• Sorted by Date • Sorted by Last Name of First Author •
Liu, Yifu, Xu, Keke, Guo, Zengchang, Li, Sen, and Zhu, Yongzhen, 2024. Monitoring terrestrial water storage changes using GNSS vertical coordinate time series in Amazon River basin. Scientific Reports, 14(1):24077, doi:10.1038/s41598-024-74921-4.
• from the NASA Astrophysics Data System • by the DOI System •
@ARTICLE{2024NatSR..1424077L, author = {{Liu}, Yifu and {Xu}, Keke and {Guo}, Zengchang and {Li}, Sen and {Zhu}, Yongzhen}, title = "{Monitoring terrestrial water storage changes using GNSS vertical coordinate time series in Amazon River basin}", journal = {Scientific Reports}, keywords = {GNSS, GRACE, VMD-BiLSTM, PCA, TWS}, year = 2024, month = oct, volume = {14}, number = {1}, eid = {24077}, pages = {24077}, abstract = "{Aiming at the Terrestrial Water Storage(TWS) changes in the Amazon River basin, this article uses the coordinate time series data of the Global Navigation Satellite System (GNSS), adopts the Variational Mode Decomposition and Bidirectional Long and Short Term Memory(VMD-BiLSTM) method to extract the vertical crustal deformation series, and then adopts the Principal Component Analysis(PCA) method to invert the changes of terrestrial water storage in the Amazon Basin from July 15, 2012 to July 25, 2018. Then, the GNSS inversion results were compared with the equivalent water height retrieved from Gravity Recovery and Climate Experiment (GRACE) data. The results show that (1) the extraction method proposed in this article has better denoising effect than the traditional method; (2) the surface hydrological load deformation can be well calculated using GNSS coordinate vertical time series, and then the regional TWS changes can be inverted, which has a good consistency with the result of GRACE inversion of water storage, and has almost the same seasonal variation characteristics; (3) There is a strong correlation between TWS changes retrieved by GNSS based on surface deformation characteristics and water mass changes calculated by GRACE based on gravitational field changes, but GNSS satellite's all-weather measurement results in a finer time scale compared with GRACE inversion results. In summary, GNSS can be used as a supplementary technology for monitoring terrestrial water storage changes, and can complement the advantages of GRACE technology.}", doi = {10.1038/s41598-024-74921-4}, adsurl = {https://ui.adsabs.harvard.edu/abs/2024NatSR..1424077L}, adsnote = {Provided by the SAO/NASA Astrophysics Data System} }
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