Re-analysis of seasonal mass balance at Abramov glacier 1968–2014

Barandun, Martina; Huss, Matthias; Sold, Leo; Farinotti, Daniel; Azisov, Erlan; Salzmann, Nadine; Usubaliev, Ryskul; Merkushkin, Alexandr; Hoelzle, Martin

doi:10.3189/2015jog14j239

Cited by 67 publications

(122 citation statements)

References 66 publications

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“…354 (Kronenberg et al, 2016), the measured mass balance of Tuyuksu and Urumqihe No.1 (e.g. WGMS, 2014), reconstructed values for Gregoriev Glacier (Fujita et al, 2011) located in the Tien Shan, and Abramov in the Pamir-Alay (Barandun et al, 2015). For all glaciers, annual mass balances were negative, with the exception of the hydrological year 2008/09, in which a positive or an almost balanced mass budget was found.…”

Section: Comparison Of Different Methodsmentioning

confidence: 99%

“…From the delineation of the snowline it becomes possible to calculate the snow-covered area fraction (SCAF), which is the glacier area covered by snow in relation to the total area of the glacier at this time. Comparison of the SCAF derived from remotely sensed images with the modelled SCAF for the exact same date enables an independent model validation to be performed (Barandun et al, 2015;Kronenberg et al, 2016). We found a total of 57 Landsat scenes with sufficient visibility for observing SCAFs (Table 1).…”

Section: Snow-covered Area Fraction For Model Validationmentioning

confidence: 99%

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Mass balance observations and reconstruction for Batysh Sook Glacier, Tien Shan, from 2004 to 2016

Kenzhebaev

Barandun

Kronenberg

et al. 2017

Cold Regions Science and Technology

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Section: Comparison Of Different Methodsmentioning

confidence: 99%

Section: Snow-covered Area Fraction For Model Validationmentioning

confidence: 99%

Mass balance observations and reconstruction for Batysh Sook Glacier, Tien Shan, from 2004 to 2016

Kenzhebaev

Barandun

Kronenberg

et al. 2017

Cold Regions Science and Technology

Self Cite

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“…However, remote-sensing estimates themselves carry their own uncertainty, as illustrated by the fact that the glacier-wide mass balance in the Langtang area (Nepal) had to be revisited by Ragettli and others (2016) compared with a similar earlier assessment by Pellicciotti and others (2015). Two major sources of uncertainty in DEM-based geodetic mass-balance estimates are the poor quality of DEM in the texture-less accumulation areas (Ragettli and others, 2016) and the unknown penetration of the SRTM C-band and X-band radar signal into dry snow and firn (Barandun and others, 2015;Kääb and others, 2015;Dehecq and others, 2016;Round and others, 2017).…”

Section: Mass Balances Of Six Glaciers Are Dubious (Supplementarymentioning

confidence: 99%

Review of the status and mass changes of Himalayan-Karakoram glaciers

et al. 2018

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ABSTRACT. We present a comprehensive review of the status and changes in glacier length (since the 1850s), area and mass (since the 1960s) along the Himalayan-Karakoram (HK) region and their climatechange context. A quantitative reliability classification of the field-based mass-balance series is developed. Glaciological mass balances agree better with remotely sensed balances when we make an objective, systematic exclusion of likely flawed mass-balance series. The Himalayan mean glaciological mass budget was similar to the global average until 2000, and likely less negative after 2000. Mass wastage in the Himalaya resulted in increasing debris cover, the growth of glacial lakes and possibly decreasing ice velocities. Geodetic measurements indicate nearly balanced mass budgets for Karakoram glaciers since the 1970s, consistent with the unchanged extent of supraglacial debris-cover. Himalayan glaciers seem to be sensitive to precipitation partly through the albedo feedback on the short-wave radiation balance. Melt contributions from HK glaciers should increase until 2050 and then decrease, though a wide range of present-day area and volume estimates propagates large uncertainties in the future runoff. This review reflects an increasing understanding of HK glaciers and highlights the remaining challenges.

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“…By all means, satellites provide information that is complementary to field observations, in particular when it comes to complete spatial coverage and remote regions. Moreover, they also provide observations for time periods that are not covered by field observations (Barandun et al 2015) or products that are difficult to obtain in the field or from airborne remote sensing. For the time period they cover, their particular strength is in global scale observations with consistent and reproducible methods.…”

Section: Satellite Remote Sensing Of Glaciersmentioning

confidence: 99%

“…Finally, estimates of the mass balance may be obtained by determining the accumulation area ratio through remote sensing (Rabatel et al 2008;Barandun et al 2015). However, because of the required manual delineation of the snow line, this is not done frequently.…”

Section: The Importance Of Precise Glacier Extents For the Determinatmentioning

confidence: 99%

Observation-Based Estimates of Global Glacier Mass Change and Its Contribution to Sea-Level Change

Marzeion¹,

Champollion²,

Haeberli³

et al. 2017

Space Sciences Series of ISSI

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Glaciers have strongly contributed to sea-level rise during the past century and will continue to be an important part of the sea-level budget during the twenty-first century. Here, we review the progress in estimating global glacier mass change from in situ measurements of mass and length changes, remote sensing methods, and mass balance modeling driven by climate observations. For the period before the onset of satellite observations, different strategies to overcome the uncertainty associated with monitoring only a small sample of the world's glaciers have been developed. These methods now yield estimates generally reconcilable with each other within their respective uncertainty margins. Whereas this is also the case for the recent decades, the greatly increased number of estimates obtained from remote sensing reveals that gravimetry-based methods typically arrive at lower mass loss estimates than the other methods. We suggest that strategies for better interconnecting the different methods are needed to ensure progress and to increase the temporal and spatial detail of reliable glacier mass change estimates.

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Re-analysis of seasonal mass balance at Abramov glacier 1968–2014

Cited by 67 publications

References 66 publications

Mass balance observations and reconstruction for Batysh Sook Glacier, Tien Shan, from 2004 to 2016

Mass balance observations and reconstruction for Batysh Sook Glacier, Tien Shan, from 2004 to 2016

Review of the status and mass changes of Himalayan-Karakoram glaciers

Observation-Based Estimates of Global Glacier Mass Change and Its Contribution to Sea-Level Change

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