Reconstruction of Petermann glacier velocity time series using multi-source remote sensing images

•A method for obtaining complete glacier velocity using SAR and optical images.•Automatically reduce the error between sensors by EOF based on confidence.•Robust to different missing area in glacier velocity field.•The important reason for the sudden acceleration of Petermann glacier is given. Glaci...

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Bibliographic Details
Published in:International journal of applied earth observation and geoinformation 2024-12, Vol.135, p.104307, Article 104307
Main Authors: Li, Zongze, Chong, Jinsong, Zhao, Yawei, Diao, Lijie
Format: Article
Language:English
Subjects:
Data missing
Glacier velocity
Multi-source remote sensing
Time series
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Summary:•A method for obtaining complete glacier velocity using SAR and optical images.•Automatically reduce the error between sensors by EOF based on confidence.•Robust to different missing area in glacier velocity field.•The important reason for the sudden acceleration of Petermann glacier is given. Glacier velocity is one of the crucial parameters in the research of glacier dynamics. Synthetic aperture radar (SAR), as an active microwave sensor, represents a common method to monitor glacier velocity. However, the changes of glacier surface could cause the data missing of glacier velocity due to incoherence. To meet the demand for glacier velocity monitoring, this paper employs the SAR images of Sentinel-1 in long time series and optical images of Sentinel-2 to investigate the velocity of Petermann glacier in 2021. Firstly, the time series of glacier velocity in the whole year of 2021 is obtained by using SAR images. The glacier velocity extracted from the optical image pairs is used as the initial value of the large missing part of the glacier velocity field. Then the spatiotemporal glacier velocity matrix is constructed and empirical orthogonal function (EOF) analysis is carried out. Among them, the glacier velocity is reconstructed by the glacier velocity estimation method based on confidence, and the complete glacier velocity time series is obtained by iterating to minimize the error of the reconstructed glacier velocity. Finally, the obtained time series of Petermann Glacier velocity in 2021 were statistically analyzed. The statistical results quantified the seasonal differences of Petermann Glacier. In addition, the analysis results show that the temporal and spatial variations of Petermann Glacier velocity are affected by topography and temperature.
ISSN:1569-8432
DOI:10.1016/j.jag.2024.104307