Permafrost and climate in Europe. Climate change, mountain permafrost degradation and geotechnical hazard

被引:0
|
作者
Harris, C [1 ]
Vonder Muhll, D [1 ]
机构
[1] Cardiff Univ, Dept Earth Sci, Cardiff CF1 3YE, S Glam, Wales
来源
GLOBAL CHANGE AND PROTECTED AREAS | 2001年 / 9卷
关键词
permafrost; climate changes global warming;
D O I
暂无
中图分类号
P9 [自然地理学];
学科分类号
0705 ; 070501 ;
摘要
Mountain permafrost is highly vulnerable to present and future climate warming, since ground temperatures are generally only a few degrees below zero. The European Union PACE Project (Permafrost and Climate in Europe), which includes partners from Norway, Sweden, U.K., Germany, Switzerland, Italy and Spain, was established to develop new methods of assessing the potential impact of warming climate on mountain permafrost slopes in Europe. The research programme is first described and then progress in selected topics is summarised.
引用
收藏
页码:71 / 82
页数:12
相关论文
共 50 条
  • [31] Thaw Settlement Hazard of Permafrost Related to Climate Warming in Alaska
    Hong, Eunkyoung
    Perkins, Robert
    Trainor, Sarah
    ARCTIC, 2014, 67 (01) : 93 - 103
  • [32] Patterns of permafrost formation and degradation in relation to climate and ecosystems
    Shur, Y. L.
    Jorgenson, M. T.
    PERMAFROST AND PERIGLACIAL PROCESSES, 2007, 18 (01) : 7 - 19
  • [33] Future climate warming and changes to mountain permafrost in the Bolivian Andes
    Sally Rangecroft
    Andrew J. Suggitt
    Karen Anderson
    Stephan Harrison
    Climatic Change, 2016, 137 : 231 - 243
  • [34] Future climate warming and changes to mountain permafrost in the Bolivian Andes
    Rangecroft, Sally
    Suggitt, Andrew J.
    Anderson, Karen
    Harrison, Stephan
    CLIMATIC CHANGE, 2016, 137 (1-2) : 231 - 243
  • [35] Permafrost Cloud Feedback May Amplify Climate Change
    de Vrese, Philipp
    Stacke, Tobias
    Gayler, Veronika
    Brovkin, Victor
    GEOPHYSICAL RESEARCH LETTERS, 2024, 51 (12)
  • [36] Significant implications of permafrost thawing for climate change control
    Mikel González-Eguino
    Marc B. Neumann
    Climatic Change, 2016, 136 : 381 - 388
  • [37] Expert assessment of vulnerability of permafrost carbon to climate change
    E. A. G. Schuur
    B. W. Abbott
    W. B. Bowden
    V. Brovkin
    P. Camill
    J. G. Canadell
    J. P. Chanton
    F. S. Chapin
    T. R. Christensen
    P. Ciais
    B. T. Crosby
    C. I. Czimczik
    G. Grosse
    J. Harden
    D. J. Hayes
    G. Hugelius
    J. D. Jastrow
    J. B. Jones
    T. Kleinen
    C. D. Koven
    G. Krinner
    P. Kuhry
    D. M. Lawrence
    A. D. McGuire
    S. M. Natali
    J. A. O’Donnell
    C. L. Ping
    W. J. Riley
    A. Rinke
    V. E. Romanovsky
    A. B. K. Sannel
    C. Schädel
    K. Schaefer
    J. Sky
    Z. M. Subin
    C. Tarnocai
    M. R. Turetsky
    M. P. Waldrop
    K. M. Walter Anthony
    K. P. Wickland
    C. J. Wilson
    S. A. Zimov
    Climatic Change, 2013, 119 : 359 - 374
  • [38] Permafrost response to climate change in the Northern Tien Shan
    Eduard Severskiy
    Sciences in Cold and Arid Regions, 2017, 9 (04) : 398 - 403
  • [39] Prediction of Climate Change Impact on a Highway in Warm Permafrost
    Zhao, Yue
    Yang, Zhaohui
    Liu, Haibo
    Dai, Changlei
    PERMAFROST 2021: MERGING PERMAFROST SCIENCE AND COLD REGIONS ENGINEERING, 2021, : 290 - 301
  • [40] Significant implications of permafrost thawing for climate change control
    Gonzalez-Eguino, Mikel
    Neumann, Marc B.
    CLIMATIC CHANGE, 2016, 136 (02) : 381 - 388
12345