Anaerobic methane oxidation inducing carbonate precipitation at abiogenic methane seeps in the Tuscan archipelago (Italy)

Patrick Meister; Johanna Wiedling; Christian Lott; Wolfgang Bach; Hanna Kuhfuss; Gunter Wegener; Michael Böttcher; Christian Deusner; Anna Lichtschlag; Stefano Bernasconi; Miriam Weber

doi:10.1371/journal.pone.0207305

Anaerobic methane oxidation inducing carbonate precipitation at abiogenic methane seeps in the Tuscan archipelago (Italy)

Patrick Meister (Corresponding author), Johanna Wiedling, Christian Lott, Wolfgang Bach, Hanna Kuhfuss, Gunter Wegener, Michael Böttcher, Christian Deusner, Anna Lichtschlag, Stefano Bernasconi, Miriam Weber

Department of Geology

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

Seepage of methane (CH ₄) on land and in the sea may significantly affect Earth’s biogeochemical cycles. However processes of CH ₄ generation and consumption, both abiotic and microbial, are not always clear. We provide new geochemical and isotope data to evaluate if a recently discovered CH ₄ seepage from the shallow seafloor close to the Island of Elba (Tuscany) and two small islands nearby are derived from abiogenic or biogenic sources and whether carbonate encrusted vents are the result of microbial or abiotic processes. Emission of gas bubbles (predominantly CH ₄) from unlithified sands was observed at seven spots in an area of 100 m ² at Pomonte (Island of Elba), with a total rate of 234 ml m ^-2 d ^-1. The measured carbon isotope values of CH ₄ of around -18 (VPDB) in combination with the measured δ ²H value of -120 (VSMOW) and the inverse correlation of δ ¹³C-value with carbon number of hydrocarbon gases are characteristic for sites of CH ₄ formation through abiogenic processes, specifically abiogenic formation of CH ₄ via reduction of CO ₂ by H ₂. The H ₂ for methanogenesis likely derives from ophiolitic host rock within the Ligurian accre-tionary prism. The lack of hydrothermal activity allows CH ₄ gas to become decoupled from the stagnant aqueous phase. Hence no hyperalkaline fluid is currently released at the vent sites. Within the seep area a decrease in porewater sulphate concentrations by ca. 5 mmol/l relative to seawater and a concomitant increase in sulphide and dissolved inorganic carbon (DIC) indicate substantial activity of sulphate-dependent anaerobic oxidation of methane (AOM). In absence of any other dissimilatory pathway, the δ ¹³C-values between -17 and -5 in dissolved inorganic carbon and aragonite cements suggest that the inorganic carbon is largely derived from CH ₄. The formation of seep carbonates is thus microbially induced via anaerobic oxidation of abiotic CH ₄

Original language	English
Article number	e0207305
Number of pages	34
Journal	PLoS ONE
Volume	13
Issue number	12
DOIs	https://doi.org/10.1371/journal.pone.0207305
Publication status	Published - 19 Dec 2018

Austrian Fields of Science 2012

105128 Geomicrobiology
105105 Geochemistry

Keywords

ABIOTIC METHANE
ANGLE NORMAL FAULTS
ELBA ISLAND
FLUID-FLOW
ISOTOPE FRACTIONATION
MICROBIAL COMMUNITIES
MONTEREY BAY
MUD VOLCANO
ORGANIC-COMPOUNDS
SULFATE REDUCTION

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Cite this

@article{337a26b1136c45c1ad4b71b32ab53738,

title = "Anaerobic methane oxidation inducing carbonate precipitation at abiogenic methane seeps in the Tuscan archipelago (Italy)",

abstract = "Seepage of methane (CH 4) on land and in the sea may significantly affect Earth{\textquoteright}s biogeochemical cycles. However processes of CH 4 generation and consumption, both abiotic and microbial, are not always clear. We provide new geochemical and isotope data to evaluate if a recently discovered CH 4 seepage from the shallow seafloor close to the Island of Elba (Tuscany) and two small islands nearby are derived from abiogenic or biogenic sources and whether carbonate encrusted vents are the result of microbial or abiotic processes. Emission of gas bubbles (predominantly CH 4) from unlithified sands was observed at seven spots in an area of 100 m 2 at Pomonte (Island of Elba), with a total rate of 234 ml m -2 d -1. The measured carbon isotope values of CH 4 of around -18 (VPDB) in combination with the measured δ 2H value of -120 (VSMOW) and the inverse correlation of δ 13C-value with carbon number of hydrocarbon gases are characteristic for sites of CH 4 formation through abiogenic processes, specifically abiogenic formation of CH 4 via reduction of CO 2 by H 2. The H 2 for methanogenesis likely derives from ophiolitic host rock within the Ligurian accre-tionary prism. The lack of hydrothermal activity allows CH 4 gas to become decoupled from the stagnant aqueous phase. Hence no hyperalkaline fluid is currently released at the vent sites. Within the seep area a decrease in porewater sulphate concentrations by ca. 5 mmol/l relative to seawater and a concomitant increase in sulphide and dissolved inorganic carbon (DIC) indicate substantial activity of sulphate-dependent anaerobic oxidation of methane (AOM). In absence of any other dissimilatory pathway, the δ 13C-values between -17 and -5 in dissolved inorganic carbon and aragonite cements suggest that the inorganic carbon is largely derived from CH 4. The formation of seep carbonates is thus microbially induced via anaerobic oxidation of abiotic CH 4 ",

keywords = "ABIOTIC METHANE, ANGLE NORMAL FAULTS, ELBA ISLAND, FLUID-FLOW, ISOTOPE FRACTIONATION, MICROBIAL COMMUNITIES, MONTEREY BAY, MUD VOLCANO, ORGANIC-COMPOUNDS, SULFATE REDUCTION",

author = "Patrick Meister and Johanna Wiedling and Christian Lott and Wolfgang Bach and Hanna Kuhfuss and Gunter Wegener and Michael B{\"o}ttcher and Christian Deusner and Anna Lichtschlag and Stefano Bernasconi and Miriam Weber",

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T1 - Anaerobic methane oxidation inducing carbonate precipitation at abiogenic methane seeps in the Tuscan archipelago (Italy)

AU - Meister, Patrick

AU - Wiedling, Johanna

AU - Lott, Christian

AU - Bach, Wolfgang

AU - Kuhfuss, Hanna

AU - Wegener, Gunter

AU - Böttcher, Michael

AU - Deusner, Christian

AU - Lichtschlag, Anna

AU - Bernasconi, Stefano

AU - Weber, Miriam

N1 - Publisher Copyright: © 2018 Meister et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

PY - 2018/12/19

Y1 - 2018/12/19

N2 - Seepage of methane (CH 4) on land and in the sea may significantly affect Earth’s biogeochemical cycles. However processes of CH 4 generation and consumption, both abiotic and microbial, are not always clear. We provide new geochemical and isotope data to evaluate if a recently discovered CH 4 seepage from the shallow seafloor close to the Island of Elba (Tuscany) and two small islands nearby are derived from abiogenic or biogenic sources and whether carbonate encrusted vents are the result of microbial or abiotic processes. Emission of gas bubbles (predominantly CH 4) from unlithified sands was observed at seven spots in an area of 100 m 2 at Pomonte (Island of Elba), with a total rate of 234 ml m -2 d -1. The measured carbon isotope values of CH 4 of around -18 (VPDB) in combination with the measured δ 2H value of -120 (VSMOW) and the inverse correlation of δ 13C-value with carbon number of hydrocarbon gases are characteristic for sites of CH 4 formation through abiogenic processes, specifically abiogenic formation of CH 4 via reduction of CO 2 by H 2. The H 2 for methanogenesis likely derives from ophiolitic host rock within the Ligurian accre-tionary prism. The lack of hydrothermal activity allows CH 4 gas to become decoupled from the stagnant aqueous phase. Hence no hyperalkaline fluid is currently released at the vent sites. Within the seep area a decrease in porewater sulphate concentrations by ca. 5 mmol/l relative to seawater and a concomitant increase in sulphide and dissolved inorganic carbon (DIC) indicate substantial activity of sulphate-dependent anaerobic oxidation of methane (AOM). In absence of any other dissimilatory pathway, the δ 13C-values between -17 and -5 in dissolved inorganic carbon and aragonite cements suggest that the inorganic carbon is largely derived from CH 4. The formation of seep carbonates is thus microbially induced via anaerobic oxidation of abiotic CH 4

AB - Seepage of methane (CH 4) on land and in the sea may significantly affect Earth’s biogeochemical cycles. However processes of CH 4 generation and consumption, both abiotic and microbial, are not always clear. We provide new geochemical and isotope data to evaluate if a recently discovered CH 4 seepage from the shallow seafloor close to the Island of Elba (Tuscany) and two small islands nearby are derived from abiogenic or biogenic sources and whether carbonate encrusted vents are the result of microbial or abiotic processes. Emission of gas bubbles (predominantly CH 4) from unlithified sands was observed at seven spots in an area of 100 m 2 at Pomonte (Island of Elba), with a total rate of 234 ml m -2 d -1. The measured carbon isotope values of CH 4 of around -18 (VPDB) in combination with the measured δ 2H value of -120 (VSMOW) and the inverse correlation of δ 13C-value with carbon number of hydrocarbon gases are characteristic for sites of CH 4 formation through abiogenic processes, specifically abiogenic formation of CH 4 via reduction of CO 2 by H 2. The H 2 for methanogenesis likely derives from ophiolitic host rock within the Ligurian accre-tionary prism. The lack of hydrothermal activity allows CH 4 gas to become decoupled from the stagnant aqueous phase. Hence no hyperalkaline fluid is currently released at the vent sites. Within the seep area a decrease in porewater sulphate concentrations by ca. 5 mmol/l relative to seawater and a concomitant increase in sulphide and dissolved inorganic carbon (DIC) indicate substantial activity of sulphate-dependent anaerobic oxidation of methane (AOM). In absence of any other dissimilatory pathway, the δ 13C-values between -17 and -5 in dissolved inorganic carbon and aragonite cements suggest that the inorganic carbon is largely derived from CH 4. The formation of seep carbonates is thus microbially induced via anaerobic oxidation of abiotic CH 4

KW - ABIOTIC METHANE

KW - ANGLE NORMAL FAULTS

KW - ELBA ISLAND

KW - FLUID-FLOW

KW - ISOTOPE FRACTIONATION

KW - MICROBIAL COMMUNITIES

KW - MONTEREY BAY

KW - MUD VOLCANO

KW - ORGANIC-COMPOUNDS

KW - SULFATE REDUCTION

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U2 - 10.1371/journal.pone.0207305

DO - 10.1371/journal.pone.0207305

M3 - Article

SN - 1932-6203

VL - 13

JO - PLoS ONE

JF - PLoS ONE

IS - 12

M1 - e0207305

ER -

Anaerobic methane oxidation inducing carbonate precipitation at abiogenic methane seeps in the Tuscan archipelago (Italy)

Abstract

Austrian Fields of Science 2012

Keywords

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