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Your search keyword '"Pellicciotti, Francesca"' showing total 17 results
Start Over Author "Pellicciotti, Francesca" Publisher international glaciological society
17 results on '"Pellicciotti, Francesca"'

1. Refined energy-balance modelling of a supraglacial pond, Langtang Khola, Nepal

Author

Miles, Evan S., Pellicciotti, Francesca, Willis, Ian C., Steiner, Jakob F., Buri, Pascal, Arnold, Neil S., Landscape functioning, Geocomputation and Hydrology, Landscape functioning, Geocomputation and Hydrology, Willis, Ian [0000-0002-0750-7088], Arnold, Neil [0000-0001-7538-3999], and Apollo - University of Cambridge Repository

Subjects
Glacier ice accumulation, Hydrology, glacier ablation phenomena, 010504 meteorology & atmospheric sciences, debris-covered glaciers,glacier ablation phenomena,glacier hydrology,glacier mass, Ice stream, Tidewater glacier cycle, Accumulation zone, debris-covered glaciers, Rock glacier, F800, Cirque glacier, 010502 geochemistry & geophysics, Glacier morphology, 01 natural sciences, glacier mass, Glacier mass balance, glacier mass balance, Debris-covered glaciers, Glacier ablation phenomena, Glacier hydrology, glacier hydrology, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

Supraglacial ponds on debris-covered glaciers present a mechanism of atmosphere/glacier energy transfer that is poorly studied, and only conceptually included in mass-balance studies of debris-covered glaciers. This research advances previous efforts to develop a model of mass and energy balance for supraglacial ponds by applying a free-convection approach to account for energy exchanges at the subaqueous bare-ice surfaces. We develop the model using field data from a pond on Lirung Glacier, Nepal, that was monitored during the 2013 and 2014 monsoon periods. Sensitivity testing is performed for several key parameters, and alternative melt algorithms are compared with the model. The pond acts as a significant recipient of energy for the glacier system, and actively participates in the glacier’s hydrologic system during the monsoon. Melt rates are 2-4 cm d-1 (total of 98.5 m3 over the study period) for bare ice in contact with the pond, and, Annals of Glaciology, 57 (71), ISSN:0260-3055, ISSN:1727-5644

Published
2016

2. A grid-based model of backwasting of supraglacial ice cliffs on debris-covered glaciers

Author

Buri, Pascal, Pellicciotti, Francesca, Steiner, Jakob F., Miles, Evan S., and Immerzeel, Walter W.

Subjects
Mountain glaciers, Energy balance, Debris-covered glaciers, Glacier mass balance, Surface melt
Abstract

Ice cliffs might be partly responsible for the high mass losses of debris-covered glaciers in the Hindu Kush-Karakoram-Himalaya region. The few existing models of cliff backwasting are point-scale models applied at few locations or assume cliffs to be planes with constant slope and aspect, a major simplification given the complex surfaces of most cliffs. We develop the first grid-based model of cliff backwasting for two cliffs on debris-covered Lirung Glacier, Nepal. The model includes an improved representation of shortwave and longwave radiation, and their interplay with the glacier topography. Shortwave radiation varies considerably across the two cliffs, mostly due to direct radiation. Diffuse radiation is the major shortwave component, as the direct component is strongly reduced by the cliffs’ aspect and slope through self-shading. Incoming longwave radiation is higher than the total incoming shortwave flux, due to radiation emitted by the surrounding terrain, which is 25% of the incoming flux. Melt is highly variable in space, suggesting that simple models provide inaccurate estimates of total melt volumes. Although only representing 0.09% of the glacier tongue area, the total melt at the two cliffs over the measurement period is 2313 and 8282 m3, 1.23% of the total melt simulated by a glacio-hydrological model for the glacier’s tongue., Annals of Glaciology, 57 (71), ISSN:0260-3055, ISSN:1727-5644

Published
2016

6. Mass-balance changes of the debris-covered glaciers in the Langtang Himal, Nepal, from 1974 to 1999

Author

Pellicciotti, Francesca, Stephan, Christa, Miles, Evan, Herreid, Sam, Immerzeel, Walter W, Bolch, Tobias, Pellicciotti, Francesca, Stephan, Christa, Miles, Evan, Herreid, Sam, Immerzeel, Walter W, and Bolch, Tobias

Abstract

Thick debris cover on glaciers can significantly reduce ice melt. However, several studies have suggested that debris-covered glaciers in the Himalaya might have lost mass at a rate similar to debris-free glaciers. We reconstruct elevation and mass changes for the debris-covered glaciers of the upper Langtang valley, Nepalese Himalaya, using a digital elevation model (DEM) from 1974 stereo Hexagon satellite data and the 2000 SRTM (Shuttle Radar Topography Mission) DEM. Uncertainties are high in the accumulation areas, due to data gaps in the SRTM and difficulties with delineation of the glacier borders. Even with these uncertainties, we obtain thinning rates comparable to those of several other studies in the Himalaya. In particular, we obtain a total mass balance for the investigated debris- covered glaciers of the basin of –0.320.18mw.e.a

Published
2015

17. Mass-balance changes of the debris-covered glaciers in the Langtang Himal, Nepal, from 1974 to 1999

Author

Evan S. Miles, Christa Stephan, Walter W. Immerzeel, S. Herreid, Tobias Bolch, Francesca Pellicciotti, University of Zurich, and Pellicciotti, Francesca

Subjects
Glacier ice accumulation, geography, Glacier terminus, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, 0208 environmental biotechnology, 1904 Earth-Surface Processes, Rock glacier, Glacier, 02 engineering and technology, Shuttle Radar Topography Mission, Glacier morphology, 01 natural sciences, 020801 environmental engineering, Glacier mass balance, 10122 Institute of Geography, 910 Geography & travel, Digital elevation model, Geomorphology, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

Thick debris cover on glaciers can significantly reduce ice melt. However, several studies have suggested that debris-covered glaciers in the Himalaya might have lost mass at a rate similar to debris-free glaciers. We reconstruct elevation and mass changes for the debris-covered glaciers of the upper Langtang valley, Nepalese Himalaya, using a digital elevation model (DEM) from 1974 stereo Hexagon satellite data and the 2000 SRTM (Shuttle Radar Topography Mission) DEM. Uncertainties are high in the accumulation areas, due to data gaps in the SRTM and difficulties with delineation of the glacier borders. Even with these uncertainties, we obtain thinning rates comparable to those of several other studies in the Himalaya. In particular, we obtain a total mass balance for the investigated debris-covered glaciers of the basin of –0.32 ± 0.18 m w.e. a−1. However, there are major spatial differences both between glaciers and within any single glacier, exhibiting a very distinct nonlinear mass-balance profile with elevation. Through analysis of surface velocities derived from Landsat ETM+ imagery, we show that thinning occurs in areas of low velocity and low slope. These areas are prone to a general, dynamic decay of surface features and to the development of supraglacial lakes and ice cliffs, which may be responsible for a considerable increase in overall glacier ablation.

Published
2015

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