干旱和半干旱博茨瓦纳陆地蓄水变化的GRACE重力异常解的比较

IF 0.3 Q4 REMOTE SENSING South African Journal of Geomatics Pub Date : 2023-02-15 DOI:10.4314/sajg.v12i1.4
Mooketsi Segobye, Loago K. Motlogelwa, B. Nkwae, Y. Ouma, Lopang Maphale, Bagadzi M. Manisa
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引用次数: 0

摘要

探索局部地区和盆地的重力恢复和气候实验(GRACE)解决方案之间的差异,是确定其在这些环境中的适用性和适用性的基础。由于各个处理中心使用的数学反演不同,各个解决方案在质量增加或损失方面存在差异,这使得用户很难选择用于研究陆地蓄水异常(TWSA)的最佳模型。本研究比较了干旱和半干旱博茨瓦纳(2002-2019)不同GRACE解决方案的TWSA趋势,其中比较了CSR、JPL、GFZ、TUGRAZ、AIUB和COST-G[1]的储存和通量。结果表明,在95%的置信水平下,六种解决方案的相关性相当好,JPL和AIUB之间的相关性最小,R=0.829,CSR和TUGRAZ之间的相关性最大,R=0.921。2002-2019年的TWSA分析表明,博茨瓦纳的TWS正在增加,TUGRAZ反演模型检测到的线性趋势最低,为+0.11cm/年,COST-G模型检测到最高,为+0.43cm/年。在将TWS与降雨量进行比较时,所有解都呈现出与降雨模式相同的时空趋势,表明GRACE解对接收到的降雨量表现出相同的响应。在调查的18年中,发现长期降雨趋势有所下降,这只是TUGRAZ模型根据每月趋势观测记录的-0.008cm/yr的等效水位(EWH)检测到的。总的来说,AIUB反演解决方案给出了更好的结果,因为发现其信号与降雨信号相同。[1]CSR=空间研究中心;喷气推进实验室;GFZ=德国地球科学研究中心;TUGRAZ=格拉茨理工大学;AIUB=伯尔尼大学天文学研究所;国际时变重力场组合服务
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Comparison of GRACE Gravity Anomaly Solutions for Terrestrial Water Storage Variability in Arid and Semi-arid Botswana
Explorations of the differences between Gravity Recovery and Climate Experiment (GRACE) solutions in local regions and basins are fundamental in determining their suitability and applicability in these environments. Because of the different mathematical inversions used by the respective processing centers, individual solutions exhibit discrepancies in terms of mass increase or loss, which makes it difficult for users to select the best model for studying terrestrial water storage anomalies (TWSAs). This study compares TWSA trends, as derived from different GRACE solutions over the arid and semi-arid Botswana (2002-2019), where both storage and flux from CSR, JPL, GFZ, TUGRAZ, AIUB, and COST-G[1] were compared. The results show that the six solutions are fairly correlated with the least correlation of R=0.829 between JPL and AIUB, and a maximum of R=0.921 between CSR and TUGRAZ at a 95% confidence level. The TWSA analyses for 2002-2019 indicate that TWS is increasing in Botswana, with the least linear trend of +0.11cm/yr detected from the TUGRAZ inversion model, and the highest linear trend at +0.43cm/year from the COST-G model. On comparing TWS with rainfall, all the solutions presented the same spatio-temporal trends as the rainfall patterns, indicating that the GRACE solutions exhibit the same responses with respect to the received rainfall.  Over the 18 years investigated, the long-term rainfall trend was found to decrease, which was only detected by the TUGRAZ model in terms of the recorded equivalent water height (EWH) of -0.008cm/yr from the monthly trend observations. Overall, the AIUB inversion solution gave a better result as its signal was found to be the same as the rainfall signal.   [1] CSR = Center for Space Research;  JPL = Jet Propulsion Laboratory; GFZ = the German Research Center for Geosciences; TUGRAZ = Graz University of Techology; AIUB = the Astronomical Institute of the University of Bern; COST-G = the International Combination Service for Time-Variable Gravity Fields
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