125
Views
39
CrossRef citations to date
0
Altmetric
Original Articles

Numerical simulations of the influence of the seasonal snow cover on the occurrence of permafrost at high latitudes

Pages 261-266 | Published online: 05 Nov 2010

Keep up to date with the latest research on this topic with citation updates for this article.

Read on this site (6)

Anna Haberkorn, Marcia Phillips, Robert Kenner, Hansueli Rhyner, Mathias Bavay, Stephan P. Galos & Martin Hoelzle. (2015) Thermal regime of rock and its relation to snow cover in steep alpine rock walls: gemsstock, central swiss alps. Geografiska Annaler: Series A, Physical Geography 97:3, pages 579-597.
Read now
S. Cyr & S. Payette. (2010) The origin and structure of wooded permafrost mounds at the arctic treeline in eastern Canada. Plant Ecology & Diversity 3:1, pages 35-46.
Read now
Stefan W. Grab, Nicholas A. Mulder & Stephanie C. Mills. (2009) Spatial associations between longest‐lasting winter snow cover and cold region landforms in the high drakensberg, southern africa. Geografiska Annaler: Series A, Physical Geography 91:2, pages 83-97.
Read now
Christoph Oelke & Tingjun Zhang. (2007) Modeling the Active-Layer Depth over the Tibetan Plateau. Arctic, Antarctic, and Alpine Research 39:4, pages 714-722.
Read now
Martin Hoelzle, Daniel Vonder Mühll & Wilfried Haeberli. (2002) Thirty years of permafrost research in the Corvatsch‐Furtschellas area, Eastern Swiss Alps: A review. Norsk Geografisk Tidsskrift - Norwegian Journal of Geography 56:2, pages 137-145.
Read now
Bernd Etzelmüller, Martin Hoelzle, Eva Solbjørg Flo Heggem, Ketil Isaksen, Cathrine Mittaz, Daniel Vonder Mühll, RuneS. ødegård, Wilfried Haeberli & Johan Ludvig Sollid. (2001) Mapping and modelling the occurrence and distribution of mountain permafrost. Norsk Geografisk Tidsskrift - Norwegian Journal of Geography 55:4, pages 186-194.
Read now

Articles from other publishers (33)

E. A. Thaler, S. Uhleman, J. C. Rowland, J. Schwenk, C. Wang, B. Dafflon & K. E. Bennett. (2023) High‐Resolution Maps of Near‐Surface Permafrost for Three Watersheds on the Seward Peninsula, Alaska Derived From Machine Learning. Earth and Space Science 10:12.
Crossref
Mamoru Ishikawa, Ram Avtar & Shixin Mo. (2023) Using interferometric synthetic aperture rader (InSAR) analysis to detect ground deformation related to irreversibly changing ground ice, Mongolia. Land Degradation & Development 34:9, pages 2707-2719.
Crossref
Cas Renette, Kristoffer Aalstad, Juditha Aga, Robin Benjamin Zweigel, Bernd Etzelmüller, Karianne Staalesen Lilleøren, Ketil Isaksen & Sebastian Westermann. (2023) Simulating the effect of subsurface drainage on the thermal regime and ground ice in blocky terrain in Norway. Earth Surface Dynamics 11:1, pages 33-50.
Crossref
Xiangfei Li, Tonghua Wu, Xiaofan Zhu, Yingsha Jiang, Guojie Hu, Junming Hao, Jie Ni, Ren Li, Yongping Qiao, Cheng Yang, Wensi Ma, Amin Wen & Xue Ying. (2020) Improving the Noah‐MP Model for Simulating Hydrothermal Regime of the Active Layer in the Permafrost Regions of the Qinghai‐Tibet Plateau. Journal of Geophysical Research: Atmospheres 125:16.
Crossref
. 2020. ExtremA 2019. ExtremA 2019 73 620 .
Jinzhong Xu, Hao Li, XiaoBing Liu, Wei Hu, Qingnan Yang, Yanfang Hao, Huaicai Zhen & Xingyi Zhang. (2019) Gully Erosion Induced by Snowmelt in Northeast China: A Case Study. Sustainability 11:7, pages 2088.
Crossref
De-sheng Li, Zhi Wen, Qian-gong Cheng, Ai-guo Xing, Ming-li Zhang & An-yuan Li. (2019) Thermal dynamics of the permafrost active layer under increased precipitation at the Qinghai-Tibet Plateau. Journal of Mountain Science 16:2, pages 309-322.
Crossref
Daniel Draebing, Anna Haberkorn, Michael Krautblatter, Robert Kenner & Marcia Phillips. (2017) Thermal and Mechanical Responses Resulting From Spatial and Temporal Snow Cover Variability in Permafrost Rock Slopes, Steintaelli, Swiss Alps. Permafrost and Periglacial Processes 28:1, pages 140-157.
Crossref
Kjersti Gisnås, Sebastian Westermann, Thomas Vikhamar Schuler, Kjetil Melvold & Bernd Etzelmüller. (2016) Small-scale variation of snow in a regional permafrost model. The Cryosphere 10:3, pages 1201-1215.
Crossref
Marius Necsoiu, Alexandru Onaca, Sarah Wigginton & Petru Urdea. (2016) Rock glacier dynamics in Southern Carpathian Mountains from high-resolution optical and multi-temporal SAR satellite imagery. Remote Sensing of Environment 177, pages 21-36.
Crossref
Anna Haberkorn, Martin Hoelzle, Marcia Phillips & Robert Kenner. (2015) Snow as a driving factor of rock surface temperatures in steep rough rock walls. Cold Regions Science and Technology 118, pages 64-75.
Crossref
Dorothea Frank, Markus Reichstein, Michael Bahn, Kirsten Thonicke, David Frank, Miguel D. Mahecha, Pete Smith, Marijn van der Velde, Sara Vicca, Flurin Babst, Christian Beer, Nina Buchmann, Josep G. Canadell, Philippe Ciais, Wolfgang Cramer, Andreas Ibrom, Franco Miglietta, Ben Poulter, Anja Rammig, Sonia I. Seneviratne, Ariane Walz, Martin Wattenbach, Miguel A. Zavala & Jakob Zscheischler. (2015) Effects of climate extremes on the terrestrial carbon cycle: concepts, processes and potential future impacts. Global Change Biology 21:8, pages 2861-2880.
Crossref
K. Gisnås, S. Westermann, T. V. Schuler, T. Litherland, K. Isaksen, J. Boike & B. Etzelmüller. (2014) A statistical approach to represent small-scale variability of permafrost temperatures due to snow cover. The Cryosphere 8:6, pages 2063-2074.
Crossref
Michael Rast, Johnny Johannessen & Wolfram Mauser. (2014) Review of Understanding of Earth’s Hydrological Cycle: Observations, Theory and Modelling. Surveys in Geophysics 35:3, pages 491-513.
Crossref
Andreas Schindlbacher, Robert Jandl & Sabine Schindlbacher. (2013) Natural variations in snow cover do not affect the annual soil CO 2 efflux from a mid‐elevation temperate forest . Global Change Biology 20:2, pages 622-632.
Crossref
Michael Rast, Johnny Johannessen & Wolfram Mauser. 2014. The Earth's Hydrological Cycle. The Earth's Hydrological Cycle 491 513 .
A Marmy, N Salzmann, M Scherler & C Hauck. (2013) Permafrost model sensitivity to seasonal climatic changes and extreme events in mountainous regions. Environmental Research Letters 8:3, pages 035048.
Crossref
Martin Scherler, Christian Hauck, Martin Hoelzle & Nadine Salzmann. (2013) Modeled sensitivity of two alpine permafrost sites to RCM‐based climate scenarios. Journal of Geophysical Research: Earth Surface 118:2, pages 780-794.
Crossref
I. Gouttevin, G. Krinner, P. Ciais, J. Polcher & C. Legout. (2012) Multi-scale validation of a new soil freezing scheme for a land-surface model with physically-based hydrology. The Cryosphere 6:2, pages 407-430.
Crossref
Gustaf Hugelius, Tarmo Virtanen, Dmitry Kaverin, Alexander Pastukhov, Felix Rivkin, Sergey Marchenko, Vladimir Romanovsky & Peter Kuhry. (2011) High-resolution mapping of ecosystem carbon storage and potential effects of permafrost thaw in periglacial terrain, European Russian Arctic. Journal of Geophysical Research 116:G3.
Crossref
Bogdan Gądek & Jan Leszkiewicz. (2010) Influence of snow cover on ground surface temperature in the zone of sporadic permafrost, Tatra Mountains, Poland and Slovakia. Cold Regions Science and Technology 60:3, pages 205-211.
Crossref
Gustaf Hugelius & Peter Kuhry. (2009) Landscape partitioning and environmental gradient analyses of soil organic carbon in a permafrost environment. Global Biogeochemical Cycles 23:3.
Crossref
Martina Luetschg, Michael Lehning & Wilfried Haeberli. (2017) A sensitivity study of factors influencing warm/thin permafrost in the Swiss Alps. Journal of Glaciology 54:187, pages 696-704.
Crossref
Feng Ling & Tingjun Zhang. (2007) Modeled impacts of changes in tundra snow thickness on ground thermal regime and heat flow to the atmosphere in Northernmost Alaska. Global and Planetary Change 57:3-4, pages 235-246.
Crossref
Håvard Juliussen & Ole Humlum. (2007) Towards a TTOP ground temperature model for mountainous terrain in central‐eastern Norway. Permafrost and Periglacial Processes 18:2, pages 161-184.
Crossref
Stephan Gruber, Lorenz King, Thomas Kohl, Thomas Herz, Wilfried Haeberli & Martin Hoelzle. (2004) Interpretation of geothermal profiles perturbed by topography: the alpine permafrost boreholes at Stockhorn Plateau, Switzerland. Permafrost and Periglacial Processes 15:4, pages 349-357.
Crossref
Stephan Gruber, Martin Hoelzle & Wilfried Haeberli. (2004) Rock‐wall temperatures in the Alps: modelling their topographic distribution and regional differences. Permafrost and Periglacial Processes 15:3, pages 299-307.
Crossref
Susanne Hanson & Martin Hoelzle. (2004) The thermal regime of the active layer at the Murtèl rock glacier based on data from 2002. Permafrost and Periglacial Processes 15:3, pages 273-282.
Crossref
Christoph Oelke & Tingjun Zhang. (2004) A model study of circum‐Arctic soil temperatures. Permafrost and Periglacial Processes 15:2, pages 103-121.
Crossref
Oliver W. Frauenfeld, Tingjun Zhang, Roger G. Barry & David Gilichinsky. (2004) Interdecadal changes in seasonal freeze and thaw depths in Russia. Journal of Geophysical Research: Atmospheres 109:D5.
Crossref
Feng Ling & Tingjun Zhang. (2004) A numerical model for surface energy balance and thermal regime of the active layer and permafrost containing unfrozen water. Cold Regions Science and Technology 38:1, pages 1-15.
Crossref
Mamoru Ishikawa. (2003) Thermal regimes at the snow–ground interface and their implications for permafrost investigation. Geomorphology 52:1-2, pages 105-120.
Crossref
Catherine Stocker‐Mittaz, Martin Hoelzle & Wilfried Haeberli. (2002) Modelling alpine permafrost distribution based on energy‐balance data: a first step. Permafrost and Periglacial Processes 13:4, pages 271-282.
Crossref

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.