Abstract
After about 6 years of GRACE (Gravity Recovery and Climate Experiment) satellite mission operation, an unprecedented global data set on the spatio-temporal variations of the Earth’s water storage is available. The data allow for a better understanding of the water cycle at the global scale and for large river basins. This review summarizes the experiences that have been made when comparing GRACE data with simulation results of global hydrological models and it points out the prerequisites and perspectives for model improvements by combination with GRACE data. When evaluated qualitatively at the global scale, water storage variations on the continents from GRACE agreed reasonably well with model predictions in terms of their general seasonal dynamics and continental-scale spatial patterns. Differences in amplitudes and phases of water storage dynamics revealed in more detailed analyses were mainly attributed to deficiencies in the meteorological model forcing data, to missing water storage compartments in the model, but also to limitations and errors of the GRACE data. Studies that transformed previously identified model deficiencies into adequate modifications of the model structure or parameters are still rare. Prerequisites for a comprehensive improvement of large-scale hydrological models are in particular the consistency of GRACE observation and model variables in terms of filtering, reliable error estimates, and a full assessment of the water balance. Using improvements in GRACE processing techniques, complementary observation data, multi-model evaluations and advanced methods of multi-objective calibration and data assimilation, considerable progress in large-scale hydrological modelling by integration of GRACE data can be expected.
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References
Andersen OB, Hinderer J (2005) Global inter-annual gravity changes from GRACE: early results. Geophys Res Lett 32:L01402. doi:10.1029/2004GL020948
Andersen OB, Seneviratne SI, Hinderer J, Viterbo P (2005) GRACE-derived terrestrial water storage depletion associated with the 2003 European heat wave. Geophys Res Lett 32:L18405. doi:10.1029/2005GL023574
Arnell NW (1999) A simple water balance model for the simulation of streamflow over a large geographic domain. J Hydrol 217:314–335
Bastidas LA, Gupta HV, Sorooshian S (2002) Emerging paradigms in the calibration of hydrogloical models. In: Singh VP, Frevert DK (eds) Mathematical model of large watershed hydrology. Water Resources Publications, LLC, Highlands Ranch, pp 25–66
Beven KJ, Binley A (1992) The future of distributed models: model calibration and uncertainty predictions. Hydrol Process 6:349–368
Boronina A, Ramillien G (2008) Application of AVHRR imagery and GRACE measurements for calculation of actual evapotranspiration over the Quaternary aquifer (Lake Chad basin) abd validation of groundwater models. J Hydrol 348:98–109
Chen JL, Rodell M, Wilson CR, Famiglietti JS (2005a) Low degree spherical harmonic influences on gravity recovery and climate experiment (GRACE) water storage estimates. Geophys Res Lett 32:L14405. doi:10.1029/2005GL022964
Chen JL, Wilson CR, Famiglietti JS, Rodell M (2005b) Spatial sensitivity of gravity recovery and climate experiment (GRACE) time-variable gravity observations. J Geophys Res 110:B08408. doi:10.1029/2004JB003536
Chen JL, Wilcox CR, Seo KW (2006) Optimized smoothing of gravity recovery and climate experiment (GRACE) time-variable gravity observations. J Geophys Res 111:B06408
Chen JL, Wilson CR, Famiglietti JS, Rodell M (2007) Attenuation effect on seasonal basin-scale water storage changes from GRACE time-variable gravity. J Geodesy 81(4):237–245
Crowley JW, Mitrovica JX, Bailey RC, Tamisiea ME, Davis JL (2008) Annual variations in water storage and precipitation in the Amazon basin. J Geodesy 82:9–13
Dirmeyer PA, Gao X, Zhao M, Guo Z, Oki T, Hanasaki N (2006) GSWP-2: multimodel analysis and implications for our perception of the land surface. Bull Am Meteorol Soc 87:1381–1397
Döll P, Kaspar F, Lehner B (2003) A global hydrological model for deriving water availability indicators: model tuning and validation. J Hydrol 270:105–134
Fekete BM, Vorosmarty CJ, Grabs W (2002) High-resolution fields of global runoff combining observed river discharge and simulated water balance. Glob Biochem Cycles 16(3):1042. doi:10.1029/1999GB001254
Fengler MJ, Freeden W, Kohlhaas A, Michel V, Peters T (2007) Wavelet modeling of regional and temporal variations of the earth’s gravitational potential observed by GRACE. J Geodesy 81(1):5–15
Frappart F, Ramillien G, Biancamaria S, Mognard NM, Cazenave A (2006) Evolution of high-latitude snow mass derived from the GRACE gravimetry mission (2002–2004). Geophys Res Lett 33:L02501. doi:10.1029/2005GL024778
Güntner A, Schmidt R, Döll P (2007a) Supporting large-scale hydrogeological monitoring and modelling by time-variable gravity data. Hydrogeol J 15(1):167–170
Güntner A, Stuck J, Werth S, Döll P, Verzano K, Merz B (2007b) A global analysis of temporal and spatial variations in continental water storage. Water Resour Res 43(5):W05416. doi:10.1029/2006WR005247
Güntner A, Werth S, Schmidt R, Petrovic S, Wünsch J, Barthelmes F (2007c) Multi-objective calibration of a global hydrology model using GRACE water storage variations. In: Eos Trans AGU, 88(52), Fall Meet Suppl, Abstract H31A-0124
Han SC, Shum CK, Braun A (2005a) High-resolution continental water storage recovery from low-low satellite-to-satellite tracking. J Geodyn 39(1):11–28
Han SC, Shum CK, Jekeli C, Alsdorf D (2005b) Improved estimation of terrestrial water storage changes from GRACE. Geophys Res Lett 32(7):1–5
Han SC, Shum CK, Jekeli C, Kuo CY, Wilson C, Seo KW (2005c) Non-isotropic filtering of GRACE temporal gravity for geophysical signal enhancement. Geophys J Int 163:18–25
Hanasaki N, Kanae S, Oki T, Masuda K, Motoya K, Shen Y, Tanaka K (2007) An integrated model for the assessment of global water resources—part 1: input meteorological forcing and natural hydrological cycle modules. Hydrol Earth Syst Sci Discuss 4:3535–3582
Hinderer J, Andersen O, Lemoine F, Crossley D, Boy JP (2006) Seasonal changes in the European gravity field from GRACE: a comparison with superconducting gravimeters and hydrology model predictions. J Geodyn 41:59–68
Hirschi M, Seneviratne SI, Schär C (2006) Seasonal variations in terrestrial water storage for major mid-latitude river basins. J Hydrometeorol 7(1):39–60
Horwath M, Dietrich R (2006) Errors of regional mass variations inferred from GRACE monthly solutions. Geophys Res Lett 33:L07502
Hu XG, Chen JL, Zhou YH, Huang C, Liao XH (2006) Seasonal water storage change of the Yangtze River basin detected by GRACE. Sci China Ser D Earth Sci 49(5):483–491
Hunger M, Döll P (2007) Value of river discharge data for global-sale hydrological modeling. Hydrol Earth Syst Sci Discuss 4:4125–4173
Jung M, Le Maire G, Zaehle S, Luyssaert S, Vetter M, Churkina G, Ciais P, Viovy N, Reichstein M (2007) Assessing the ability of three land ecosystem models to simulate gross carbon uptake of forests from boreal to Mediterranean climate in Europe. Biogeosciences 4(4):647–656
Klees R, Zapreeva EA, Winsemius HC, Savenije HHG (2007) The bias in GRACE estimates of continental water storage variations. Hydrol Earth Syst Sci 11(4):1227–1241
Kusche J (2007) Approximate decorrelation and non-isotropic smoothing of time-variable GRACE-type gravity field models. J Geodesy 81(11):733–749
Lettenmaier DP, Famiglietti JS (2006) Hydrology—water from on high. Nature 444(7119):562–563
Liang X, Lettenmaier DP, Wood EF, Burges SJ (1994) A simple hydrologically based model of land surface and energy fluxes for general circulation models. J Geophys Res 99(D7):14415–14428
Luthcke SB, Rowlands DD, Lemoine FG, Klosko SM, Chinn D, McCarthy JJ (2006) Monthly spherical harmonic gravity field solutions determined from GRACE inter-satellite range-rate data alone. Geophys Res Lett 33:L02402. doi:10.1029/2005GL024846
Milly PCD, Dunne KA (2002) Macroscale water fluxes: 1. Quantifying errors in the estimation of basin mean precipitation. Water Resour Res 38(10):23.1–23.14
Milly PCD, Shmakin AB (2002) Global modeling of land water and energy balances. Part I: the land dynamics (LaD) model. J Hydrometeorol 3(3):283–299
Ngo-Duc T, Polcher J, Laval K (2005) A 53-year forcing data set for land surface models. J Geophys Res D: Atmospheres 110:D06116. doi:10.1029/2004JD005434
Ngo-Duc T, Laval K, Ramillien G, Polcher J, Cazenave A (2007) Validation of the land water storage simulated by organising carbon and hydrology in dynamic ecosystems (ORCHIDEE) with gravity recovery and climate experiment (GRACE) data. Water Resour Res 43(4):W04427. doi:10.1029/2006WR004941
Nijssen B, O’Donnell GM, Lettenmaier DP, Lohmann D, Wood EF (2001) Prediciting the discharge of global rivers. J Clim 14:3307–3323
Niu G-Y, Yang Z-L (2006a) Assessing a land surface model’s improvements with GRACE estimates. Geophys Res Lett 33:L07401
Niu GY, Yang ZL (2006b) Effects of frozen soil on snowmelt runoff and soil water storage at a continental scale. J Hydrometeorol 7(5):937–952
Niu G-Y, Seo KW, Yang Z-L, Wilson C, Su H, Chen J, Rodell M (2007a) Retrieving snow mass from GRACE terrestrial water storage change with a land surface model. Geophys Res Lett 34:L15704. doi:10.1029/2007GL030413
Niu GY, Yang ZL, Dickinson RE, Gulden LE, Su H (2007b) Development of a simple groundwater model for use in climate models and evaluation with gravity recovery and climate experiment data. J Geophys Res-Atmospheres 112(D7). doi:10.1029/2006JD007522
Ramillien G, Frappart F, Cazenave A, Güntner A (2005) Time variation of land water storage from an inversion of 2 years of GRACE geoids. Earth Planet Sci Lett 235:283–301
Ramillien G, Frappart F, Güntner A, Ngo-Duc T, Cazenave A, Laval K (2006) Time-variations of the regional evapotranspiration rate from gravity recovery and climate experiment (GRACE) satellite gravimetry. Water Resour Res 42:W10403
Rangelova E, van der Wal W, Braun A, Sideris MG, Wu P (2007) Analysis of gravity recovery and climate experiment time-variable mass redistribution signals over North America by means of principal component analysis. J Geophys Res Earth Surf 112(F3):F03002. doi:10.1029/2006JF000615
Reichle RH, Crow WT, Keppenne CL (2008) An adaptive ensemble Kalman filter for soil moisture data assimilation. Water Resour Res 44:W03423
Rodell M, Famiglietti JS, Chen J, Seneviratne SI, Viterbo P, Holl S, Wilson CR (2004) Basin scale estimates of evapotranspiration using GRACE and other observations. Geophys Res Lett 31:L20504. doi:10.1029/2004GL020873
Rodell M, Zaitchik BF, Reichle RH (2007a) Assimilation of GRACE dervied terrestrial water storage data into a hydrological model. In: Eos Trans AGU, 88(52), Fall Meet Suppl, Abstract G31A-04
Rodell M, Chen JL, Kato H, Famiglietti JS, Nigro J, Wilson CR (2007b) Estimating groundwater storage changes in the Mississippi River basin (USA) using GRACE. Hydrogeol J 15(1):159–166
Roerink GJ, Su Z, Menenti M (2000) S-SEBI: a simple remote sensing algorithm to estimate the surface energy balance. Phys Chem Earth B 25(2):147–157
Rowlands DD, Luthcke SB, Klosko SM, Lemoine FG, Chinn DS, McCarthy JJ, Cox CM, Anderson OB (2005) Resolving mass flux at high spatial and temporal resolution using GRACE intersatellite measurements. Geophys Res Lett 32:L04310
Schmidt M, Han SC, Kusche J, Sanchez L, Shum CK (2006a) Regional high-resolution spatiotemporal gravity modeling from GRACE data using spherical wavelets. Geophys Res Lett 33(8):L08403. doi:10.1029/2005GL025509
Schmidt R, Schwintzer P, Flechtner F, Reigber C, Güntner A, Döll P, Ramillien G, Cazenave A, Petrovic S, Jochmann H, Wünsch J (2006b) GRACE observations of changes in continental water storage. Glob Planet Change 50(1–2):112–126
Schmidt R, Flechtner F, Güntner A, König R, Meyer U, Neumayer K-H, Reigber C, Rothacher M, Petrovic S, Zhu S-Y (2007) GRACE time-variable gravity accuracy assessment. In: Rizos C, Tregoning P (eds) Dynamic planet—monitoring and understanding a dynamic planet with geodetic and oceanographic tools. Springer, Berlin, August 22–27, 2005, pp 237–243
Schmidt R, Petrovic S, Güntner A, Barthelmes F, Wünsch J (2008a) Periodic components of water storage changes from GRACE and global hydrology models. J Geophys Res: Solid Earth. doi:10.1029/2007JB005363
Schmidt R, Flechtner F, Meyer U, Neumayer K-H, Dahle C, König R, Kusche J (2008b) Hydrological signals observed by the GRACE satellite mission. Surv Geophys. doi:10.1007/s10712-008-9033-3
Schrama EJO, Wouters B, Lavallée DA (2007) Signal and noise in gravity recovery and climate experiment (GRACE) observed surface mass variations. J Geophys Res B: Solid Earth 112:B08407
Seneviratne SI, Viterbo P, Lüthi D, Schär C (2004) Inferring changes in terrestrial water storage using ERA-40 reanalysis data: the Mississippi River basin. J Clim 17:2039–2057
Seo KW, Wilson CR, Famiglietti JS, Chen JL, Rodell M (2006) Terrestrial water mass load changes from gravity recovery and climate experiment (GRACE). Water Resour Res 42(5):W05417. doi:10.1029/2005WR004255
Sheffield J, Goteti G, Wood EF (2006) Development of a 50-year high resolution global dataset of meterological forcings for land surface modeling. J Clim 19:3088–3111
Steffen H, Denker H, Müller J (2008) Glacial isostatic adjustment in Fennoscandia from GRACE data and comparison with geodynamical models. J Geodyn. doi:10.1016/j.jog.2008.03.002
Swenson SC, Milly PCD (2006) Climate model biases in seasonality of continental water storage revealed by satellite gravimetry. Water Resour Res 42:W03201. doi:10.1029/2005WR004628
Swenson S, Wahr J (2002) Methods for inferring regional surface-mass anomalies from gravity recovery and climate experiment (GRACE) measurements of time-variable gravity. J Geophys Res 107(B9):2193
Swenson S, Wahr J (2006) Estimating large-scale precipitation minus evapotranspiration from GRACE satellite gravity measurements. J Hydrometeorol 7(2):252–270
Swenson S, Wahr J (2007) Multi-sensor analysis of water storage variations of the Caspian Sea. Geophys Res Lett 34(16):L16401. doi:10.1029/2007GL030733
Swenson S, Wahr J, Milly PCD (2003) Estimated accuracies of regional water storage variations inferred from the gravity recovery and climate experiment (GRACE). Water Resour Res 39(8):1223. doi:10.1029/2002WR001808
Syed TH, Famiglietti JS, Zlotnicki V, Rodell M (2007) Contemporary estimates of Pan-Arctic freshwater discharge from GRACE and reanalysis. Geophys Res Lett 34(19):L19404. doi:10.1029/2007GL031254
Syed TH, Famiglietti JS, Rodell M, Chen J, Wilson CR (2008) Analysis of terrestrial water storage changes from GRACE and GLDAS. Water Resour Res 44:W02433. doi:10.1029/2006WR005779
Tapley BD, Bettadpur SV, Watkins M, Reigber C (2004a) The gravity recovery and climate experiment: mission overview and early results. Geophys Res Lett 31:L09607. doi:10.1029/2004GL019920
Tapley BD, Bettadpur SV, Ries JC, Thompson PF, Watkins MM (2004b) GRACE measurements of mass variability in the Earth system. Science 305:503–505
Wahr J, Swenson S, Zlotnicki V, Velicogna I (2004) Time-variable gravity from GRACE: first results. Geophys Res Lett 31:L11501. doi:10.1029/2004GL019779
Wahr J, Swenson S, Velicogna I (2006) Accuracy of GRACE mass estimates. Geophys Res Lett 33:L06401
Werth S, Güntner A, Schmidt R, Kusche J (2008) Evaluation of GRACE filter tools from a hydrological perspective. Geophys J Int (submitted)
Widen-Nilsson E, Halldin S, Xu CY (2007) Global water-balance modelling with WASMOD-M: parameter estimation and regionalisation. J Hydrol 340(1–2):105–118
Winsemius HC, Savenije HHG, Van de Giesen N, Van den Hurk BJJM, Zapreeva EA, Klees R (2006) Assessment of gravity recovery and climate experiment (GRACE) temporal signature over the upper Zambezi. Water Resour Res 42:W12201
Wood EF, Lettenmaier DP, Liang X, Lohmann D, Boone A, Chang S, Chen F, Dai YJ, Dickinson RE, Duan QY, Ek M, Gusev YM, Habets F, Irannejad P, Koster R, Mitchel KE, Nasonova ON, Noilhan J, Schaake J, Schlosser A, Shao YP, Shmakin AB, Verseghy D, Warrach K, Wetzel P, Xue YK, Yang ZL, Zeng QC (1998) The project for intercomparison of land-surface parameterization schemes (PILPS) phase 2(c) Red-Arkansas River basin experiment: 1. Experiment description and summary intercomparisons. Glob Planet Change 19(1–4):115–135
Yamamoto K, Fukuda Y, Nakaegawa T, Nishijima J (2007) Landwater variation in four major river basins of the Indochina peninsula as revealed by GRACE. Earth Planets Space 59(4):193–200
Yeh PJF, Swenson SC, Famiglietti JS, Rodell M (2006) Remote sensing of groundwater storage changes in Illinois using the gravity recovery and climate experiment (GRACE). Water Resour Res 42(12):W12203. doi:10.1029/2006WR005374
Zeng N, Yoon JH, Mariotti A, Swenson S (2008) Variability of basin-scale terrestrial water storage from a PER water budget method: the Amazon and the Mississippi. J Clim 21:248–265
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Güntner, A. Improvement of Global Hydrological Models Using GRACE Data. Surv Geophys 29, 375–397 (2008). https://doi.org/10.1007/s10712-008-9038-y
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DOI: https://doi.org/10.1007/s10712-008-9038-y