2017
DOI: 10.1016/j.chemgeo.2017.06.014
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Subterranean microbial oxidation of atmospheric methane in cavernous tropical karst

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Cited by 22 publications
(19 citation statements)
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“…Additionally, our data resemble an arctic system characterized by acetoclastic and hydrogenotrophic CH4 sources and methanotrophy (McCalley et al, 2014). Our isotopic evidence for in-situ microbial CH4 oxidation in caves is corroborated by recent results from in-situ mesocosm experiments in Vietnam where cave rocks with live microorganisms were shown to consume CH4 even in cases where surface soils were very thin to non-existent (Lennon et al, 2017;Nguyễn-Thuỳ et al, 2017).…”
Section: Methane Oxidation Mechanismssupporting
confidence: 87%
“…Additionally, our data resemble an arctic system characterized by acetoclastic and hydrogenotrophic CH4 sources and methanotrophy (McCalley et al, 2014). Our isotopic evidence for in-situ microbial CH4 oxidation in caves is corroborated by recent results from in-situ mesocosm experiments in Vietnam where cave rocks with live microorganisms were shown to consume CH4 even in cases where surface soils were very thin to non-existent (Lennon et al, 2017;Nguyễn-Thuỳ et al, 2017).…”
Section: Methane Oxidation Mechanismssupporting
confidence: 87%
“…A key reference point in the data interpretation is that the background atmosphere usually has around 1.8 ppm of CH 4 and its carbon and hydrogen isotopic composition (δ 13 C CH4 ≈ −47‰ VPDB, δ 2 H CH4 ≈ −100‰ VSMOW) is a product of inputs from an isotopically wide range of sources. The CH 4 concentration of cave air in epigenetic caves and, in general, in well-ventilated caves independently of their speleogenesis mechanisms are often depleted, confirming that subterranean environments may represent an overlooked sink for atmospheric CH 4 [23,[38][39][40][41][42][43][44] and, further, it is rapidly consumed in caves on time scales ranging from hours to days [23,39]. On the opposite case, underground air of some hypogene caves may contain unusually high levels of methane (up to 3%, e.g., Movile Cave) related to the action of chemoautotrophic bacteria [45], and others have moderate CH 4 concentrations, just above the atmospheric background, related to CH 4 outgassing from spring water in sulphuric acid hypogenic caves (e.g., <4 ppm CH 4 at Cueva Villa Luz [7]).…”
Section: Sources and Sink Processes During Migration Andmentioning
confidence: 99%
“…At the same time, two fragments of pitchblende (containing uraninite as a radiation source) were placed into the terrarium blank experiments with no artificially enhanced radiation to demonstrate the sensitivity of our setup to detect CH 4 -losses. In addition, we conducted (iii) two experiments with moist soils in the absence of added radon isotopes to assess the potential for environmental microorganisms (i.e., MOB) to remove CH 4 as has been demonstrated elsewhere by members of our research team [14,18]. The comparisons among experiments covered a common range of CH 4 concentration and thus only differed in the lengths of their time windows needed to lower the CH 4 concentration from the upper to the lower threshold (i.e.…”
Section: Active Time-series Measurements With Circular Flow At Iumentioning
confidence: 99%
“…A growing number of studies have reported that, throughout the world, concentrations of CH 4 are often depleted in the air of caves suggesting that subterranean environments may represent an overlooked sink for atmospheric CH 4 (e.g., [8][9][10][11][12][13]). Based on ventilation rates and CH 4 pools, it is estimated CH 4 is rapidly consumed in caves on time scales ranging from hours to days [14,15]. Depletion of CH 4 in caves is often attributed to MOB.…”
Section: Introductionmentioning
confidence: 99%