Conference Agenda

Overview and details of the sessions and sub-session of this conference. Please select a date or session to show only sub-sessions at that day or location. Please select a single sub-session for detailed view (with abstracts and downloads if available).

Please note that all times are shown in CEST. The current conference time is: 13th Dec 2021, 09:44:00am CET

 
 
Session Overview
Session
Dr4 S.2.4: CRYOSPHERE
Time:
Wednesday, 21/July/2021:
8:30am - 9:30am

Session Chair: Dr. Francesca Pellicciotti
Session Chair: Prof. Hui Lin
Workshop: Dragon 4

ID. 32388 Cryosphere Dynamic over HMA
ID. 32437 EOCRYOHMA

Session finishes at 09:10 CEST, 15:10 CST


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Presentations
8:30am - 8:50am
Accepted
ID: 205 / Dr4 S.2.4: 1
Oral Presentation for Dragon 4
Cryosphere & Hydrology: 32388 - Monitoring Cryosphere Dynamic over High Mountain Asia with Integrated Earth Observations and Evaluating Its Hydrological Impacts at Upstream River Basin

Two Periods of Glacier Mass Balance at Central and Eastern Nyainqentanglha Derived from Multi-platform Bistatic SAR Interferometry

Li Gang1, Hui Lin2, Qinghua Ye3, Liming Jiang4, Andrew Hooper5

1School of Geospatial Engineering and Science, Sun Yat-Sen University; 2School of Geography and Environment, Jiangxi Normal University, China; 3Institute of Tibetan Plateau Research, Chinese Academy of Sciences, China; 4State Key Laboratory of Geodesy and Earth’s Dynamics, Innovation Academy for Precision Measurement Science and Technology, Chinese Academy of Sciences; 5COMET, School of Earth and Environment, University of Leeds, UK

Bistatic SAR interferometry is an essential technique of satellite geodesy and is capable of observing glacier height changes. Most recent studies focus on the decadal scale due to limitations of data acquisition and precision. Eastern Nyainqentanglha distributes the majority parts of maritime glaciers and presents with the quickest glacier mass loss rate at High-mountains Asia. Here we obtained two epochs of TerraSAR-X/TanDEM-X SAR images observed in ~2012 and ~2017. Together with the SRTM topography data that observed in 2000 we derived geodetic glacier mass balances in two periods (2000 - ~2012 / ~2012 - ~2017). We proposed three InSAR procedures for deriving the second period, which yields basically identical results of geodetic glacier mass balance. Topography differencing between DEMs derived by TerraSAR-X/TanDEM-X shows better precision than between TerraSAR-X/TanDEM-X and SRTM, and are capable of providing geodetic glacier mass balance information at sub-decadal scale. The patterns of glacier mass balance are almost identical before and after ~2012 and show with slightly increasing glacier loss rate. The increase of glacier height downwasting was more severe at lower sections. Glaciers distribute at the southeastern present with quicker lost rates than the northwestern part.



8:50am - 9:10am
Accepted
ID: 311 / Dr4 S.2.4: 2
Oral Presentation for Dragon 4
Cryosphere & Hydrology: 32437 - Earth Observation to Investigate the Characteristics and Changes of the Cryosphere in High Mountain Asia (EOCRYOHMA)

Earth Observation to Investigate Characteristics and Changes of Glaciers and Rock Glaciers in High Mountain Asia

Tobias Bolch1, Tandong Yao2, Philipp Rastner3, Guoqing Zhang2, Atanu Bhattacharya1, Owen King1, Yan Hu4, Lin Liu4

1University of St Andrews, United Kingdom; 2Institute of Tiebtan Plateau Research, Chinese Academy of Sciences, China; 3University of Zurich, Switzerland; 4The Chinese University of Hong Kong, Hong Kong, China

The cryosphere in high elevation regions is sensitive to the effects of climate change. Meltwater from the cryosphere contributes a significant fraction of the freshwater resources in China and in the countries receiving water from the Third Pole. Within the ESA Dragon 4 project we investigated glacier mass changes in different regions using multi-temporal stereo satellite imagery since the 1960s. Detailed investigations including mapping of rock glaciers have been performed in the Poiqu basin in central Himalaya. Results reveal that in most regions glacier mass loss continuously accelerated and that even in regions where glaciers have been in balance with climate mass loss now prevails. The greatest mass loss has been found in Northern Tien Shan and the Central Himalaya with mass loss rates between 0.35 and 0.40 mw.e.a-1 and the lowest in eastern Pamir (~0.05 mw.e.a-1). The mass loss has been primarily driven by an increase in summer temperature and is further accelerated by proglacial lakes which have become abundant in most regions with the ongoing glacier recession. The glacial lake area in Poiqu basin more than doubled between 1964 and 2017 from about 9.7 km² to more than 20 km². At the same time glaciers were shrinking at a rate of more than 0.5% per year. Rock glaciers are abundant in Poiqu region covering about 21 km², with is more than 10% of the glacier area (about 190 km²) in 2015. With ongoing glacier wastage the rock glaciers can become an increasingly important water resource.

Bolch-Earth Observation to Investigate Characteristics and Changes-311Oral4.pdf


 
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