Weijin Guan scite author profile

Weijin Guan

5Publications

62Citation Statements Received

246Citation Statements Given

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Lanzhou University

Publications

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Area and Mass Changes of Glaciers in the West Kunlun Mountains Based on the Analysis of Multi-Temporal Remote Sensing Images and DEMs from 1970 to 2018

Cao

Guan

et al. 2020

Remote Sensing

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Most of the world’s glaciers have retreated significantly against the background of recent climate warming, while reports have indicated that the glaciers in the West Kunlun Mountains (WKL) may be in a relatively stable state, although there are some gaps in previous research. Based on Landsat series data, topographic maps, SRTM and TanDEM-x data, this paper extracts detailed glacial area information and glacial mass balance during different time periods from 1970 to 2018. We found that, the total area of glaciers in the WKL decreased by 8.0 km2 from 1972 to 2018. The area decreased by 12.0 km2 from 1972 to 1991 and increased by 4.7 km2 from 2010 to 2018. Glacier surface elevation change results in the WKL showed that the overall glacier thickness slightly decreased from 1970 to 2016, with an average of 1.9 ± 1.0 m. The glaciers thinned by approximately 2.5 ± 1.0 m from 1970 to 2000, while from 2000 to 2016, the glaciers thickened approximately by 0.6 ± 1.0 m. Overall, the glaciers in the WKL showed very slight retreat. In addition, the mass changes of glaciers were affected by glacial surging.

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Updated Surge‐Type Glacier Inventory in the West Kunlun Mountains, Tibetan Plateau, and Implications for Glacier Change

et al. 2021

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Glacier surging is a dynamic instability that affects the flow of some glaciers, modifying the glacier area, surface velocity, and surface elevation. It is also among the major causes of ice dams and glacier lake floods. Previous studies have shown that in the West Kunlun Mountains| (WKM) where a cluster of surge‐type glaciers had been found, the glaciers were relatively stable in recent years. Nevertheless, the surge cycle and its impact on glacier changes on a regional scale are poorly understood. In this study, we updated the surge‐type glacier inventory of the WKM using the detailed changes in glacier length, surface velocity, and surface elevation during the 1972–2020 period using 78 Landsat optical images, 86 Sentinel‐1 synthetic aperture radar (SAR) images, and three digital elevation models of the WKM. The updated results show that among the 423 glaciers in the WKM, 10 are confirmed as surge‐type glaciers, three are likely surge‐type glaciers, and five are possible surge‐type glaciers. Furthermore, these 18 glaciers account for 63% of the total glacier area. During the period analyzed, there were marked changes in the lengths, areas and surface elevations of all surge‐type glaciers, while those of the non‐surge‐type glaciers were relatively stable. These results appear to indicate that the observed regional trends of glaciers in the WKM recently may be related to the existence of surge‐type glaciers. Furthermore, the surge‐type glacier underwent advance after accelerating for 3–4 years, which could be used to forecast when glacier termini may advance and avoid the possible catastrophic damages.

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Changes in ice volume of the Ningchan No.1 Glacier, China, from 1972 to 2014, as derived from in situ measurements

et al. 2017

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ABSTRACT. Global climate change is causing widespread glacier retreat, with many small glaciers disappearing from the world's mountain ranges. We obtained the annual mass balance of a small glacier (the Ningchan No.1 Glacier) located on the northeastern Tibetan Plateau, from the years 2010 to 2015 using glaciological and geodetic methods. We also measured the glacier's thickness in 2014 using ground-penetrating radar. Employing topographical maps and ZY-3 images, we obtained Digital Elevation Models for 1972 and 2014. Our results showed that the mean annual mass balance from 2010 to 2015 was ∼−0.9 ± 0.5 m w.e. The mean equilibrium line altitude was ∼4680 m in the period 2010-15, which exceeds the maximum elevation of the glacier. The glacier has lost area and mass across its elevation range. The mean ice thickness was 24.0 ± 2.5 m in 2014. From 1972 to 2014, the glacier's area shrank from 0.77 ± 0.05 to 0.39 ± 0.04 km 2 , and the ice volume decreased by (14.96 ± 0.97) × 10 6 m 3 , equivalent to (12.72 ± 0.82) × 10 6 t w.e. over the same period.

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Changes in glacier volume on Mt. Gongga, southeastern Tibetan Plateau, based on the analysis of multi-temporal DEMs from 1966 to 2015

et al. 2019

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The accelerated retreat of glaciers and the reduction of glacier ice reserves caused by climate change can significantly affect regional water resources and hydrological cycles. Changes in glacier thickness are among the key indicators that reflect this process. We analyzed changes observed in the elevation of glacier surfaces in the Gongga Mountains (GGM) using multi-temporal Digital Elevation Models (DEMs) derived from topographic maps, SRTM, ICESat and ZY-3 data. The results showed that the mean rate of change in glacier surface altitude in the GGM was ~−26.7 ± 2.03 m (0.54 ± 0.04 m a−1) between 1966 and 2015. The mean melt rates differed over different time periods, latterly showing an accelerating trend. As a general rule, glaciers appear to be losing more volume at lower than at higher elevations. Further analysis of these results suggests that supraglacial debris coverage in the GGM promotes higher rates of mass loss.

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Changes in glacier mass in the Lenglongling Mountains from 1972 to 2016 based on remote sensing data and modeling

Cao

Pan

Wen

et al. 2019

Journal of Hydrology

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Weijin Guan

Area and Mass Changes of Glaciers in the West Kunlun Mountains Based on the Analysis of Multi-Temporal Remote Sensing Images and DEMs from 1970 to 2018

Updated Surge‐Type Glacier Inventory in the West Kunlun Mountains, Tibetan Plateau, and Implications for Glacier Change

Changes in ice volume of the Ningchan No.1 Glacier, China, from 1972 to 2014, as derived from in situ measurements

Changes in glacier volume on Mt. Gongga, southeastern Tibetan Plateau, based on the analysis of multi-temporal DEMs from 1966 to 2015

Changes in glacier mass in the Lenglongling Mountains from 1972 to 2016 based on remote sensing data and modeling

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