Geochemical and acoustic evidence for the occurrence of methane in sediments of the Polish sector of the southern Baltic SeaThe research was supported by the Polish Ministry of Science and Higher Education grant No. N306 441638 entitled ‘Occurrence and transformations of methane in sediments of the southern Baltic Sea’, by the BONUS project ‘BALTIC GAS. Methane emission in the Baltic Sea: Gas storage and effects of climate change and eutrophication (2009–2011)’ and by the National Science Centre
This paper presents the results of geochemical and acoustic investigations of sediments in the Polish sector of the southern Baltic Sea. Its objective was to indicate areas of gas bubble formation and the occurrence of methane. Over 3000 nautical miles of transects were recorded using a variety of h...
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Veröffentlicht in: | Oceanologia 2013-11, Vol.55 (4), p.951-978 |
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Sprache: | pol |
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Zusammenfassung: | This paper presents the results of geochemical and acoustic investigations of sediments in the Polish sector of the southern Baltic Sea. Its objective was to indicate areas of gas bubble formation and the occurrence of methane. Over 3000 nautical miles of transects were recorded using a variety of hydroacoustic instruments, and five coring points were selected for further analyses of pore waters (CH4, SO42−, H2S, NH4+, total alkalinity) and sediments (grain size distribution, Corg, Ntot, LOI and WC). Gas turned out to be present at shallow depths in different forms such as recent and buried pockmarks, and gas-saturated sediments (including gas pockets and seepages). It was found that methane was widespread in the sediments of the study area, both in the surface sediments, e.g. in the vicinity of the Hel Peninsula or in the central Gulf of Gdańsk, and in deeper sediment layers, e.g. in the Gdańsk Deep and the Słupsk Furrow. Chemical analysis showed that as a result of the rapid decomposition of organic matter, sulphates were depleted in the top 20cm layer of sediments and that methane was produced at relatively shallow depths (in some areas even at depths of 20–30cm bsf) compared to other regions of the Baltic, reaching concentrations of>6mmol l−1 in the 30–40cm layer below the sediment surface. The sulphate-methane transition zone (SMTZ) was 4–37cm thick and was situated in the uppermost 50cm of the sediments. |
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ISSN: | 0078-3234 |
DOI: | 10.5697/oc.55-4.951 |