Noble gases as tracers for the gas dynamics in methane supersaturated lacustrine sediments
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2021-05-05
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Journal Article
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Abstract
The commonly observed heterogeneous and erratic emissions of methane from lacustrine sediments are difficult to quantify. The combined analysis of methane and noble gas concentrations in the pore water opens a novel route to analyse and quantify such emissions and was used in this work to explore the gas dynamics in the sediments of two lakes with different hydro-geochemical settings. In the hypertrophic Lake Rot the microbial activity in the sediment pore water results in a virtually continuous gas bubble formation and emission. By determining noble gas concentration gradients and the maximum methane supersaturation, the minimum methane emission from the sediment was quantified. The gas evolution in the pore water of the sediments of artificial Lake Lungern is strongly affected by annual lake level variations of up to 20 m. Noble gas concentrations allow past gas dynamics at different lake levels to be traced back. At “hot spots” of bubble emission microbial methane from deeper sediments was released in response to the decreasing hydrostatic pressure, i.e. man-induced lake level drop.
Within zones of the sediment that seasonally fall dry, the air supply to the sediment was inferred from the noble gas excess observed in the pore water, which is due to dissolving air bubbles which entered the sediment during the dry period.
These case studies demonstrate the potential of the combined analysis of noble gas and CH4 concentrations for exploring the gas dynamics in lacustrine sediments. The feasibility of this method under different conditions calls for an application in other aquatic environments, such as wetlands and oceans.
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published
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Journal / series
Volume
568
Pages / Article No.
119905
Publisher
Elsevier
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Subject
Ebullition; Lake water level variation; Methane bubble emission; Oxygen input; Excess air; Dry falling
Organisational unit
03946 - Schönbächler, Maria / Schönbächler, Maria
03956 - Vance, Derek / Vance, Derek