Add to ORKGGlaciological processes are modeled to investigate precipitation patterns and the resulting mass flux of snow and ice across Himalayan topography. Our model tracks the accumulation and ablation of snow and ice and the transport of snow and ice across the topography by glacier motion. We investigate high elevation precipitation on the Annapurna Massif by comparing the existing ice cover with model-simulated glaciers produced by a suite of different precipitation scenarios. Our results suggest that precipitation reaches a maximum level well below the elevation of the highest peaks. Further, essentially no snow accumulates on the topography above an elevation of 6200–6300 m. Hence, the upper 1000+ m of the massif is a high elevation desert wit...
Understanding the future evolution of Himalayan glaciers is important in terms of runoff that provid...
The mountain regions of the Hindu Kush, Karakoram, and Himalayas (HKH) are considered Earth’s “third...
The word Himalaya stems from Sanskrit, and literally translates as the abode of snow. This is illust...
Glaciological processes are modeled to investigate precipitation patterns and the resulting mass flu...
The depiction of glaciers’ dynamics in the high altitudes of Himalaya and the hydrological fluxes th...
The depiction of glaciers' dynamics in the high altitudes of Himalaya and the hydrological fluxes th...
In recent decades the consequences of climate change for Himalayan glaciers has become of great conc...
The climate change impact on the water security of the glacierised catchments of High Mountain Asia ...
Runoff from high-elevation debris-covered glaciers represents a crucial water supply for millions of...
Accurate quantification of the spatial distribution of precipitation in mountain regions is cruci...
Abstract The performance of glaciohydrological models which simulate catchment response to climate v...
The performance of glaciohydrological models which simulate catchment response to climate variabilit...
Studies of the seasonal and annual patterns of glacier velocities improve our understanding of the i...
Understanding the future evolution of Himalayan glaciers is important in terms of runoff that provid...
The mountain regions of the Hindu Kush, Karakoram, and Himalayas (HKH) are considered Earth’s “third...
The word Himalaya stems from Sanskrit, and literally translates as the abode of snow. This is illust...
Glaciological processes are modeled to investigate precipitation patterns and the resulting mass flu...
The depiction of glaciers’ dynamics in the high altitudes of Himalaya and the hydrological fluxes th...
The depiction of glaciers' dynamics in the high altitudes of Himalaya and the hydrological fluxes th...
In recent decades the consequences of climate change for Himalayan glaciers has become of great conc...
The climate change impact on the water security of the glacierised catchments of High Mountain Asia ...
Runoff from high-elevation debris-covered glaciers represents a crucial water supply for millions of...
Accurate quantification of the spatial distribution of precipitation in mountain regions is cruci...
Abstract The performance of glaciohydrological models which simulate catchment response to climate v...
The performance of glaciohydrological models which simulate catchment response to climate variabilit...
Studies of the seasonal and annual patterns of glacier velocities improve our understanding of the i...
Understanding the future evolution of Himalayan glaciers is important in terms of runoff that provid...
The mountain regions of the Hindu Kush, Karakoram, and Himalayas (HKH) are considered Earth’s “third...
The word Himalaya stems from Sanskrit, and literally translates as the abode of snow. This is illust...