Land-atmosphere interactions on different scales – The exchange of methane between wet Arctic tundra and the atmosphere at the Lena River Delta, Siberia.

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dc.contributor.author Sachs, Torsten
dc.contributor.author Wille, Christian
dc.contributor.author Boike, Julia
dc.contributor.author Kutzbach, Lars
dc.coverage.spatial LATITUDE: 72.374000 * LONGITUDE: 126.496660 * DATE/TIME START: 2006-05-30T07:15:00 * DATE/TIME END: 2006-09-19T06:15:00
dc.date.accessioned 2019-11-26T04:00:14Z
dc.date.available 2019-11-26T04:00:14Z
dc.date.issued 2008-11-03
dc.identifier https://doi.pangaea.de/10.1594/PANGAEA.753001
dc.identifier https://doi.org/10.1594/PANGAEA.753001
dc.identifier.citation Sachs, Torsten (2009): Land-atmosphere interactions on different scales – The exchange of methane between wet Arctic tundra and the atmosphere at the Lena River Delta, Siberia. PhD Thesis, University of Potsdam, Germany, 180 pp, hdl:10013/epic.34065.d001
dc.identifier.uri https://repository.geologyscience.ru/handle/123456789/8012
dc.description.abstract We present the first ecosystem-scale methane flux data from a northern Siberian tundra ecosystem covering the entire snow-free period from spring thaw until initial freeze-back. Eddy covariance measurements of methane emission were carried out from the beginning of June until the end of September in the southern central part of the Lena River Delta (72°22' N, 126°30' E). The study site is located in the zone of continuous permafrost and is characterized by Arctic continental climate with very low precipitation and a mean annual temperature of -14.7°C. We found relatively low fluxes of on average 18.7 mg/m**2/d, which we consider to be because of (1) extremely cold permafrost, (2) substrate limitation of the methanogenic archaea, and (3) a relatively high surface coverage of noninundated, moderately moist areas. Near-surface turbulence as measured by the eddy covariance system in 4 m above the ground surface was identified as the most important control on ecosystem-scale methane emission and explained about 60% of the variance in emissions, while soil temperature explained only 8%. In addition, atmospheric pressure was found to significantly improve an exponential model based on turbulence and soil temperature. Ebullition from waterlogged areas triggered by decreasing atmospheric pressure and near-surface turbulence is thought to be an important pathway that warrants more attention in future studies. The close coupling of methane fluxes and atmospheric parameters demonstrated here raises questions regarding the reliability of enclosure-based measurements, which inherently exclude these parameters.
dc.format application/zip, 2 datasets
dc.language.iso en
dc.publisher PANGAEA
dc.relation.isbasedon Sachs, Torsten (2009): Land-atmosphere interactions on different scales – The exchange of methane between wet Arctic tundra and the atmosphere at the Lena River Delta, Siberia. PhD Thesis, University of Potsdam, Germany, 180 pp, hdl:10013/epic.34065.d001
dc.rights CC-BY-3.0: Creative Commons Attribution 3.0 Unported
dc.rights Access constraints: unrestricted
dc.source Supplement to: Sachs, Torsten; Wille, Christian; Boike, Julia; Kutzbach, Lars (2008): Environmental controls on ecosystem-scale CH4 emission from polygonal tundra in the Lena River Delta, Siberia. Journal of Geophysical Research: Biogeosciences, 113, G00A03, https://doi.org/10.1029/2007JG000505
dc.subject MULT
dc.subject Samoylov_Island_ECS
dc.subject Samoylov eddy covariance station
dc.subject Samoylov Island, Lena Delta, Siberia
dc.title Land-atmosphere interactions on different scales – The exchange of methane between wet Arctic tundra and the atmosphere at the Lena River Delta, Siberia.
dc.title.alternative Meteorological observations and eddy covariance raw data from polygonal tundra in the Lena River Delta, Siberia
dc.type Dataset


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