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Climate Change, Cryosphere and Impacts in the Indian Himalayan Region


Affiliations
1 School of Environmental Sciences, Jawaharlal Nehru University, New Delhi 110 067, India
2 Department of Geography, University of Zurich, Switzerland
3 Department of Geography, University of Zurich, Swaziland
4 Department of Geography, Shaheed Bhagat Singh College, University of Delhi, Delhi 110 017, India
5 Institute for Environmental Sciences, University of Geneva, Swaziland
6 Ministry of Earth Sciences, New Delhi 110 003, India
7 Department of Geography, Kumaon University, Nainital 263 001, India
8 School of Geography and Sustainable Development, University of St Andrews, Scotland, United Kingdom
9 National Institute of Hydrology, Roorkee 247 667, India
10 Department of Earth Sciences, University of Geneva, Swaziland
 

Climate change and related impacts over the Indian Himalayan Region (IHR) remains poorly quantified. The present study reviews observed and modelled changes in the climate, cryosphere and impacts related to hazards, agriculture and ecosystems. An increasing temperature trend over the IHR is reported, which over a few locations is found to be higher than the global average. For precipitation, a complex and inconsistent response with considerable variation in the sign and magnitude of change is observed. Future projections show significant warming. Climate-driven changes and impacts are clearly observed. Snow cover has declined since the 1960s, with an enhanced decreasing trend during the 1990s and variable trends since 2000. Glaciers are losing mass and retreating at varying rates since the early 20th century, with an exception over the Karakoram region. An observed heterogeneous response of glaciers to atmospheric warming is controlled by regional variations in topography, debris cover, circulation and precipitation. Initial assessments of permafrost extent of 1 million km2 across the IHR roughly translate into 14 times the glacier area. Extreme floods represent the most frequent natural disaster in the IHR. Studies have highlighted the significant threat from glacial lakes. Landslides occur in combination with heavy rainfall and flooding, with poor land-use practices such as road-cutting and deforestation being additional drivers. Climate change has also stressed traditional subsistence agriculture and food systems. Improving systematic and coordinated monitoring of climate and related impacts is crucial to contribute to effective climate change adaptation and response strategies.

Keywords

Climate Change, Cryosphere, Glacier, Permafrost, Run-off.
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  • Climate Change, Cryosphere and Impacts in the Indian Himalayan Region

Abstract Views: 343  |  PDF Views: 122

Authors

A. P. Dimri
School of Environmental Sciences, Jawaharlal Nehru University, New Delhi 110 067, India
S. Allen
Department of Geography, University of Zurich, Switzerland
C. Huggel
Department of Geography, University of Zurich, Swaziland
S. Mal
Department of Geography, Shaheed Bhagat Singh College, University of Delhi, Delhi 110 017, India
J. A. Ballesteros-Cánovas
Institute for Environmental Sciences, University of Geneva, Swaziland
M. Rohrer
Institute for Environmental Sciences, University of Geneva, Swaziland
A. Shukla
Ministry of Earth Sciences, New Delhi 110 003, India
P. Tiwari
Department of Geography, Kumaon University, Nainital 263 001, India
P. Maharana
School of Environmental Sciences, Jawaharlal Nehru University, New Delhi 110 067, India
T. Bolch
School of Geography and Sustainable Development, University of St Andrews, Scotland, United Kingdom
R. J. Thayyen
National Institute of Hydrology, Roorkee 247 667, India
M. Stoffel
Department of Earth Sciences, University of Geneva, Swaziland
Aayushi Pandey
School of Environmental Sciences, Jawaharlal Nehru University, New Delhi 110 067, India

Abstract


Climate change and related impacts over the Indian Himalayan Region (IHR) remains poorly quantified. The present study reviews observed and modelled changes in the climate, cryosphere and impacts related to hazards, agriculture and ecosystems. An increasing temperature trend over the IHR is reported, which over a few locations is found to be higher than the global average. For precipitation, a complex and inconsistent response with considerable variation in the sign and magnitude of change is observed. Future projections show significant warming. Climate-driven changes and impacts are clearly observed. Snow cover has declined since the 1960s, with an enhanced decreasing trend during the 1990s and variable trends since 2000. Glaciers are losing mass and retreating at varying rates since the early 20th century, with an exception over the Karakoram region. An observed heterogeneous response of glaciers to atmospheric warming is controlled by regional variations in topography, debris cover, circulation and precipitation. Initial assessments of permafrost extent of 1 million km2 across the IHR roughly translate into 14 times the glacier area. Extreme floods represent the most frequent natural disaster in the IHR. Studies have highlighted the significant threat from glacial lakes. Landslides occur in combination with heavy rainfall and flooding, with poor land-use practices such as road-cutting and deforestation being additional drivers. Climate change has also stressed traditional subsistence agriculture and food systems. Improving systematic and coordinated monitoring of climate and related impacts is crucial to contribute to effective climate change adaptation and response strategies.

Keywords


Climate Change, Cryosphere, Glacier, Permafrost, Run-off.



DOI: https://doi.org/10.18520/cs%2Fv120%2Fi5%2F774-790