Tracking Seasonal Fluctuations in Land Water Storage Using Global Models and GRACE Satellites

B. R. Scanlon; Z. Zhang; A. Rateb; A. Sun; D. Wiese; H. Save; H. Beaudoing; M. H. Lo; H. Müller-Schmied; P. Döll; R. van Beek; S. Swenson; D. Lawrence; M. Croteau; R. C. Reedy

doi:10.1029/2018GL081836

Tracking Seasonal Fluctuations in Land Water Storage Using Global Models and GRACE Satellites

B. R. Scanlon, Z. Zhang, A. Rateb, A. Sun, D. Wiese, H. Save, H. Beaudoing, M. H. Lo, H. Müller-Schmied, P. Döll, R. van Beek, S. Swenson, D. Lawrence, M. Croteau, R. C. Reedy

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Abstract

Seasonal water storage fluctuations are critical for evaluating water scarcity linked to climate forcing and human intervention. Here we compare seasonal changes in land total water storage anomalies using seven global hydrologic and land surface models (WGHM, PCR-GLOBWB, and five GLDAS models) to GRACE satellite data in 183 river basins globally. This work builds on previous analysis that focused on total water storage anomaly trends. Results show that most models underestimate seasonal water storage amplitudes in tropical and (semi)arid basins and land surface models generally overestimate amplitudes in northern basins. Some models (CLM-5.0 and PCR-GLOBWB) agree better with GRACE than others. Causes of model-GRACE discrepancies are attributed to missing storage compartments (e.g., surface water and/or groundwater) and underestimation of modeled storage capacities in tropical basins and to variations in modeled fluxes in northern basins. This study underscores the importance of considering water storage, in addition to water fluxes, to improve global models.

Original language	English
Pages (from-to)	5254-5264
Number of pages	11
Journal	Geophysical Research Letters
Volume	46
Issue number	10
DOIs	https://doi.org/10.1029/2018GL081836
State	Published - May 28 2019

Keywords

GRACE satellite data
global hydrologic models
global models
land surface models
seasonal water storage

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10.1029/2018GL081836

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Scanlon, B. R., Zhang, Z., Rateb, A., Sun, A., Wiese, D., Save, H., Beaudoing, H., Lo, M. H., Müller-Schmied, H., Döll, P., van Beek, R., Swenson, S., Lawrence, D., Croteau, M., & Reedy, R. C. (2019). Tracking Seasonal Fluctuations in Land Water Storage Using Global Models and GRACE Satellites. Geophysical Research Letters, 46(10), 5254-5264. https://doi.org/10.1029/2018GL081836

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title = "Tracking Seasonal Fluctuations in Land Water Storage Using Global Models and GRACE Satellites",

abstract = "Seasonal water storage fluctuations are critical for evaluating water scarcity linked to climate forcing and human intervention. Here we compare seasonal changes in land total water storage anomalies using seven global hydrologic and land surface models (WGHM, PCR-GLOBWB, and five GLDAS models) to GRACE satellite data in 183 river basins globally. This work builds on previous analysis that focused on total water storage anomaly trends. Results show that most models underestimate seasonal water storage amplitudes in tropical and (semi)arid basins and land surface models generally overestimate amplitudes in northern basins. Some models (CLM-5.0 and PCR-GLOBWB) agree better with GRACE than others. Causes of model-GRACE discrepancies are attributed to missing storage compartments (e.g., surface water and/or groundwater) and underestimation of modeled storage capacities in tropical basins and to variations in modeled fluxes in northern basins. This study underscores the importance of considering water storage, in addition to water fluxes, to improve global models.",

keywords = "GRACE satellite data, global hydrologic models, global models, land surface models, seasonal water storage",

author = "Scanlon, \{B. R.\} and Z. Zhang and A. Rateb and A. Sun and D. Wiese and H. Save and H. Beaudoing and Lo, \{M. H.\} and H. M{\"u}ller-Schmied and P. D{\"o}ll and \{van Beek\}, R. and S. Swenson and D. Lawrence and M. Croteau and Reedy, \{R. C.\}",

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doi = "10.1029/2018GL081836",

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journal = "Geophysical Research Letters",

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Scanlon, BR, Zhang, Z, Rateb, A, Sun, A, Wiese, D, Save, H, Beaudoing, H, Lo, MH, Müller-Schmied, H, Döll, P, van Beek, R, Swenson, S , Lawrence, D, Croteau, M & Reedy, RC 2019, 'Tracking Seasonal Fluctuations in Land Water Storage Using Global Models and GRACE Satellites', Geophysical Research Letters, vol. 46, no. 10, pp. 5254-5264. https://doi.org/10.1029/2018GL081836

TY - JOUR

T1 - Tracking Seasonal Fluctuations in Land Water Storage Using Global Models and GRACE Satellites

AU - Scanlon, B. R.

AU - Zhang, Z.

AU - Rateb, A.

AU - Sun, A.

AU - Wiese, D.

AU - Save, H.

AU - Beaudoing, H.

AU - Lo, M. H.

AU - Müller-Schmied, H.

AU - Döll, P.

AU - van Beek, R.

AU - Swenson, S.

AU - Lawrence, D.

AU - Croteau, M.

AU - Reedy, R. C.

PY - 2019/5/28

Y1 - 2019/5/28

N2 - Seasonal water storage fluctuations are critical for evaluating water scarcity linked to climate forcing and human intervention. Here we compare seasonal changes in land total water storage anomalies using seven global hydrologic and land surface models (WGHM, PCR-GLOBWB, and five GLDAS models) to GRACE satellite data in 183 river basins globally. This work builds on previous analysis that focused on total water storage anomaly trends. Results show that most models underestimate seasonal water storage amplitudes in tropical and (semi)arid basins and land surface models generally overestimate amplitudes in northern basins. Some models (CLM-5.0 and PCR-GLOBWB) agree better with GRACE than others. Causes of model-GRACE discrepancies are attributed to missing storage compartments (e.g., surface water and/or groundwater) and underestimation of modeled storage capacities in tropical basins and to variations in modeled fluxes in northern basins. This study underscores the importance of considering water storage, in addition to water fluxes, to improve global models.

AB - Seasonal water storage fluctuations are critical for evaluating water scarcity linked to climate forcing and human intervention. Here we compare seasonal changes in land total water storage anomalies using seven global hydrologic and land surface models (WGHM, PCR-GLOBWB, and five GLDAS models) to GRACE satellite data in 183 river basins globally. This work builds on previous analysis that focused on total water storage anomaly trends. Results show that most models underestimate seasonal water storage amplitudes in tropical and (semi)arid basins and land surface models generally overestimate amplitudes in northern basins. Some models (CLM-5.0 and PCR-GLOBWB) agree better with GRACE than others. Causes of model-GRACE discrepancies are attributed to missing storage compartments (e.g., surface water and/or groundwater) and underestimation of modeled storage capacities in tropical basins and to variations in modeled fluxes in northern basins. This study underscores the importance of considering water storage, in addition to water fluxes, to improve global models.

KW - GRACE satellite data

KW - global hydrologic models

KW - global models

KW - land surface models

KW - seasonal water storage

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DO - 10.1029/2018GL081836

M3 - Article

AN - SCOPUS:85066009650

SN - 0094-8276

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EP - 5264

JO - Geophysical Research Letters

JF - Geophysical Research Letters

IS - 10

ER -

Tracking Seasonal Fluctuations in Land Water Storage Using Global Models and GRACE Satellites

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Keywords

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