Microbial Ecology Mycology climate change peatland hgcA syntrophy mercury methylation Dataset 2021 ftfrontimediafig https://doi.org/10.3389/fmicb.2021.741523.s001 2021-10-06T23:01:15Z Climate change dramatically impacts Arctic and subarctic regions, inducing shifts in wetland nutrient regimes as a consequence of thawing permafrost. Altered hydrological regimes may drive changes in the dynamics of microbial mercury (Hg) methylation and bioavailability. Important knowledge gaps remain on the contribution of specific microbial groups to methylmercury (MeHg) production in wetlands of various trophic status. Here, we measured aqueous chemistry, potential methylation rates (k meth ), volatile fatty acid (VFA) dynamics in peat-soil incubations, and genetic potential for Hg methylation across a groundwater-driven nutrient gradient in an interior Alaskan fen. We tested the hypotheses that (1) nutrient inputs will result in increased methylation potentials, and (2) syntrophic interactions contribute to methylation in subarctic wetlands. We observed that concentrations of nutrients, total Hg, and MeHg, abundance of hgcA genes, and rates of methylation in peat incubations (k meth ) were highest near the groundwater input and declined downgradient. hgcA sequences near the input were closely related to those from sulfate-reducing bacteria (SRB), methanogens, and syntrophs. Hg methylation in peat incubations collected near the input source (FPF2) were impacted by the addition of sulfate and some metabolic inhibitors while those down-gradient (FPF5) were not. Sulfate amendment to FPF2 incubations had higher k meth relative to unamended controls despite no effect on k meth from addition of the sulfate reduction inhibitor molybdate. The addition of the methanogenic inhibitor BES (25 mM) led to the accumulation of VFAs, but unlike molybdate, it did not affect Hg methylation rates. Rather, the concurrent additions of BES and molybdate significantly decreased k meth , suggesting a role for interactions between SRB and methanogens in Hg methylation. The reduction in k meth with combined addition of BES and molybdate, and accumulation of VFA in peat incubations containing BES, and a high abundance of ... Dataset Arctic Climate change permafrost Subarctic Frontiers: Figshare Arctic |
institution |
Open Polar |
collection |
Frontiers: Figshare |
op_collection_id |
ftfrontimediafig |
language |
unknown |
topic |
Microbiology Microbial Genetics Microbial Ecology Mycology climate change peatland hgcA syntrophy mercury methylation |
spellingShingle |
Microbiology Microbial Genetics Microbial Ecology Mycology climate change peatland hgcA syntrophy mercury methylation Spencer Roth Brett A. Poulin Zofia Baumann Xiao Liu Lin Zhang David P. Krabbenhoft Mark E. Hines Jeffra K. Schaefer Tamar Barkay Data_Sheet_1_Nutrient Inputs Stimulate Mercury Methylation by Syntrophs in a Subarctic Peatland.DOCX |
topic_facet |
Microbiology Microbial Genetics Microbial Ecology Mycology climate change peatland hgcA syntrophy mercury methylation |
description |
Climate change dramatically impacts Arctic and subarctic regions, inducing shifts in wetland nutrient regimes as a consequence of thawing permafrost. Altered hydrological regimes may drive changes in the dynamics of microbial mercury (Hg) methylation and bioavailability. Important knowledge gaps remain on the contribution of specific microbial groups to methylmercury (MeHg) production in wetlands of various trophic status. Here, we measured aqueous chemistry, potential methylation rates (k meth ), volatile fatty acid (VFA) dynamics in peat-soil incubations, and genetic potential for Hg methylation across a groundwater-driven nutrient gradient in an interior Alaskan fen. We tested the hypotheses that (1) nutrient inputs will result in increased methylation potentials, and (2) syntrophic interactions contribute to methylation in subarctic wetlands. We observed that concentrations of nutrients, total Hg, and MeHg, abundance of hgcA genes, and rates of methylation in peat incubations (k meth ) were highest near the groundwater input and declined downgradient. hgcA sequences near the input were closely related to those from sulfate-reducing bacteria (SRB), methanogens, and syntrophs. Hg methylation in peat incubations collected near the input source (FPF2) were impacted by the addition of sulfate and some metabolic inhibitors while those down-gradient (FPF5) were not. Sulfate amendment to FPF2 incubations had higher k meth relative to unamended controls despite no effect on k meth from addition of the sulfate reduction inhibitor molybdate. The addition of the methanogenic inhibitor BES (25 mM) led to the accumulation of VFAs, but unlike molybdate, it did not affect Hg methylation rates. Rather, the concurrent additions of BES and molybdate significantly decreased k meth , suggesting a role for interactions between SRB and methanogens in Hg methylation. The reduction in k meth with combined addition of BES and molybdate, and accumulation of VFA in peat incubations containing BES, and a high abundance of ... |
format |
Dataset |
author |
Spencer Roth Brett A. Poulin Zofia Baumann Xiao Liu Lin Zhang David P. Krabbenhoft Mark E. Hines Jeffra K. Schaefer Tamar Barkay |
author_facet |
Spencer Roth Brett A. Poulin Zofia Baumann Xiao Liu Lin Zhang David P. Krabbenhoft Mark E. Hines Jeffra K. Schaefer Tamar Barkay |
author_sort |
Spencer Roth |
title |
Data_Sheet_1_Nutrient Inputs Stimulate Mercury Methylation by Syntrophs in a Subarctic Peatland.DOCX |
title_short |
Data_Sheet_1_Nutrient Inputs Stimulate Mercury Methylation by Syntrophs in a Subarctic Peatland.DOCX |
title_full |
Data_Sheet_1_Nutrient Inputs Stimulate Mercury Methylation by Syntrophs in a Subarctic Peatland.DOCX |
title_fullStr |
Data_Sheet_1_Nutrient Inputs Stimulate Mercury Methylation by Syntrophs in a Subarctic Peatland.DOCX |
title_full_unstemmed |
Data_Sheet_1_Nutrient Inputs Stimulate Mercury Methylation by Syntrophs in a Subarctic Peatland.DOCX |
title_sort |
data_sheet_1_nutrient inputs stimulate mercury methylation by syntrophs in a subarctic peatland.docx |
publishDate |
2021 |
url |
https://doi.org/10.3389/fmicb.2021.741523.s001 https://figshare.com/articles/dataset/Data_Sheet_1_Nutrient_Inputs_Stimulate_Mercury_Methylation_by_Syntrophs_in_a_Subarctic_Peatland_DOCX/16728424 |
geographic |
Arctic |
geographic_facet |
Arctic |
genre |
Arctic Climate change permafrost Subarctic |
genre_facet |
Arctic Climate change permafrost Subarctic |
op_relation |
doi:10.3389/fmicb.2021.741523.s001 https://figshare.com/articles/dataset/Data_Sheet_1_Nutrient_Inputs_Stimulate_Mercury_Methylation_by_Syntrophs_in_a_Subarctic_Peatland_DOCX/16728424 |
op_rights |
CC BY 4.0 |
op_rightsnorm |
CC-BY |
op_doi |
https://doi.org/10.3389/fmicb.2021.741523.s001 |
_version_ |
1766346905057492992 |