Benefits and Pitfalls of GRACE and Streamflow Assimilation for Improving the Streamflow Simulations of the WaterGAP Global Hydrology Model

IF 4.4 2区 地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES
K. Schulze, J. Kusche, H. Gerdener, P. Döll, H. Müller Schmied
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Abstract

Distribution and change of freshwater resources is often simulated with global hydrological models. However, owing to process representation limitations and forcing data uncertainties, these model simulations have shortcomings. Combining them with observations via data assimilation, for example, with data from the Gravity Recovery and Climate Experiment (GRACE) mission or streamflow measured at in situ stations is considered to improve the realism of the simulations. We assimilate gridded total water storage anomaly (TWSA) from GRACE into the WaterGAP Global Hydrology Model (WGHM) over the Mississippi River basin via an Ensemble Kalman Filter. Our results agree with previous studies where assimilating GRACE observations nudges TWSA simulations closer to the observations, reducing the root mean square error (RMSE) by 21% compared to an uncalibrated model. However, simulations of streamflow show degeneration at more than 90% of all gauge stations for metrics such as RMSE and correlations; only the annual phase of simulated streamflow improves at half the stations. Therefore, for the first time, we instead assimilated streamflow observations into the WGHM, which improved simulated streamflow at up to nearly 80% of the stations, with normalized RMSE showing improvements of up to 0.1, while TWSA was well-simulated in all metrics. Combining both approaches, that is, jointly assimilating GRACE-derived TWSA and streamflow observations, leads to a trade-off between a good fit of both variables albeit skewed to the GRACE observations. Overall, we speculate that our findings point to limitations of process representation in WGHM hindering consistent flux simulation from the storage history, especially in dry regions.

Abstract Image

GRACE 和流场同化对改进 WaterGAP 全球水文模型流场模拟的益处和缺陷
淡水资源的分布和变化通常由全球水文模型模拟。然而,由于过程表示的局限性和强迫数据的不确定性,这些模型模拟存在缺陷。通过数据同化将模型与观测数据相结合,例如重力恢复与气候实验(GRACE)任务提供的数据或在原位站测量的流量,可提高模拟的真实性。我们通过集合卡尔曼滤波器将来自 GRACE 的网格总蓄水异常(TWSA)同化到密西西比河流域的 WaterGAP 全球水文模型(WGHM)中。我们的研究结果与之前的研究结果一致,即同化 GRACE 观测数据使 TWSA 模拟更接近观测数据,与未校准模型相比,均方根误差 (RMSE) 降低了 21%。然而,在 RMSE 和相关性等指标上,超过 90% 的测站的模拟流量都有所下降;只有一半测站的模拟流量年相有所改善。因此,我们首次将流量观测数据同化到 WGHM 中,这改善了近 80% 测站的模拟流量,归一化均方根误差(RMSE)最多改善了 0.1,而 TWSA 在所有指标上都模拟得很好。将这两种方法结合起来,即联合同化源自 GRACE 的 TWSA 和流场观测数据,可以在两个变量的良好拟合(尽管偏向 GRACE 观测数据)之间进行权衡。总之,我们推测我们的研究结果表明,WGHM 中过程表示的局限性阻碍了根据存储历史进行一致的流量模拟,尤其是在干旱地区。
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来源期刊
Journal of Advances in Modeling Earth Systems
Journal of Advances in Modeling Earth Systems METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
11.40
自引率
11.80%
发文量
241
审稿时长
>12 weeks
期刊介绍: The Journal of Advances in Modeling Earth Systems (JAMES) is committed to advancing the science of Earth systems modeling by offering high-quality scientific research through online availability and open access licensing. JAMES invites authors and readers from the international Earth systems modeling community. Open access. Articles are available free of charge for everyone with Internet access to view and download. Formal peer review. Supplemental material, such as code samples, images, and visualizations, is published at no additional charge. No additional charge for color figures. Modest page charges to cover production costs. Articles published in high-quality full text PDF, HTML, and XML. Internal and external reference linking, DOI registration, and forward linking via CrossRef.
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