Identifying Putative Subsurface Microbial Drivers of Methane Flux on Earth and Mars

On Earth microorganisms are critical drivers of the methane cycle, both producing and consuming methane (Boetius et al. 2000, Knittel and Boetius 2009, Orphan et al. 2001). Molecular and isotopic-based investigations of archaeal-bacterial consortia catalyzing the anaerobic oxidation of methane (AOM)...

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Published in:ARPHA Conference Abstracts
Main Authors: Sapers,Haley, Orphan,Victoria, Moores,John, Whyte,Lyle, Côté,Mathieu, Fecteau,Daniel, Grandmont,Frédéric, Innanen,Alex, Rusley,Calvin, Roux,Michel
Format: Conference Object
Language:English
Published: Pensoft Publishers 2023
Subjects:
methane
anaerobic oxidation of methane
Arctic
hypersaline spring
cold spring
Mars
methane seep
ANME-1
Nunavut
Heiberg
Axel Heiberg Island
permafrost
Online Access:https://doi.org/10.3897/aca.6.e109203
https://aca.pensoft.net/article/109203/
id ftpensoft:10.3897/aca.6.e109203
record_format openpolar
spelling ftpensoft:10.3897/aca.6.e109203 2023-11-12T04:12:54+01:00 Identifying Putative Subsurface Microbial Drivers of Methane Flux on Earth and Mars Sapers,Haley Orphan,Victoria Moores,John Whyte,Lyle Côté,Mathieu Fecteau,Daniel Grandmont,Frédéric Innanen,Alex Rusley,Calvin Roux,Michel 2023 text/html https://doi.org/10.3897/aca.6.e109203 https://aca.pensoft.net/article/109203/ en eng Pensoft Publishers info:eu-repo/semantics/altIdentifier/eissn/2603-3925 info:eu-repo/semantics/openAccess CC BY 4.0 ARPHA Conference Abstracts 6: e109203 methane anaerobic oxidation of methane Arctic hypersaline spring cold spring Mars methane seep ANME-1 Conference Abstract 2023 ftpensoft https://doi.org/10.3897/aca.6.e109203 2023-10-24T00:07:16Z On Earth microorganisms are critical drivers of the methane cycle, both producing and consuming methane (Boetius et al. 2000, Knittel and Boetius 2009, Orphan et al. 2001). Molecular and isotopic-based investigations of archaeal-bacterial consortia catalyzing the anaerobic oxidation of methane (AOM) in marine methane seeps identified the pivotal role of these microorganisms in mitigating the release of methane into the atmosphere (Knittel and Boetius 2009, Orphan et al. 2001). In the marine environment, AOM is predominantly carried out by closely associated consortia of methanotrophic archaea (ANME) and sulfate reducing bacteria (SRB) coupling methane oxidation to sulfate reduction in the absence of oxygen.Wolf Spring (WS), Axel Heiberg Island, Nunavut is a hypersaline cold spring methane seep and the only known terrestrial permafrost hosted methane seep known to host ANME-1 archaea associated with AOM (Niederberger et al. 2010, Magnuson et al. 2022). Wolf Spring is an unparalleled analogue for putative subsurface brines and sites of methane release on Mars. Enigmatic observations of methane in the near-surface Martian atmosphere remain a tantalizing potential biosignature.The combination of field site characterization, microbial microcosm experiments, and in situ methane monitoring represents a coordinated interdisciplinary effort to identify methane driven microbial metabolisms not only critical to understanding methane flux in the Arctic, but also as possible drivers to the methane cycle on Mars. Detailed microbial characterization of these springs has identified a chemotrophic community dominated by sulfur cycling (Altshuler et al. 2022, Niederberger et al. 2010). To date, microbial and geochemical characterization has been carried out on sediment samples to a few centimeters depth. This study expands on these initial studies, with the successful collection and analysis of deeper sediment cores at WS focusing on AOM activity to better understand the microorganisms involved and the methane cycling capacity at ... Conference Object Arctic Axel Heiberg Island Nunavut permafrost Pensoft Publishers Arctic Nunavut Heiberg ENVELOPE(13.964,13.964,66.424,66.424) Axel Heiberg Island ENVELOPE(-91.001,-91.001,79.752,79.752) ARPHA Conference Abstracts 6
institution Open Polar
collection Pensoft Publishers
op_collection_id ftpensoft
language English
topic methane
anaerobic oxidation of methane
Arctic
hypersaline spring
cold spring
Mars
methane seep
ANME-1
spellingShingle methane
anaerobic oxidation of methane
Arctic
hypersaline spring
cold spring
Mars
methane seep
ANME-1
Sapers,Haley
Orphan,Victoria
Moores,John
Whyte,Lyle
Côté,Mathieu
Fecteau,Daniel
Grandmont,Frédéric
Innanen,Alex
Rusley,Calvin
Roux,Michel
Identifying Putative Subsurface Microbial Drivers of Methane Flux on Earth and Mars
topic_facet methane
anaerobic oxidation of methane
Arctic
hypersaline spring
cold spring
Mars
methane seep
ANME-1
description On Earth microorganisms are critical drivers of the methane cycle, both producing and consuming methane (Boetius et al. 2000, Knittel and Boetius 2009, Orphan et al. 2001). Molecular and isotopic-based investigations of archaeal-bacterial consortia catalyzing the anaerobic oxidation of methane (AOM) in marine methane seeps identified the pivotal role of these microorganisms in mitigating the release of methane into the atmosphere (Knittel and Boetius 2009, Orphan et al. 2001). In the marine environment, AOM is predominantly carried out by closely associated consortia of methanotrophic archaea (ANME) and sulfate reducing bacteria (SRB) coupling methane oxidation to sulfate reduction in the absence of oxygen.Wolf Spring (WS), Axel Heiberg Island, Nunavut is a hypersaline cold spring methane seep and the only known terrestrial permafrost hosted methane seep known to host ANME-1 archaea associated with AOM (Niederberger et al. 2010, Magnuson et al. 2022). Wolf Spring is an unparalleled analogue for putative subsurface brines and sites of methane release on Mars. Enigmatic observations of methane in the near-surface Martian atmosphere remain a tantalizing potential biosignature.The combination of field site characterization, microbial microcosm experiments, and in situ methane monitoring represents a coordinated interdisciplinary effort to identify methane driven microbial metabolisms not only critical to understanding methane flux in the Arctic, but also as possible drivers to the methane cycle on Mars. Detailed microbial characterization of these springs has identified a chemotrophic community dominated by sulfur cycling (Altshuler et al. 2022, Niederberger et al. 2010). To date, microbial and geochemical characterization has been carried out on sediment samples to a few centimeters depth. This study expands on these initial studies, with the successful collection and analysis of deeper sediment cores at WS focusing on AOM activity to better understand the microorganisms involved and the methane cycling capacity at ...
format Conference Object
author Sapers,Haley
Orphan,Victoria
Moores,John
Whyte,Lyle
Côté,Mathieu
Fecteau,Daniel
Grandmont,Frédéric
Innanen,Alex
Rusley,Calvin
Roux,Michel
author_facet Sapers,Haley
Orphan,Victoria
Moores,John
Whyte,Lyle
Côté,Mathieu
Fecteau,Daniel
Grandmont,Frédéric
Innanen,Alex
Rusley,Calvin
Roux,Michel
author_sort Sapers,Haley
title Identifying Putative Subsurface Microbial Drivers of Methane Flux on Earth and Mars
title_short Identifying Putative Subsurface Microbial Drivers of Methane Flux on Earth and Mars
title_full Identifying Putative Subsurface Microbial Drivers of Methane Flux on Earth and Mars
title_fullStr Identifying Putative Subsurface Microbial Drivers of Methane Flux on Earth and Mars
title_full_unstemmed Identifying Putative Subsurface Microbial Drivers of Methane Flux on Earth and Mars
title_sort identifying putative subsurface microbial drivers of methane flux on earth and mars
publisher Pensoft Publishers
publishDate 2023
url https://doi.org/10.3897/aca.6.e109203
https://aca.pensoft.net/article/109203/
long_lat ENVELOPE(13.964,13.964,66.424,66.424)
ENVELOPE(-91.001,-91.001,79.752,79.752)
geographic Arctic
Nunavut
Heiberg
Axel Heiberg Island
geographic_facet Arctic
Nunavut
Heiberg
Axel Heiberg Island
genre Arctic
Axel Heiberg Island
Nunavut
permafrost
genre_facet Arctic
Axel Heiberg Island
Nunavut
permafrost
op_source ARPHA Conference Abstracts 6: e109203
op_relation info:eu-repo/semantics/altIdentifier/eissn/2603-3925
op_rights info:eu-repo/semantics/openAccess
CC BY 4.0
op_doi https://doi.org/10.3897/aca.6.e109203
container_title ARPHA Conference Abstracts
container_volume 6
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