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Tellus B: Chemical and Physical Meteorology Volume 54, 2002 - Issue 3
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Original Articles

Methane emissions from different ecosystem structures of the subarctic tundra in Western Siberia during midsummer and during the thawing period

Jürgen HeyerFraunhofer Institute for Atmospheric Environmental Research, Kreuzeckbahnstrasse 19, D-82467 Garmisch-Partenkirchen, Germany;Correspondence[email protected]
,
Ursula BergerFraunhofer Institute for Atmospheric Environmental Research, Kreuzeckbahnstrasse 19, D-82467 Garmisch-Partenkirchen, Germany;
,
Ivan Leontevich KuzinAll-Russia Petroleum Scientific-Research Geological-Exploration Institute, 39 Liteiny Ave., St. Petersburg 191104, Russia
&
Oleg Nikolaevich YakovlevAll-Russia Petroleum Scientific-Research Geological-Exploration Institute, 39 Liteiny Ave., St. Petersburg 191104, Russia
Pages 231-249 | Received 15 Jan 2001, Accepted 17 Jan 2002, Published online: 15 Dec 2016

Citations (19)

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M. Lupascu, J. L. Wadham, E. R. C. Hornibrook & R. D. Pancost. (2012) Temperature Sensitivity of Methane Production in the Permafrost Active Layer at Stordalen, Sweden: A Comparison with Non-permafrost Northern Wetlands. Arctic, Antarctic, and Alpine Research 44:4, pages 469-482.
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Michal GaŽovic, Lars Kutzbach, Peter Schreiber, Christian Wille & Martin Wilmking. (2010) Diurnal dynamics of CH4 from a boreal peatland during snowmelt. Tellus B: Chemical and Physical Meteorology 62:3, pages 133-139.
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Martin Krüger, Sabrina Beckmann, Bert Engelen, Thomas Thielemann, Bernhard Cramer, Axel Schippers & Heribert Cypionka. (2008) Microbial Methane Formation from Hard Coal and Timber in an Abandoned Coal Mine. Geomicrobiology Journal 25:6, pages 315-321.
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Xiaonan Duan, Xiaoke Wang & Zhiyun Ouyang. (2006) Plant-Mediated CH4 Emission from a Phragmites-Dominated Wetland in an Arid Region, China. Journal of Freshwater Ecology 21:1, pages 139-145.
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Articles from other publishers (15)

Xue Meng, Zhiguo Zhu, Jing Xue, Chunguang Wang & Xiaoxin Sun. (2023) Methane and Nitrous Oxide Emissions from a Temperate Peatland under Simulated Enhanced Nitrogen Deposition. Sustainability 15:2, pages 1010.
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Oxana V. Masyagina & Oleg V. Menyailo. (2020) The impact of permafrost on carbon dioxide and methane fluxes in Siberia: A meta-analysis. Environmental Research 182, pages 109096.
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Li Sun, Changchun Song, Peter M. Lafleur, Yuqing Miao, Xianwei Wang, Chao Gong, Tianhua Qiao, Xueyang Yu & Wenwen Tan. (2018) Wetland-atmosphere methane exchange in Northeast China: A comparison of permafrost peatland and freshwater wetlands. Agricultural and Forest Meteorology 249, pages 239-249.
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Wen-Bin Yang, Chung-Shin Yuan, Chuan Tong, Pin Yang, Lei Yang & Bang-Qin Huang. (2017) Diurnal variation of CO2, CH4, and N2O emission fluxes continuously monitored in-situ in three environmental habitats in a subtropical estuarine wetland. Marine Pollution Bulletin 119:1, pages 289-298.
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K. L. Hanis, M. Tenuta, B. D. Amiro & T. N. Papakyriakou. (2013) Seasonal dynamics of methane emissions from a subarctic fen in the Hudson Bay Lowlands. Biogeosciences 10:7, pages 4465-4479.
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K. L. Hanis, M. Tenuta, B. D. Amiro & T. N. Papakyriakou. (2013) Seasonal dynamics of methane emissions from a subarctic fen in the Hudson Bay Lowlands. Biogeosciences Discussions 10:3, pages 4539-4574.
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Y. FanH. LiG. Miguez-Macho. (2013) Global Patterns of Groundwater Table Depth. Science 339:6122, pages 940-943.
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W. Gülzow, G. Rehder, J. Schneider v. Deimling, T. Seifert & Z. Tóth. (2013) One year of continuous measurements constraining methane emissions from the Baltic Sea to the atmosphere using a ship of opportunity. Biogeosciences 10:1, pages 81-99.
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W. Gülzow, G. Rehder, J. Schneider v. Deimling, T. Seifert & Zs. Tóth. (2012) One year of continuous measurements constraining methane emissions from the Baltic Sea to the atmosphere using a ship of opportunity. Biogeosciences Discussions 9:8, pages 9897-9944.
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K. Bäckstrand, P. M. Crill, M. Jackowicz-Korczyñski, M. Mastepanov, T. R. Christensen & D. Bastviken. (2010) Annual carbon gas budget for a subarctic peatland, Northern Sweden. Biogeosciences 7:1, pages 95-108.
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K. Bäckstrand, P. M. Crill, M. Jackowicz-Korczyñski, M. Mastepanov, T. R. Christensen & D. Bastviken. (2009) Annual carbon gas budget for a subarctic peatland, northern Sweden. Biogeosciences Discussions 6:3, pages 5705-5740.
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A. I. Reshetnikov, A. V. Zinchenko, S. V. Yagovkina, I. L. Karol, V. E. Lagun & N. N. Paramonova. (2009) Studying methane emission in the north of Western Siberia. Russian Meteorology and Hydrology 34:3, pages 171-179.
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HEINER FLESSA, ANDREJ RODIONOV, GEORG GUGGENBERGER, HANS FUCHS, PAUL MAGDON, OLGA SHIBISTOVA, GALINA ZRAZHEVSKAYA, NATALIA MIKHEYEVA, OLEG A. KASANSKY & CHRISTIAN BLODAU. (2008) Landscape controls of CH 4 fluxes in a catchment of the forest tundra ecotone in northern Siberia . Global Change Biology 14:9, pages 2040-2056.
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A. V. Zinchenko, N. N. Paramonova, V. I. Privalov, A. I. Reshetnikov & V. S. Titov. (2008) Estimation of methane sources from concentration measurements in the area of gas production in the north of Western Siberia. Russian Meteorology and Hydrology 33:1, pages 34-42.
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L. C. SmithG. M. MacDonaldA. A. VelichkoD. W. BeilmanO. K. BorisovaK. E. FreyK. V. KremenetskiY. Sheng. (2004) Siberian Peatlands a Net Carbon Sink and Global Methane Source Since the Early Holocene. Science 303:5656, pages 353-356.
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