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Microbial Ecology and Site Characteristics Underlie Differences in Salinity-Methane Relationships in Coastal Wetlands

Publication ,  Journal Article
Bueno de Mesquita, CP; Hartman, WH; Ardón, M; Bernhardt, ES; Neubauer, SC; Weston, NB; Tringe, SG
Published in: Journal of Geophysical Research: Biogeosciences
June 1, 2024

Methane (CH4) is a potent greenhouse gas emitted by archaea in anaerobic environments such as wetland soils. Tidal freshwater wetlands are predicted to become increasingly saline as sea levels rise due to climate change. Previous work has shown that increases in salinity generally decrease CH4 emissions, but with considerable variation, including instances where salinization increased CH4 flux. We measured microbial community composition, biogeochemistry, and CH4 flux from field samples and lab experiments from four different sites across a wide geographic range. We sought to assess how site differences and microbial ecology affect how CH4 emissions are influenced by salinization. CH4 flux was generally, but not always, positively correlated with CO2 flux, soil carbon, ammonium, phosphate, and pH. Methanogen guilds were positively correlated with CH4 flux across all sites, while methanotroph guilds were both positively and negatively correlated with CH4 depending on site. There was mixed support for negative relationships between CH4 fluxes and concentrations of alternative electron acceptors and abundances of taxa that reduce them. CH4/salinity relationships ranged from negative, to neutral, to positive and appeared to be influenced by site characteristics such as pH and plant composition, which also likely contributed to site differences in microbial communities. The activity of site-specific microbes that may respond differently to low-level salinity increases is likely an important driver of CH4/salinity relationships. Our results suggest several factors that make it difficult to generalize CH4/salinity relationships and highlight the need for paired microbial and flux measurements across a broader range of sites.

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Published In

Journal of Geophysical Research: Biogeosciences

DOI

EISSN

2169-8961

ISSN

2169-8953

Publication Date

June 1, 2024

Volume

129

Issue

6

Related Subject Headings

  • 3706 Geophysics
  • 0404 Geophysics
 

Citation

APA
Chicago
ICMJE
MLA
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Bueno de Mesquita, C. P., Hartman, W. H., Ardón, M., Bernhardt, E. S., Neubauer, S. C., Weston, N. B., & Tringe, S. G. (2024). Microbial Ecology and Site Characteristics Underlie Differences in Salinity-Methane Relationships in Coastal Wetlands. Journal of Geophysical Research: Biogeosciences, 129(6). https://doi.org/10.1029/2024JG008133
Bueno de Mesquita, C. P., W. H. Hartman, M. Ardón, E. S. Bernhardt, S. C. Neubauer, N. B. Weston, and S. G. Tringe. “Microbial Ecology and Site Characteristics Underlie Differences in Salinity-Methane Relationships in Coastal Wetlands.” Journal of Geophysical Research: Biogeosciences 129, no. 6 (June 1, 2024). https://doi.org/10.1029/2024JG008133.
Bueno de Mesquita CP, Hartman WH, Ardón M, Bernhardt ES, Neubauer SC, Weston NB, et al. Microbial Ecology and Site Characteristics Underlie Differences in Salinity-Methane Relationships in Coastal Wetlands. Journal of Geophysical Research: Biogeosciences. 2024 Jun 1;129(6).
Bueno de Mesquita, C. P., et al. “Microbial Ecology and Site Characteristics Underlie Differences in Salinity-Methane Relationships in Coastal Wetlands.” Journal of Geophysical Research: Biogeosciences, vol. 129, no. 6, June 2024. Scopus, doi:10.1029/2024JG008133.
Bueno de Mesquita CP, Hartman WH, Ardón M, Bernhardt ES, Neubauer SC, Weston NB, Tringe SG. Microbial Ecology and Site Characteristics Underlie Differences in Salinity-Methane Relationships in Coastal Wetlands. Journal of Geophysical Research: Biogeosciences. 2024 Jun 1;129(6).

Published In

Journal of Geophysical Research: Biogeosciences

DOI

EISSN

2169-8961

ISSN

2169-8953

Publication Date

June 1, 2024

Volume

129

Issue

6

Related Subject Headings

  • 3706 Geophysics
  • 0404 Geophysics