DOI: 10.1016/j.epsl.2020.116532
论文题名: Assessing seasonal and interannual water storage variations in Taiwan using geodetic and hydrological data
作者: Hsu Y.-J. ; Fu Y. ; Bürgmann R. ; Hsu S.-Y. ; Lin C.-C. ; Tang C.-H. ; Wu Y.-M.
刊名: Earth and Planetary Science Letters
ISSN: 0012821X
出版年: 2020
卷: 550 语种: 英语
中文关键词: GLDAS
; GNSS
; interannual
; LSDM
; seasonal
; water storage
英文关键词: Digital storage
; Geodesy
; Groundwater
; Independent component analysis
; Rain
; Soil moisture
; Subsidence
; Surface waters
; Independent component analysis(ICA)
; Precipitation data
; Seasonal amplitudes
; Seasonal variation
; Spatiotemporal distributions
; Vertical deformation
; Water storage variation
; Weighted least squares
; Infiltration
; annual variation
; geodetic datum
; GNSS
; GRACE
; hydrological modeling
; precipitation (climatology)
; seasonal variation
; water storage
; Taiwan
英文摘要: We systematically investigate the spatiotemporal water storage changes in Taiwan using geodetic (GNSS and GRACE) and hydrological (precipitation, GLDAS and LSDM assimilation models, and in-situ groundwater level) datasets. We use GNSS-observed vertical deformation to estimate water storage changes based on elastic loading theory and weighted least-squares inversion, correcting for contributions from global loads using GRACE. The mean annual water-thickness change inferred from GNSS across Taiwan is 0.53 ± 0.17 m and the largest seasonal change of up to 0.91 m is estimated in southwest Taiwan. Comparison of the geodetic and hydrological data shows that the spatial pattern of annual water storage change estimated from GNSS, GLDAS, and precipitation data are generally consistent, indicating significant seasonal water-load fluctuations in Taiwan. However, the GRACE solution significantly underestimates the amplitude of water mass change in Taiwan due to leakage effect, but temporally correlates well with GNSS estimates. Hydrological assimilation model GLDAS, dominated by shallow soil moisture variations, predicts that the average seasonal variation of water thickness is only about 17% of GNSS estimates. This value is about half of the mean annual LSDM water storage change of 0.18 m including an estimate of both soil moisture and surface water. The discrepancy suggests that the contribution of groundwater is substantial and the total water storage change in the hydrological assimilation model is underestimated in Taiwan. The spatiotemporal distributions derived using independent component analysis (ICA) are generally consistent between the geodetic and hydrological data. However, comparisons of seasonal amplitudes and phases between all data pairs reveal different response times to precipitation, reflecting the complex nature of transient water storage due to variable rainfall patterns, infiltration rate, soil saturation, and runoff. The peak rainfall occurs in June-July, which is one-to-two months before the peak GNSS subsidence. Water storage of the GLDAS model also reaches its maximum in August, suggesting the water storage is controlled by the infiltration rate and capacity and the total water recharge from rainfall is generally larger than discharge in the summer. The highest groundwater levels lag one and two months behind the peak GNSS subsidence in western and eastern Taiwan, respectively, indicating a higher infiltration rate in western Taiwan. © 2020 Elsevier B.V. Citation statistics:
资源类型: 期刊论文
标识符: http://119.78.100.158/handle/2HF3EXSE/165032
Appears in Collections: 气候变化与战略
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作者单位: Institute of Earth Sciences, Academia Sinica, Taipei, Taiwan; Department of Geosciences, National Taiwan University, Taipei, Taiwan; School of Earth, Environment and Society, Bowling Green State University, Bowling Green, OH, United States; Berkeley Seismological Laboratory, University of California, Berkeley, CA, United States; Department of Bioenvironmental System Engineering, National Taiwan University, Taipei, Taiwan; NTU Research Center for Future Earth, National Taiwan University, Taipei, Taiwan
Recommended Citation:
Hsu Y.-J.,Fu Y.,Bürgmann R.,et al. Assessing seasonal and interannual water storage variations in Taiwan using geodetic and hydrological data[J]. Earth and Planetary Science Letters,2020-01-01,550