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• A, G., Velicogna, I., Kimball, J. S., and Kim, Y., 2015. Impact of changes in GRACE derived terrestrial water storage on vegetation growth in Eurasia. Environmental Research Letters, 10(12):124024, doi:10.1088/1748-9326/10/12/124024.
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• Abbondanza, C., Chin, T. M., Gross, R. S., Heflin, M. B., Parker, J. W., Soja, B. S., van Dam, T., and Wu, X., 2017. JTRF2014, the JPL Kalman filter and smoother realization of the International Terrestrial Reference System. Journal of Geophysical Research (Solid Earth), 122:8474–8510, doi:10.1002/2017JB014360.
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• Abd-Elmotaal, Hussein A., Makhloof, Atef, Hassan, Ayman A., and Mohasseb, Hussein, 2019. Preliminary Results on the Estimation of Ground Water in Africa Using GRACE and Hydrological Models. In Vergos, Georgios S., Pail, Roland, and Barzaghi, Riccardo (editors), International Symposium on Gravity, Geoid and Height Systems 2016, pp. 217–226, Springer International Publishing, Cham.
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• Abdalla, A., Fashir, H., Ali, A., and Fairhead, D., 2012. Validation of recent GOCE/GRACE geopotential models over Khartoum state - Sudan. Journal of Geodetic Science, 2:88–97, doi:10.2478/v10156-011-0035-6.
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• Abdelmalik, Karim W. and Abdelmohsen, Karem, 2019. GRACE and TRMM mission: The role of remote sensing techniques for monitoring spatio-temporal change in total water mass, Nile basin. Journal of African Earth Sciences, 160:103596, doi:10.1016/j.jafrearsci.2019.103596.
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• Abdelmohsen, Karem, Sultan, Mohamed, Save, Himanshu, Abotalib, Abotalib Z., and Yan, Eugene, 2020. What can the GRACE seasonal cycle tell us about lake-aquifer interactions?. Earth Science Reviews, 211:103392, doi:10.1016/j.earscirev.2020.103392.
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• Abe, M., Kroner, C., Förste, C., Petrovic, S., Barthelmes, F., Weise, A., Güntner, A., Creutzfeldt, B., Jahr, T., Jentzsch, G., Wilmes, H., and Wziontek, H., 2012. A comparison of GRACE-derived temporal gravity variations with observations of six European superconducting gravimeters. Geophysical Journal International, 191:545–556, doi:10.1111/j.1365-246X.2012.05641.x.
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• Abedini, Abbas, Keller, Wolfgang, and Amiri-Simkooei, Alireza, 2021. Estimation of surface density changes using a mascon method in GRACE-like missions. Journal of Earth System Science, 130(1):26, doi:10.1007/s12040-020-01535-5.
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• Abelen, S., Seitz, F., Abarca-del-Rio, R., and Güntner, A., 2015. Droughts and Floods in the La Plata Basin in Soil Moisture Data and GRACE. Remote Sensing, 7:7324–7349, doi:10.3390/rs70607324.
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• Abera, W., Formetta, G., Brocca, L., and Rigon, R., 2017. Modeling the water budget of the Upper Blue Nile basin using the JGrass-NewAge model system and satellite data. Hydrology and Earth System Sciences, 21:3145–3165, doi:10.5194/hess-21-3145-2017.
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• Abhishek and Kinouchi, Tsuyoshi, 2021. Synergetic application of GRACE gravity data, global hydrological model, and in-situ observations to quantify water storage dynamics over Peninsular India during 2002-2017. Journal of Hydrology, 596:126069, doi:10.1016/j.jhydrol.2021.126069.
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• Abhishek and Kinouchi, Tsuyoshi, 2022. Multidecadal Land Water and Groundwater Drought Evaluation in Peninsular India. Remote Sensing, 14(6):1486, doi:10.3390/rs14061486.
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• Abrykosov, P., Pail, R., Gruber, T., Zahzam, N., Bresson, A., Hardy, E., Christophe, B., Bidel, Y., Carraz, O., and Siemes, C., 2019. Impact of a novel hybrid accelerometer on satellite gravimetry performance. Advances in Space Research, 63:3235–3248, doi:10.1016/j.asr.2019.01.034.
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• Adam, D., 2002. Gravity measurement: Amazing GRACE. Nature, 416:10–11, doi:10.1038/416010a.
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• Adhikari, S. and Ivins, E. R., 2016. Climate-driven polar motion: 2003-2015. Science Advances, 2(4):e1501693–e1501693, doi:10.1126/sciadv.1501693.
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• Adusumilli, S., Borsa, A. A., Fish, M. A., McMillan, H. K., and Silverii, F., 2019. A Decade of Water Storage Changes Across the Contiguous United States From GPS and Satellite Gravity. Geophysical Research Letters, 46(22):13,006–13,015, doi:10.1029/2019GL085370.
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• Agarwal, Vibhor, Akyilmaz, Orhan, Shum, C. K., Feng, Wei, Yang, Ting-Yi, Forootan, Ehsan, Syed, Tajdarul Hassan, Haritashya, Umesh K., and Uz, Metehan, 2023. Machine learning based downscaling of GRACE-estimated groundwater in Central Valley, California. Science of the Total Environment, 865:161138, doi:10.1016/j.scitotenv.2022.161138.
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• Agboma, C. O., Subsurface moisture storage patterns derived from hydrologic model and satellite measurements during extreme period of dryness. Ph.D. Thesis, Memorial University of Newfoundland (Canada), 2010.
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• Aguirre-Martinez, M. and Sneeuw, N., 2003. Needs and Tools for Future Gravity Measuring Missions. Space Science Reviews, 108:409–416, doi:10.1023/A:1026287715375.
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• Agutu, N. O., Awange, J. L., Ndehedehe, C., Kirimi, F., and Kuhn, M., 2019. GRACE-derived groundwater changes over Greater Horn of Africa: Temporal variability and the potential for irrigated agriculture. Science of the Total Environment, 693:133467, doi:10.1016/j.scitotenv.2019.07.273.
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• Ahi, Goncar Okay, 2021. Evaluation of filtering effects on terrestrial water storage estimation from new GRACE releases. Geocarto International, 36(4):449–464, doi:10.1080/10106049.2019.1611950, Taylor & Francis.
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• Ahi, Gonca Okay and Cekim, Hatice Oncel, 2021. Long-term temporal prediction of terrestrial water storage changes over global basins using GRACE and limited GRACE-FO data. Acta Geodaetica et Geophysica, .
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• Ahmed, M., Sultan, M., Yan, E., and Wahr, J., 2016. Assessing and Improving Land Surface Model Outputs Over Africa Using GRACE, Field, and Remote Sensing Data. Surveys in Geophysics, 37:529–556, doi:10.1007/s10712-016-9360-8.
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• Ahmed, M. and Abdelmohsen, K., 2018. Quantifying Modern Recharge and Depletion Rates of the Nubian Aquifer in Egypt. Surveys in Geophysics, 39:729–751, doi:10.1007/s10712-018-9465-3.
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• Ahmed, Mohamed, Sultan, Mohamed, Elbayoumi, Tamer, and Tissot, Philippe, 2019. Forecasting GRACE Data over the African Watersheds Using Artificial Neural Networks. Remote Sensing, 11(15):1769, doi:10.3390/rs11151769.
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• Ahmed, Kamal, Shahid, Shamsuddin, Demirel, Mehmet Cüneyd, Nawaz, Nadeem, and Khan, Najeebullah, 2019. The changing characteristics of groundwater sustainability in Pakistan from 2002 to 2016. Hydrogeology Journal, 27(7):2485–2496, doi:10.1007/s10040-019-02023-x.
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• Akhtar, Fazlullah, Nawaz, Rana Ali, Hafeez, Mohsin, Awan, Usman Khalid, Borgemeister, Christian, and Tischbein, Bernhard, 2022. Evaluation of GRACE derived groundwater storage changes in different agro-ecological zones of the Indus Basin. Journal of Hydrology, 605:127369, doi:10.1016/j.jhydrol.2021.127369.
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• Alam, Sarfaraz, Gebremichael, Mekonnen, Ban, Zhaoxin, Scanlon, Bridget R., Senay, Gabriel, and Lettenmaier, Dennis P., 2021. Post-Drought Groundwater Storage Recovery in California's Central Valley. Water Resources Research, 57(10):e30352, doi:10.1029/2021WR030352.
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• Albertella, A. and Rummel, R., 2009. On the spectral consistency of the altimetric ocean and geoid surface: a one-dimensional example. Journal of Geodesy, 83:805–815, doi:10.1007/s00190-008-0299-5.
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• Alexander, P. M., Tedesco, M., Schlegel, N.-J., Luthcke, S. B., Fettweis, X., and Larour, E., 2016. Greenland Ice Sheet seasonal and spatial mass variability from model simulations and GRACE (2003-2012). The Cryosphere, 10:1259–1277, doi:10.5194/tc-10-1259-2016.
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• Alghafli, Khaled, Shi, Xiaogang, Sloan, William, Shamsudduha, Mohammad, Tang, Qiuhong, Sefelnasr, Ahmed, and Ebraheem, Abdel Azim, 2023. Groundwater recharge estimation using in-situ and GRACE observations in the eastern region of the United Arab Emirates. Science of the Total Environment, 867:161489, doi:10.1016/j.scitotenv.2023.161489.
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• Ali, Shoaib, Liu, Dong, Fu, Qiang, Cheema, Muhammad Jehanzeb Masud, Pham, Quoc Bao, Rahaman, Md. Mafuzur, Dang, Thanh Duc, and Anh, Duong Tran, 2021. Improving the Resolution of GRACE Data for Spatio-Temporal Groundwater Storage Assessment. Remote Sensing, 13(17):3513, doi:10.3390/rs13173513.
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• Ali, Shoaib, Wang, Qiumei, Liu, Dong, Fu, Qiang, Mafuzur Rahaman, Md., Abrar Faiz, Muhammad, and Jehanzeb Masud Cheema, Muhammad, 2022. Estimation of spatio-temporal groundwater storage variations in the Lower Transboundary Indus Basin using GRACE satellite. Journal of Hydrology, 605:127315, doi:10.1016/j.jhydrol.2021.127315.
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• Ali, Shoaib, Liu, Dong, Fu, Qiang, Cheema, Muhammad Jehanzeb Masud, Pal, Subodh Chandra, Arshad, Arfan, Pham, Quoc Bao, and Zhang, Liangliang, 2022. Constructing high-resolution groundwater drought at spatio-temporal scale using GRACE satellite data based on machine learning in the Indus Basin. Journal of Hydrology, 612:128295, doi:10.1016/j.jhydrol.2022.128295.
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• Ali, Shoaib, Khorrami, Behnam, Jehanzaib, Muhammad, Tariq, Aqil, Ajmal, Muhammad, Arshad, Arfan, Shafeeque, Muhammad, Dilawar, Adil, Basit, Iqra, Zhang, Liangliang, Sadri, Samira, Niaz, Muhammad Ahmad, Jamil, Ahsan, and Khan, Shahid Nawaz, 2023. Spatial Downscaling of GRACE Data Based on XGBoost Model for Improved Understanding of Hydrological Droughts in the Indus Basin Irrigation System (IBIS). Remote Sensing, 15(4):873, doi:10.3390/rs15040873.
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• Ali, Shoaib, Ran, Jiangjun, Luan, Yi, Khorrami, Behnam, Xiao, Yun, and Tangdamrongsub, Natthachet, 2024. The GWR model-based regional downscaling of GRACE/GRACE-FO derived groundwater storage to investigate local-scale variations in the North China Plain. Science of the Total Environment, 908:168239, doi:10.1016/j.scitotenv.2023.168239.
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• Amin, H., Bagherbandi, M., and Sjöberg, L. E., 2020. Quantifying barystatic sea-level change from satellite altimetry, GRACE and Argo observations over 2005-2016. Advances in Space Research, 65(8):1922–1940, doi:10.1016/j.asr.2020.01.029.
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• Amiri, Vahab, Ali, Shoaib, and Sohrabi, Nassim, 2023. Estimating the spatio-temporal assessment of GRACE/GRACE-FO derived groundwater storage depletion and validation with in-situ water quality data (Yazd province, central Iran). Journal of Hydrology, 620:129416, doi:10.1016/j.jhydrol.2023.129416.
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• Anthes, R. A., 2011. Exploring Earth's atmosphere with radio occultation: contributions to weather, climate and space weather. Atmospheric Measurement Techniques, 4:1077–1103, doi:10.5194/amt-4-1077-2011.
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• Asoka, Akarsh and Mishra, Vimal, 2020. Anthropogenic and Climate Contributions on the Changes in Terrestrial Water Storage in India. Journal of Geophysical Research (Atmospheres), 125(10):e32470, doi:10.1029/2020JD032470.
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• Becker, Mélanie, LLovel, William, Cazenave, Anny, Güntner, Andreas, and Crétaux, Jean-Fran\ccois, 2010. Recent hydrological behavior of the East African great lakes region inferred from GRACE, satellite altimetry and rainfall observations. Comptes Rendus Geoscience, 342(3):223–233, doi:10.1016/j.crte.2009.12.010.
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• Behrangi, A., Gardner, A. S., Reager, J. T., and Fisher, J. B., 2017. Using GRACE to constrain precipitation amount over cold mountainous basins. Geophysical Research Letters, 44:219–227, doi:10.1002/2016GL071832.
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• Boening, C., Lee, T., and Zlotnicki, V., 2011. A record-high ocean bottom pressure in the South Pacific observed by GRACE. Geophysical Research Letters, 38:4602–+, doi:10.1029/2010GL046013.
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• Boniface, Claude and Bruinsma, Sean, 2021. Uncertainty quantification of the DTM2020 thermosphere model. Journal of Space Weather and Space Climate, 11:53, doi:10.1051/swsc/2021034.
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• Bonin, J. A. and Chambers, D. P., 2015. Quantifying the resolution level where the GRACE satellites can separate Greenland's glacial mass balance from surface mass balance. The Cryosphere, 9:1761–1772, doi:10.5194/tc-9-1761-2015.
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• Bonin, J. A., Chambers, D. P., and Cheng, M., 2018. Using satellite laser ranging to measure ice mass change in Greenland and Antarctica. The Cryosphere, 12:71–79, doi:10.5194/tc-12-71-2018.
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• Bonin, J. A. and Save, H., 2022. Using GRACE to Improve Altimetry's Ocean De-Aliasing Model. Journal of Geophysical Research (Oceans), 127(1):e17711, doi:10.1029/2021JC017711.
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• Boronina, A. and Ramillien, G., 2008. Application of AVHRR imagery and GRACE measurements for calculation of actual evapotranspiration over the Quaternary aquifer (Lake Chad basin) and validation of groundwater models. Journal of Hydrology, 348:98–109, doi:10.1016/j.jhydrol.2007.09.061.
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• Boulahia, Ahmed Kamel, García-García, David, Vigo, M. Isabel, Trottini, Mario, and Sayol, Juan-Manuel, 2022. The Water Cycle of the Baltic Sea Region From GRACE/GRACE-FO Missions and ERA5 Data. Frontiers in Earth Science, 10:879148, doi:10.3389/feart.2022.879148.
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• Bouman, J. and Koop, R., 2003. Geodetic Methods for Calibration of GRACE and GOCE. Space Science Reviews, 108:293–303, doi:10.1023/A:1026127409015.
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• Boy, J.-P. and Chao, B. F., 2005. Precise evaluation of atmospheric loading effects on Earth's time-variable gravity field. Journal of Geophysical Research (Solid Earth), 110(B9):8412–+, doi:10.1029/2002JB002333.
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• Boy, J.-P. and Chao, B. F., 2002. Time-variable gravity signal during the water impoundment of China's Three-Gorges Reservoir. Geophysical Research Letters, 29:53–1, doi:10.1029/2002GL016457.
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• Boy, J.-P., Hinderer, J., and de Linage, C., 2012. Retrieval of Large-Scale Hydrological Signals in Africa from GRACE Time-Variable Gravity Fields. Pure and Applied Geophysics, 169:1373–1390, doi:10.1007/s00024-011-0416-x.
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• Braitenberg, C. and Ebbing, J., 2009. New insights into the basement structure of the West Siberian Basin from forward and inverse modeling of GRACE satellite gravity data. Journal of Geophysical Research (Solid Earth), 114(B13):6402–+, doi:10.1029/2008JB005799.
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• Braitenberg, C. and Ebbing, J., 2009. The GRACE-satellite gravity and geoid fields in analysing large-scale, cratonic or intracratonic basins. Geophysical Prospecting, 57:559–571, doi:10.1111/j.1365-2478.2009.00793.x.
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• Breña-Naranjo, J. A., Kendall, A. D., and Hyndman, D. W., 2014. Improved methods for satellite-based groundwater storage estimates: A decade of monitoring the high plains aquifer from space and ground observations. Geophysical Research Letters, 41:6167–6173, doi:10.1002/2014GL061213.
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• Briand, C., Doerksen, K., and Deleflie, F., 2021. Solar EUV-Enhancement and Thermospheric Disturbances. Space Weather, 19(12):e02840, doi:10.1029/2021SW002840.
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• Brockmann, J. M., 2015. On High Performance Computing in Geodesy - Applications in Global Gravity Field Determination, Deutsche Geod. Kommission, Reihe C 761, pp. 144, Bayer. Akademie der Wissenschaften, Munich.
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• Broerse, D. B. T., Vermeersen, L. L. A., Riva, R. E. M., and van der Wal, W., 2011. Ocean contribution to co-seismic crustal deformation and geoid anomalies: Application to the 2004 December 26 Sumatra–Andaman earthquake. Earth and Planetary Science Letters, 305:341–349, doi:10.1016/j.epsl.2011.03.011.
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• Broerse, T., Riva, R., and Vermeersen, B., 2014. Ocean contribution to seismic gravity changes: the sea level equation for seismic perturbations revisited. Geophysical Journal International, 199:1094–1109, doi:10.1093/gji/ggu315.
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• Broerse, T., Riva, R., Simons, W., Govers, R., and Vermeersen, B., 2015. Postseismic GRACE and GPS observations indicate a rheology contrast above and below the Sumatra slab. Journal of Geophysical Research (Solid Earth), 120:5343–5361, doi:10.1002/2015JB011951.
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• Brookfield, A. E., Hill, M. C., Rodell, M., Loomis, B. D., Stotler, R. L., Porter, M. E., and Bohling, G. C., 2018. In Situ and GRACE-Based Groundwater Observations: Similarities, Discrepancies, and Evaluation in the High Plains Aquifer in Kansas. Water Resources Research, 54:8034–8044, doi:10.1029/2018WR023836.
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• Brown, N. J. and Tregoning, P., 2010. Quantifying GRACE data contamination effects on hydrological analysis in the Murray–Darling Basin, southeast Australia. Australian Journal of Earth Sciences, 57:329–335, doi:10.1080/08120091003619241.
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• Bruinsma, S., Forbes, J. M., Nerem, R. S., and Zhang, X., 2006. Thermosphere density response to the 20-21 November 2003 solar and geomagnetic storm from CHAMP and GRACE accelerometer data. Journal of Geophysical Research (Space Physics), 111(A10):6303–+, doi:10.1029/2005JA011284.
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• Bruinsma, S. L. and Forbes, J. M., 2007. Storm-Time Equatorial Density Enhancements Observed by CHAMP and GRACE. Journal of Spacecraft and Rockets, 44:1154–1159, doi:10.2514/1.28134.
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• Bruinsma, S., Lemoine, J.-M., Biancale, R., and Valès, N., 2010. CNES/GRGS 10-day gravity field models (release 2) and their evaluation. Advances in Space Research, 45:587–601, doi:10.1016/j.asr.2009.10.012.
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• Bruinsma, S. L. and Forbes, J. M., 2010. Large-scale traveling atmospheric disturbances (LSTADs) in the thermosphere inferred from CHAMP, GRACE, and SETA accelerometer data. Journal of Atmospheric and Solar-Terrestrial Physics, 72:1057–1066, doi:10.1016/j.jastp.2010.06.010.
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• Bruinsma, S. L. and Forbes, J. M., 2010. Anomalous behavior of the thermosphere during solar minimum observed by CHAMP and GRACE. Journal of Geophysical Research (Space Physics), 115(A14):11323–+, doi:10.1029/2010JA015605.
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• Bruinsma, S. L., Förste, C., Abrikosov, O., Marty, J.-C., Rio, M.-H., Mulet, S., and Bonvalot, S., 2013. The new ESA satellite-only gravity field model via the direct approach. Geophysical Research Letters, 40:3607–3612, doi:10.1002/grl.50716.
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• Bruinsma, S., 2015. The DTM-2013 thermosphere model. Journal of Space Weather and Space Climate, 5(27):A1, doi:10.1051/swsc/2015001.
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• Bruinsma, S., Sutton, E., Solomon, S. C., Fuller-Rowell, T., and Fedrizzi, M., 2018. Space Weather Modeling Capabilities Assessment: Neutral Density for Orbit Determination at low Earth orbit. Space Weather, 16:1806–1816, doi:10.1029/2018SW002027.
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• Bruinsma, Sean, Boniface, Claude, Sutton, Eric K., and Fedrizzi, Mariangel, 2021. Thermosphere modeling capabilities assessment: geomagnetic storms. Journal of Space Weather and Space Climate, 11:12, doi:10.1051/swsc/2021002.
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• Bruinsma, Sean, Siemes, Christian, Emmert, John T., and Mlynczak, Martin G., 2023. Description and comparison of 21st century thermosphere data. Advances in Space Research, 72(12):5476–5489, doi:10.1016/j.asr.2022.09.038.
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• Brunnabend, S.-E., Rietbroek, R., Timmermann, R., Schröter, J., and Kusche, J., 2011. Improving mass redistribution estimates by modeling ocean bottom pressure uncertainties. Journal of Geophysical Research (Oceans), 116(C15):C08037, doi:10.1029/2010JC006617.
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• Brzezinski, A., Nastula, J., and Kolaczek, B., 2009. Seasonal excitation of polar motion estimated from recent geophysical models and observations. Journal of Geodynamics, 48:235–240, doi:10.1016/j.jog.2009.09.021.
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• Burke, W. J., Huang, C. Y., Marcos, F. A., and Wise, J. O., 2007. Interplanetary control of thermospheric densities during large magnetic storms. Journal of Atmospheric and Solar-Terrestrial Physics, 69:279–287, doi:10.1016/j.jastp.2006.05.027.
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• Burke, W. J., Gentile, L. C., and Hagan, M. P., 2010. Thermospheric heating by high-speed streams in the solar wind. Journal of Geophysical Research (Space Physics), 115(A14):6318–+, doi:10.1029/2009JA014585.
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• Burke, W. J., Wilson, G. R., Lin, C. S., Rich, F. J., Wise, J. O., and Hagan, M. P., 2011. Estimating Dst indices and exospheric temperatures from equatorial magnetic fields measured by DMSP satellites. Journal of Geophysical Research (Space Physics), 116(A15):1205–+, doi:10.1029/2010JA015310.
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• Burke, W. J., 2011. Solar cycle dependence of solar wind energy coupling to the thermosphere. Journal of Geophysical Research (Space Physics), 116(A15):A06302, doi:10.1029/2011JA016437.
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• Burke, W. J., 2008. Storm time energy budgets of the global thermosphere. Washington DC American Geophysical Union Geophysical Monograph Series, 181:235–246, doi:10.1029/181GM21.
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• Burke, W. J., 2018. TheThermospheric Dynamics during the March 1989 Magnetic Storm. Sun and Geosphere, 13:163–168, doi:10.31401/SunGeo.2018.02.07.
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• Burnett, Michael W., Quetin, Gregory R., and Konings, Alexandra G., 2020. Data-driven estimates of evapotranspiration and its controls in the Congo Basin. Hydrology and Earth System Sciences, 24(8):4189–4211, doi:10.5194/hess-24-4189-2020.
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• Cáceres, Denise, Marzeion, Ben, Hendrik Malles, Jan, Gutknecht, Benjamin Daniel, Müller Schmied, Hannes, and Döll, Petra, 2020. Assessing global water mass transfers from continents to oceans over the period 1948-2016. Hydrology and Earth System Sciences, 24(10):4831–4851, doi:10.5194/hess-24-4831-2020.
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• Cadden, D. D. H., A study of the Indian Ocean response to ENSO and IOD using satellite observations. Ph.D. Thesis, University of South Carolina, 2009.
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• Cadio, C., Panet, I., Davaille, A., Diament, M., Métivier, L., and de Viron, O., 2011. Pacific geoid anomalies revisited in light of thermochemical oscillating domes in the lower mantle. Earth and Planetary Science Letters, 306:123–135, doi:10.1016/j.epsl.2011.03.040.
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• Cai, Lei, Aikio, Anita, Kullen, Anita, Deng, Yue, Zhang, Yongliang, Zhang, Shun-Rong, Virtanen, Ilkka, and Vanhamäki, Heikki, 2022. GeospaceLAB: Python package for managing and visualizing data in space physics. Frontiers in Astronomy and Space Sciences, 9:1023163, doi:10.3389/fspas.2022.1023163.
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• Calabia, A. and Jin, S., 2017. Thermospheric density estimation and responses to the March 2013 geomagnetic storm from GRACE GPS-determined precise orbits. Journal of Atmospheric and Solar-Terrestrial Physics, 154:167–179, doi:10.1016/j.jastp.2016.12.011.
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• Calabia, A. and Jin, S., 2016. New modes and mechanisms of thermospheric mass density variations from GRACE accelerometers. Journal of Geophysical Research (Space Physics), 121(A10):11, doi:10.1002/2016JA022594.
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• Calabia, Andres and Jin, Shuanggen, 2019. Solar cycle, seasonal, and asymmetric dependencies of thermospheric mass density disturbances due to magnetospheric forcing. Annales Geophysicae, 37(5):989–1003, doi:10.5194/angeo-37-989-2019.
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• Calabia, Andres, Tang, Geshi, and Jin, Shuanggen, 2020. Assessment of new thermospheric mass density model using NRLMSISE-00 model, GRACE, Swarm-C, and APOD observations. Journal of Atmospheric and Solar-Terrestrial Physics, 199:105207, doi:10.1016/j.jastp.2020.105207.
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• Cambiotti, G. and Sabadini, R., 2012. A source model for the great 2011 Tohoku earthquake (M$_w$=9.1) from inversion of GRACE gravity data. Earth and Planetary Science Letters, 335:72–79, doi:10.1016/j.epsl.2012.05.002.
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• Cambiotti, G. and Sabadini, R., 2013. Gravitational seismology retrieving Centroid-Moment-Tensor solution of the 2011 Tohoku earthquake. Journal of Geophysical Research (Solid Earth), 118:183–194, doi:10.1029/2012JB009555.
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• Chambers, D. P., 2011. ENSO-correlated fluctuations in ocean bottom pressure and wind-stress curl in the North Pacific. Ocean Science, 7:685–692, doi:10.5194/os-7-685-2011.
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• Chen, J. L., Tapley, B. D., and Wilson, C. R., 2006. Alaskan mountain glacial melting observed by satellite gravimetry. Earth and Planetary Science Letters, 248:368–378, doi:10.1016/j.epsl.2006.05.039.
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• Chen, J. L., Wilson, C. R., Blankenship, D. D., and Tapley, B. D., 2006. Antarctic mass rates from GRACE. Geophysical Research Letters, 33:11502–+, doi:10.1029/2006GL026369.
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• Chen, J. L., Wilson, C. R., and Tapley, B. D., 2006. Satellite Gravity Measurements Confirm Accelerated Melting of Greenland Ice Sheet. Science, 313:1958–1960, doi:10.1126/science.1129007.
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• Chen, J. L., Wilson, C. R., Famiglietti, J. S., and Rodell, M., 2007. Attenuation effect on seasonal basin-scale water storage changes from GRACE time-variable gravity. Journal of Geodesy, 81:237–245, doi:10.1007/s00190-006-0104-2.
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• Chen, J. L., Wilson, C. R., Tapley, B. D., and Grand, S., 2007. GRACE detects coseismic and postseismic deformation from the Sumatra-Andaman earthquake. Geophysical Research Letters, 34:13302–+, doi:10.1029/2007GL030356.
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• Chen, J. L., Wilson, C. R., Tapley, B. D., Blankenship, D. D., and Ivins, E. R., 2007. Patagonia Icefield melting observed by Gravity Recovery and Climate Experiment (GRACE). Geophysical Research Letters, 34:22501–+, doi:10.1029/2007GL031871.
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• Chen, J. L., Wilson, C. R., Tapley, B. D., Blankenship, D., and Young, D., 2008. Antarctic regional ice loss rates from GRACE. Earth and Planetary Science Letters, 266:140–148, doi:10.1016/j.epsl.2007.10.057.
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• Chen, J. L. and Wilson, C. R., 2008. Low degree gravity changes from GRACE, Earth rotation, geophysical models, and satellite laser ranging. Journal of Geophysical Research (Solid Earth), 113(B12):6402–+, doi:10.1029/2007JB005397.
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• Chen, J. L., Wilson, C. R., Tapley, B. D., Yang, Z. L., and Niu, G. Y., 2009. 2005 drought event in the Amazon River basin as measured by GRACE and estimated by climate models. Journal of Geophysical Research (Solid Earth), 114(B13):5404–+, doi:10.1029/2008JB006056.
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• Chen, J. L., Wilson, C. R., and Seo, K.-W., 2009. S_2 tide aliasing in GRACE time-variable gravity solutions. Journal of Geodesy, 83:679–687, doi:10.1007/s00190-008-0282-1.
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• Chen, J. L., Wilson, C. R., Blankenship, D., and Tapley, B. D., 2009. Accelerated Antarctic ice loss from satellite gravity measurements. Nature Geoscience, 2:859–862, doi:10.1038/ngeo694.
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• Chen, J., Bender, M., Beyerle, G., Dick, G., Falck, C., Ge, M., Gendt, G., Heise, S., Ramatschi, M., Schmidt, T., Stosius, R., and Wickert, J., 2010. GNSS Activities for Natural Disaster Monitoring and Climate Change Detection at GFZ – an Overview. In Chuvieco and Li, Yang (editors), Advances in Earth Observation of Global Change, pp. 159–172, Springer, Dordrecht, Heidelberg, London, New York.
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• Chen, J. and Wang, J., 2007. Reduced-Dynamic Precise Orbit Determination for Low Earth Orbiters Based on Helmert Transformation. Artificial Satellites, 42:155–165, doi:10.2478/v10018-0008-008-x.
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• Chen, Y., Recovery of terrestrial water storage change from low-low satellite-to-satellite tracking. Ph.D. Thesis, The Ohio State University, 2007.
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• Chen, J. L., Wilson, C. R., Tapley, B. D., Longuevergne, L., Yang, Z. L., and Scanlon, B. R., 2010. Recent La Plata basin drought conditions observed by satellite gravimetry. Journal of Geophysical Research (Atmospheres), 115(D14):22108–+, doi:10.1029/2010JD014689.
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• Chen, J. L., Wilson, C. R., and Tapley, B. D., 2010. The 2009 exceptional Amazon flood and interannual terrestrial water storage change observed by GRACE. Water Resources Research, 46:12526–+, doi:10.1029/2010WR009383.
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• Chen, J. L., Wilson, C. R., and Tapley, B. D., 2011. Interannual variability of Greenland ice losses from satellite gravimetry. Journal of Geophysical Research (Solid Earth), 116(B15):B07406, doi:10.1029/2010JB007789.
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• Chen, J. L., Wilson, C. R., and Zhou, Y. H., 2012. Seasonal excitation of polar motion. Journal of Geodynamics, 62:8–15, doi:10.1016/j.jog.2011.12.002.
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• Chen, J. L., Wilson, C. R., and Tapley, B. D., 2013. Contribution of ice sheet and mountain glacier melt to recent sea level rise. Nature Geoscience, 6:549–552, doi:10.1038/ngeo1829.
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• Chen, Y., Velicogna, I., Famiglietti, J. S., and Randerson, J. T., 2013. Satellite observations of terrestrial water storage provide early warning information about drought and fire season severity in the Amazon. Journal of Geophysical Research (Biogeosciences), 118:495–504, doi:10.1002/jgrg.20046.
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• Chen, J. L., Wilson, C. R., Ries, J. C., and Tapley, B. D., 2013. Rapid ice melting drives Earth's pole to the east. Geophysical Research Letters, 40:2625–2630, doi:10.1002/grl.50552.
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• Chen, H., Liu, H., and Hanada, T., 2014. Storm-time atmospheric density modeling using neural networks and its application in orbit propagation. Advances in Space Research, 53:558–567, doi:10.1016/j.asr.2013.11.052.
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• Chen, J., Li, J., Zhang, Z., and Ni, S., 2014. Long-term groundwater variations in Northwest India from satellite gravity measurements. Global and Planetary Change, 116:130–138, doi:10.1016/j.gloplacha.2014.02.007.
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• Chen, Q., Shen, Y., Zhang, X., Hsu, H., Chen, W., Ju, X., and Lou, L., 2015. Monthly gravity field models derived from GRACE Level 1B data using a modified short-arc approach. Journal of Geophysical Research (Solid Earth), 120:1804–1819, doi:10.1002/2014JB011470.
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• Chen, Q., Shen, Y., Chen, W., Zhang, X., Hsu, H., and Ju, X., 2015. A modified acceleration-based monthly gravity field solution from GRACE data. Geophysical Journal International, 202:1190–1206, doi:10.1093/gji/ggv220.
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• Chen, Q., Shen, Y., Zhang, X., Chen, W., and Hsu, H., 2015. Tongji-GRACE01: A GRACE-only static gravity field model recovered from GRACE Level-1B data using modified short arc approach. Advances in Space Research, 56:941–951, doi:10.1016/j.asr.2015.05.034.
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• Chen, J. L., Wilson, C. R., Li, J., and Zhang, Z., 2015. Reducing leakage error in GRACE-observed long-term ice mass change: a case study in West Antarctica. Journal of Geodesy, 89:925–940, doi:10.1007/s00190-015-0824-2.
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• Chen, J. L., Wilson, C. R., Tapley, B. D., Scanlon, B., and Güntner, A., 2016. Long-term groundwater storage change in Victoria, Australia from satellite gravity and in situ observations. Global and Planetary Change, 139:56–65, doi:10.1016/j.gloplacha.2016.01.002.
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• Chen, J., Famigliett, J. S., Scanlon, B. R., and Rodell, M., 2016. Groundwater Storage Changes: Present Status from GRACE Observations. Surveys in Geophysics, 37:397–417, doi:10.1007/s10712-015-9332-4.
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• Chen, J. L., Wilson, C. R., and Ries, J. C., 2016. Broadband assessment of degree-2 gravitational changes from GRACE and other estimates, 2002-2015. Journal of Geophysical Research (Solid Earth), 121:2112–2128, doi:10.1002/2015JB012708.
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• Chen, Q., Shen, Y., Chen, W., Zhang, X., and Hsu, H., 2016. An improved GRACE monthly gravity field solution by modeling the non-conservative acceleration and attitude observation errors. Journal of Geodesy, 90:503–523, doi:10.1007/s00190-016-0889-6.
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• Chen, Q., 2015. Analyzing and modeling environmental loading induced displacements with GPS and GRACE, Deutsche Geod. Kommission, Reihe C 752, pp. 131, Bayer. Akademie der Wissenschaften, Munich.
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• Chen, X., Long, D., Hong, Y., Zeng, C., and Yan, D., 2017. Improved modeling of snow and glacier melting by a progressive two-stage calibration strategy with GRACE and multisource data: How snow and glacier meltwater contributes to the runoff of the Upper Brahmaputra River basin?. Water Resources Research, 53:2431–2466, doi:10.1002/2016WR019656.
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• Chen, J. L., Wilson, C. R., Tapley, B. D., Save, H., and Cretaux, J.-F., 2017. Long-term and seasonal Caspian Sea level change from satellite gravity and altimeter measurements. Journal of Geophysical Research (Solid Earth), 122:2274–2290, doi:10.1002/2016JB013595.
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• Chen, W., Braitenberg, C., and Serpelloni, E., 2018. Interference of tectonic signals in subsurface hydrologic monitoring through gravity and GPS due to mountain building. Global and Planetary Change, 167:148–159, doi:10.1016/j.gloplacha.2018.05.003.
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• Chen, X., Jiang, J., and Li, H., 2018. Drought and Flood Monitoring of the Liao River Basin in Northeast China Using Extended GRACE Data. Remote Sensing, 10:1168, doi:10.3390/rs10081168.
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• Chen, Q., Shen, Y., Francis, O., Chen, W., Zhang, X., and Hsu, H., 2018. Tongji-Grace02s and Tongji-Grace02k: High-Precision Static GRACE-Only Global Earth's Gravity Field Models Derived by Refined Data Processing Strategies. Journal of Geophysical Research (Solid Earth), 123:6111–6137, doi:10.1029/2018JB015641.
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• Chen, Q., Poropat, L., Zhang, L., Dobslaw, H., Weigelt, M., and van Dam, T., 2018. Validation of the EGSIEM GRACE Gravity Fields Using GNSS Coordinate Timeseries and In-Situ Ocean Bottom Pressure Records. Remote Sensing, 10:1976, doi:10.3390/rs10121976.
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• Chen, J., Tapley, B., Save, H., Tamisiea, M. E., Bettadpur, S., and Ries, J., 2018. Quantification of Ocean Mass Change Using Gravity Recovery and Climate Experiment, Satellite Altimeter, and Argo Floats Observations. Journal of Geophysical Research (Solid Earth), 123(B12):10, doi:10.1029/2018JB016095.
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• Chen, Hao, Zhang, Wanchang, Nie, Ning, and Guo, Yuedong, 2019. Long-term groundwater storage variations estimated in the Songhua River Basin by using GRACE products, land surface models, and in-situ observations. Science of the Total Environment, 649:372–387, doi:10.1016/j.scitotenv.2018.08.352.
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• Chen, Qiujie, Shen, Yunzhong, Chen, Wu, Francis, Olivier, Zhang, Xingfu, Chen, Qiang, Li, Weiwei, and Chen, Tianyi, 2019. An Optimized Short-Arc Approach: Methodology and Application to Develop Refined Time Series of Tongji-Grace2018 GRACE Monthly Solutions. Journal of Geophysical Research (Solid Earth), 124(6):6010–6038, doi:10.1029/2018JB016596.
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• Chen, Zheng, Jiang, Weiguo, Wu, Jianjun, Chen, Kun, Deng, Yue, Jia, Kai, and Mo, Xinyu, 2017. Detection of the spatial patterns of water storage variation over China in recent 70 years. Scientific Reports, 7:6423, doi:10.1038/s41598-017-06558-5.
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• Chen, He, Liu, Li, and Jing, 2019. Downscaling of GRACE-Derived Groundwater Storage Based on the Random Forest Model. Remote Sensing, 11(24):2979, doi:10.3390/rs11242979.
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• Chen, Jianli, Tapley, Byron, Seo, Ki-Weon, Wilson, Clark, and Ries, John, 2019. Improved Quantification of Global Mean Ocean Mass Change Using GRACE Satellite Gravimetry Measurements. Geophysical Research Letters, 46(23):13,984–13,991, doi:10.1029/2019GL085519.
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• Chen, Xuhui, Jiang, Jinbao, Lei, Tianjie, and Yue, Chong, 2020. GRACE satellite monitoring and driving factors analysis of groundwater storage under high-intensity coal mining conditions: a case study of Ordos, northern Shaanxi and Shanxi, China. Hydrogeology Journal, 28(2):673–686, doi:10.1007/s10040-019-02101-0.
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• Chen, Jianli, Tapley, Byron, Wilson, Clark, Cazenave, Anny, Seo, Ki-Weon, and Kim, Jae-Seung, 2020. Global Ocean Mass Change From GRACE and GRACE Follow-On and Altimeter and Argo Measurements. Geophysical Research Letters, 47(22):e90656, doi:10.1029/2020GL090656.
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• Chen, Jianli, Tapley, Byron, Rodell, Matt, Seo, Ki-Weon, Wilson, Clark, Scanlon, Bridget R., and Pokhrel, Yadu, 2020. Basin-Scale River Runoff Estimation From GRACE Gravity Satellites, Climate Models, and In Situ Observations: A Case Study in the Amazon Basin. Water Resources Research, 56(10):e28032, doi:10.1029/2020WR028032.
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• Chen, Ajiao, Guan, Huade, Batelaan, Okke, Zhang, Xinping, and He, Xinguang, 2019. Global Soil Moisture-Air Temperature Coupling Based on GRACE-Derived Terrestrial Water Storage. Journal of Geophysical Research (Atmospheres), 124(14):7786–7796, doi:10.1029/2019JD030324.
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• Chen, Tianyi, Kusche, Jürgen, Shen, Yunzhong, and Chen, Qiujie, 2020. A Combined Use of TSVD and Tikhonov Regularization for Mass Flux Solution in Tibetan Plateau. Remote Sensing, 12(12):2045, doi:10.3390/rs12122045.
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• Chen, Qiujie, Shen, Yunzhong, Kusche, Jürgen, Chen, Wu, Chen, Tianyi, and Zhang, Xingfu, 2021. High-Resolution GRACE Monthly Spherical Harmonic Solutions. Journal of Geophysical Research (Solid Earth), 126(1):e18892, doi:10.1029/2019JB018892.
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• Chen, Jianli, Ries, John C., and Tapley, Byron D., 2021. Assessment of degree-2 order-1 gravitational changes from GRACE and GRACE Follow-on, Earth rotation, satellite laser ranging, and models. Journal of Geodesy, 95(4):38, doi:10.1007/s00190-021-01492-x.
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• Chen, Jianli, Tapley, Byron, Tamisiea, Mark E., Save, Himanshu, Wilson, Clark, Bettadpur, Srinivas, and Seo, Ki-Weon, 2021. Error Assessment of GRACE and GRACE Follow-On Mass Change. Journal of Geophysical Research (Solid Earth), 126(9):e22124, doi:10.1029/2021JB022124.
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• Chen, Weijing, Huang, Chunlin, and Yang, Zong-Liang, 2021. More severe drought detected by the assimilation of brightness temperature and terrestrial water storage anomalies in Texas during 2010-2013. Journal of Hydrology, 603:126802, doi:10.1016/j.jhydrol.2021.126802.
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• Chen, Zhiwei, Zheng, Wei, Yin, Wenjie, Li, Xiaoping, Zhang, Gangqiang, and Zhang, Jing, 2021. Improving the Spatial Resolution of GRACE-Derived Terrestrial Water Storage Changes in Small Areas Using the Machine Learning Spatial Downscaling Method. Remote Sensing, 13(23):4760, doi:10.3390/rs13234760.
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• Chen, Jianli, Cazenave, Anny, Dahle, Christoph, Llovel, William, Panet, Isabelle, Pfeffer, Julia, and Moreira, Lorena, 2022. Applications and Challenges of GRACE and GRACE Follow-On Satellite Gravimetry. Surveys in Geophysics, 43(1):305–345, doi:10.1007/s10712-021-09685-x.
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• Chen, Ajiao, Guan, Huade, and Batelaan, Okke, 2022. Non-linear interactions between vegetation and terrestrial water storage in Australia. Journal of Hydrology, 613:128336, doi:10.1016/j.jhydrol.2022.128336.
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• Chen, Ajiao, Guan, Huade, and Batelaan, Okke, 2021. Seesaw Terrestrial Wetting and Drying Between Eastern and Western Australia. Earth's Future, 9(5):e2020EF001893, doi:10.1029/2020EF001893.
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• Chen, Ajiao, Guan, Huade, and Batelaan, Okke, 2022. Spatially differentiated effects of local moisture deficit and increased global temperature on hot extreme occurrences. Journal of Hydrology, 615:128720, doi:10.1016/j.jhydrol.2022.128720.
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• Chen, Qiujie, Wang, Fengwei, Shen, Yunzhong, Zhang, Xingfu, Nie, Yufeng, and Chen, Jianhua, 2022. Monthly Gravity Field Solutions From Early LEO Satellites' Observations Contribute to Global Ocean Mass Change Estimates Over 1993\ensuremath\sim2004. Geophysical Research Letters, 49(21):e2022GL099917, doi:10.1029/2022GL099917.
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• Chen, Lei, Yang, Jiayan, and Wu, Lixin, 2023. Topography Effects on the Seasonal Variability of Ocean Bottom Pressure in the North Pacific Ocean. Journal of Physical Oceanography, 53(3):929–941, doi:10.1175/JPO-D-22-0140.1.
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• Chen, Zhiwei, Zheng, Wei, Yin, Wenjie, Li, Xiaoping, and Ma, Meihong, 2023. Improving Spatial Resolution of GRACE-Derived Water Storage Changes Based on Geographically Weighted Regression Downscaled Model. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 16:4261–4275, doi:10.1109/JSTARS.2023.3272916.
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• Chen, Wei, Xiong, Yuhao, Zhong, Min, Yang, Zihan, Shum, C. K., Li, Wenhao, Liang, Lei, and Li, Quanguo, 2023. Twenty-Year Spatiotemporal Variations of TWS over Mainland China Observed by GRACE and GRACE Follow-On Satellites. Atmosphere, 14(12):1717, doi:10.3390/atmos14121717.
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• Cheng, M. and Tapley, B. D., 2004. Variations in the Earth's oblateness during the past 28 years. Journal of Geophysical Research (Solid Earth), 109(B18):9402–+, doi:10.1029/2004JB003028.
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• Cheng, M. and Tapley, B. D., 1999. Seasonal variations in low degree zonal harmonics of the Earth's gravity field from satellite laser ranging observations. Journal of Geophysical Research (Solid Earth), 104:2667–2682, doi:10.1029/1998JB900036.
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• Cheng, M. K., 2002. Gravitational perturbation theory for intersatellite tracking. Journal of Geodesy, 76:169–185, doi:10.1007/s00190-001-0233-6.
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• Cheng, L. Y. and Xsu, H. Z., 2006. The rotation of the gravity potential on the Earth's gravity field recovery. Chinese Journal of Geophysics - Chinese Edition, 49:93–98.
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• Cheng, M., Ries, J. C., and Tapley, B. D., 2011. Variations of the Earth's figure axis from satellite laser ranging and GRACE. Journal of Geophysical Research (Solid Earth), 116(B15):1409–+, doi:10.1029/2010JB000850.
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• Cheng, X., Li, L., Du, Y., Wang, J., and Huang, R.-X., 2013. Mass-induced sea level change in the northwestern North Pacific and its contribution to total sea level change. Geophysical Research Letters, 40:3975–3980, doi:10.1002/grl.50748.
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• Cheng, M. and Ries, J., 2017. The unexpected signal in GRACE estimates of C_$\$20$\$. Journal of Geodesy, 91:897–914, doi:10.1007/s00190-016-0995-5.
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• Cheng, Xuhua, Ou, Niansen, Chen, Jiajia, and Huang, Rui Xin, 2021. On the seasonal variations of ocean bottom pressure in the world oceans. Geoscience Letters, 8(1):29, doi:10.1186/s40562-021-00199-3.
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• Cheng, Minkang and Ries, John, 2023. C$_20$ and C$_30$ Variations From SLR for GRACE/GRACE-FO Science Applications. Journal of Geophysical Research (Solid Earth), 128(2):e2022JB025459, doi:10.1029/2022JB025459.
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• Cherniak, I. and Zakharenkova, I., 2016. High-latitude ionospheric irregularities: differences between ground- and space-based GPS measurements during the 2015 St. Patrick's Day storm. Earth, Planets, and Space, 68:136, doi:10.1186/s40623-016-0506-1.
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• Chew, C. C. and Small, E. E., 2014. Terrestrial water storage response to the 2012 drought estimated from GPS vertical position anomalies. Geophysical Research Letters, 41:6145–6151, doi:10.1002/2014GL061206.
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• Chi, Haewon, Seo, Hocheol, and Kim, Yeonjoo, 2024. Hydrological trends captured by assimilating GRACE total water storage data into the CLM5-BGC model. Journal of Hydrology, 629:130527, doi:10.1016/j.jhydrol.2023.130527.
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• Choi, Sungchan, Oh, Chang-Whan, and Luehr, Herrmann, 2006. Tectonic relation between northeastern China and the Korean peninsula revealed by interpretation of GRACE satellite gravity data. Gondwana Research, 9(1-2):62–67, doi:10.1016/j.gr.2005.06.002.
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• Christophe, B., Boulanger, D., Foulon, B., Huynh, P.-A., Lebat, V., Liorzou, F., and Perrot, E., 2015. A new generation of ultra-sensitive electrostatic accelerometers for GRACE Follow-on and towards the next generation gravity missions. Acta Astronautica, 117:1–7, doi:10.1016/j.actaastro.2015.06.021.
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• Chu, Jiangdong, Su, Xiaoling, Jiang, Tianliang, Qi, Jixia, Zhang, Gengxi, and Wu, Haijiang, 2023. Filling the gap between GRACE and GRACE-FO data using a model integrating variational mode decomposition and long short-term memory: a case study of Northwest China. Environmental Earth Sciences, 82(1):38, doi:10.1007/s12665-022-10716-y.
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• Ciracì, E., Velicogna, I., and Sutterley, T., 2018. Mass Balance of Novaya Zemlya Archipelago, Russian High Arctic, Using Time-Variable Gravity from GRACE and Altimetry Data from ICESat and CryoSat-2. Remote Sensing, 10:1817, doi:10.3390/rs10111817.
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• Ciufolini, I., Pavlis, E. C., and Peron, R., 2006. Determination of frame-dragging using Earth gravity models from CHAMP and GRACE. New Astronomy, 11:527–550, doi:10.1016/j.newast.2006.02.001.
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• Ciufolini, I. and Pavlis, E. C., 2004. A confirmation of the general relativistic prediction of the Lense-Thirring effect. Nature, 431:958–960, doi:10.1038/nature03007.
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• Ciufolini, I., Paolozzi, A., Pavlis, E. C., Ries, J. C., Koenig, R., Matzner, R. A., Sindoni, G., and Neumayer, H., 2009. Towards a One Percent Measurement of Frame Dragging by Spin with Satellite Laser Ranging to LAGEOS, LAGEOS 2 and LARES and GRACE Gravity Models. Space Science Reviews, 148:71–104, doi:10.1007/s11214-009-9585-7.
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• Eicker, A., Forootan, E., Springer, A., Longuevergne, L., and Kusche, J., 2016. Does GRACE see the terrestrial water cycle ''intensifying''?. Journal of Geophysical Research (Atmospheres), 121:733–745, doi:10.1002/2015JD023808.
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• Eicker, A. and Springer, A., 2016. Monthly and sub-monthly hydrological variability: in-orbit validation by GRACE level 1B observations. Journal of Geodesy, 90:573–584, doi:10.1007/s00190-016-0895-8.
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• Eicker, Annette, Jensen, Laura, Wöhnke, Viviana, Dobslaw, Henryk, Kvas, Andreas, Mayer-Gürr, Torsten, and Dill, Robert, 2020. Daily GRACE satellite data evaluate short-term hydro-meteorological fluxes from global atmospheric reanalyses. Scientific Reports, 10:4504, doi:10.1038/s41598-020-61166-0.
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