Lehrstuhl für Landschaftsökologie und Geoinformation

Literatur: Die Bedeutung von Permafrost-Degradationen für die Freisetzung klimarelevanter Gase am Beispiel des Qinghai-Tibet-Plateaus

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Bosch, A., Schmidt, K., He, J. S., Doerfer, C. und T. Scholten (2017). Potential CO2 emissions from defrosting permafrost soils of the Qinghai-Tibet Plateau under different scenarios of climate change in 2050 and 2070. In: Catena 149, S. 221-231.

Chang, X., Jin, H., He, R., Lü, L. und S. A. Harris (2017). Evolution and changes of permafrost on the Qinghai-Tibet Plateau during the Late Quaternary.  S. 1-19.

Fritz, M., Deshpande, B., Bouchard, F., Högström, E., Lepage, J., Mor-

genstern, A., Nieuwendam A., Oliva M., Paquette M., Rudy A.C.A., Siewert M.B. , Sjöberg J. und S. Weege (2015). Brief Communication: Future avenues for permafrost science from the perspective of early career researchers. In: The Cryosphere Discussions 9 (1), S. 1209-1225.

Gao, X., Schlosser, C. A., Sokolov, A., Anthony, K. W., Zhuang, Q. und D. Kicklighter (2013). Permafrost degradation and methane: low risk of biogeochemical climate-warming feedback. In: Environmental Research Letters 8 (3), S. 1-7.

Grosse, G., Goetz, S., McGuire, A. D., Romanovsky, V. E. und E. A. Schuur (2016). Changing permafrost in a warming world and feedbacks to the Earth system. In: Environmental Research Letters 11 (4), S. 1-10.

Guo, D., Yu, E. und H. Wang (2016). Will the Tibetan Plateau warming depend on elevation in the future? In: Journal of Geophysical Research: Atmospheres 121 (8), S. 3969-3978.

Kitover, D. C., Van Balen, R., Roche, D. M., Vandenberghe, J. und H. Renssen (2015). Advancement toward coupling of the VAMPER permafrost model within the Earth system model iLOVECLIM (version 1.0): description and validation. In: Geoscientific Model Development 8 (5), S. 1445-1460.

Kong, Y. und C. H.  Wang (2017). Responses and changes in the permafrost and snow water equivalent in the Northern Hemisphere under a scenario of 1.5 C warming. In: Advances in Climate Change Research 8 (4), S.235-244.

Koven, C. D., Riley, W. J. und A. Stern (2013). Analysis of permafrost thermal dynamics and response to climate change in the CMIP5 Earth System Models. In: Journal of Climate 26 (6), S. 1877-1900.

Lu, Q., Zhao, D. und S. Wu (2017). Simulated responses of permafrost distribution to climate change on the Qinghai–Tibet Plateau. In: Scientific reports 7 (1), S. 1-13.

McCalley, C. K., Woodcroft, B. J., Hodgkins, S. B., Wehr, R. A., Kim, E. H., Mondav, R., Mondav R., Crill P.M., Chanton J.P., Rich V.I., Tyson G.W. und S. R. Saleska (2014). Methane dynamics regulated by microbial community response to permafrost thaw. In: Nature 514, S. 478-481.

Mu, C., Zhang, T., Zhang, X., Li, L., Guo, H., Zhao, Q., Cao L., Wu Q.  und G. Cheng (2016). Carbon loss and chemical changes from permafrost collapse in the northern Tibetan Plateau. In: Journal of Geophysical Research: Biogeosciences 121 (7), S. 1781-1791.

Mu, C., Zhang, T., Zhao, Q., Su, H., Wang, S., Cao, B., Peng X., Wu Q. und X.  Wu (2017). Permafrost affects carbon exchange and its response to experimental warming on the northern Qinghai-Tibetan Plateau. In: Agricultural and Forest Meteorology 247, S. 252-259.

Schaefer, K., Lantuit, H., Romanovsky, V. E., Schuur, E. A. und R.  Witt (2014). The impact of the permafrost carbon feedback on global climate. In: Environmental Research Letters 9 (8), S. 1-9.

Schuur, E. A. G., Abbott, B. W., Bowden, W. B., Brovkin, V., Camill, P., Canadell, J. G., Crosby B.T., Czimczik C.I., Grosse G., Harden J., Hayes D.J., Hugelius G., Jastrow J.G., Jones J.B., Kleinen T., Koven C.D., Krinner G., Kuhry P., Lawrence D.M., McGuire A.D., Natali S.M., O’Donnell J.A., Ping C.L., Riley W.J., Rinke A., Romanovsky V.E., Sannel A.B.K., Schädel C., Schaefer K., Sky J., Subin Z.M., Tarnocai C., Turetsky M.R., Waldrop M.P., Walter Anthony K.M., Wickland K.P., Wilson C.J. und S. A. Zimov (2013). Expert assessment of vulnerability of permafrost carbon to climate change. In: Climatic Change 119 (2), S. 359-374.

Schuur, E. A. G., McGuire, A. D., Schädel, C., Grosse, G., Harden, J. W., Hayes, D. J., Hugelius G., Koven C.D., Kuhry P., Lawrence D.M., Olefeldt D., Romanovsky V.E., Schaefer K., Turetsky M.R., Treat C.C., Vonk J.E. und S. M Natali (2015). Climate change and the permafrost carbon feedback. In: Nature 520 (7546), S. 171-179.

Shaoling, W., Huijun, J., Shuxun, L. und Z. Lin (2000). Permafrost degradation on the Qinghai-Tibet Plateau and its environment-tal impacts. In: Permafrost and Periglacial Processes 11 (1), S. 43-53.

Slater, A. G. und D.M Lawrence (2013). Diagnosing present and future permafrost from climate models. In: Journal of Climate 26 (15), S. 5608-5623.

Song, C., Wang, X., Miao, Y., Wang, J., Mao, R. und Y. Song (2014). Effects of permafrost thaw on carbon emissions under aerobic and anaerobic environments in the Great Hing'an Mountains, China. In: Science of the Total Environment 487, S. 604-610.

Turetsky, M. R., Wieder, R. K. und D.H Vitt (2002). Boreal peatland C fluxes under varying permafrost regimes. In: Soil Biology and Biochemistry 34 (7), S. 907-912.

Wang, G., Li, Y., Wu, Q. und Y. Wang (2006). Impacts of permafrost changes on alpine ecosystem in Qinghai-Tibet PlateauIn: Science in China Series D: Earth Sciences 49 (11), S. 1156-1169.

Wei, S., Cui, H., He, H., Hu, F., Su, X. und Y. Zhu (2014). Diversity and distribution of Archaea community along a stratigraphic permafrost profile from Qinghai-Tibetan Plateau, China. In: Archaea 2014, S. 1-11.

Wu, T., Li, S., Cheng, G. und Z. Nan (2005). Using ground-penetrating radar to detect permafrost degradation in the northern limit of permafrost on the Tibetan Plateau. In: Cold Regions Science and Technology 41 (3), S. 211-219.

Wu, Q., Yu, W.  und  H. Jin (2017). No protection of permafrost due to desertification on the Qinghai–Tibet Plateau. In: Scientific Reports 7, S. 1-8.

Wu, X., Zhao, L., Hu, G., Liu, G., Li, W. und Y. Ding (2018). Permafrost and land cover as controlling factors for light fraction organic matter on the southern Qinghai-Tibetan plateau. In: Science of the Total Environment 613, S. 1165-1174.

Xu, H., Liu, G., Wu, X., Smoak, J. M., Mu, C., Ma, X., Zhang X., Li H. und G. Hu (2018). Soil enzyme response to permafrost collapse in the Northern Qinghai-Tibetan Plateau. In: Ecological Indicators 85, S. 585-593.

Yang, Z. P., Ou, Y. H., Xu, X. L., Zhao, L., Song, M. H. und C. P. Zhou (2010). Effects of permafrost degradation on ecosystems. In: Acta Ecologica Sinica 30 (1), S. 33-39.

Yu, X., Song, C., Sun, L., Wang, X., Shi, F., Cui, Q. und W.Tan (2017). Growing season methane emissions from a permafrost peatland of northeast China: Observations using open-path eddy covariance method. In: Atmospheric environment 153, S.135-149.

Zhang, T., Barry, R. G., Knowles, K., Heginbottom, J. A. und J. Brown (1999). Statistics and characteristics of permafrost and ground‐ice distribution in the Northern Hemisphere. In: Polar Geography 23 (2), S. 132-154.