The Importance of Subsurface Processes in Land Surface Modeling over a Temperate Region: An Analysis with SMAP, Cosmic Ray Neutron Sensing and Triple Collocation Analysis

Zhao, Haojin; Montzka, Carsten; Baatz, Roland; Vereecken, Harry; Franssen, Harrie‐Jan Hendricks

doi:10.3390/rs13163068

Cited by 6 publications

(3 citation statements)

References 95 publications

(132 reference statements)

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“…The CRNS footprint covers up to 18 ha with a measurement depth of up to 80 cm (Bogena et al., 2015; Köhli et al., 2015; Zreda et al., 2008). The continuous development of CRNS technology has enabled SM monitoring under a variety of climatic conditions, which has promoted its application in hydrological modeling (R. Baatz et al., 2017), satellite product validation (Zhao et al., 2021), extreme weather event (drought and flood risk) assessment (Bogena et al., 2022), ecohydrological (e.g., snow, precipitation, and vegetation) monitoring (Bogena et al., 2020), and agricultural management (Li et al., 2019). The advantages of CRNS have made it increasingly attractive, and large‐scale CRNS networks have been established in Europe, the USA, Australia, and India for large‐scale soil moisture monitoring with high temporal resolution, which can also benefit the multifaceted hydrological applications mentioned above.…”

Section: Introductionmentioning

confidence: 99%

“…Zhao et al. (2021) compared the CRNS data with simulated soil moisture using both the land surface model Community Land Model (CLM, version 3.5) and a coupled land surface‐subsurface model (CLM‐ParFlow). They found that the coupled model simulations showed less bias and reproduced better soil moisture dynamics than the CLM stand‐alone, demonstrating the importance of considering lateral subsurface flow in subsurface hydrological simulations.…”

Section: Introductionmentioning

confidence: 99%

“…To date, however, such assimilation experiments with CRNS data have been conducted only with land surface models that do not adequately describe lateral water movement and groundwater-land surface interactions (Kollet & Maxwell, 2008). Zhao et al (2021) compared the CRNS data with simulated soil moisture using both the land surface model Community Land Model (CLM, version 3.5) and a coupled land surface-subsurface model (CLM-ParFlow). They found that the coupled model simulations showed less bias and reproduced better soil moisture dynamics than the CLM stand-alone, demonstrating the importance of considering lateral subsurface flow in subsurface hydrological simulations.…”

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confidence: 99%

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Can a Sparse Network of Cosmic Ray Neutron Sensors Improve Soil Moisture and Evapotranspiration Estimation at the Larger Catchment Scale?

Li,

Bogena,

Bayat

et al. 2024

Water Resources Research

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Cosmic‐ray neutron sensors (CRNS) fill the gap between locally measured in‐situ soil moisture (SM) and remotely sensed SM by providing accurate SM estimation at the field scale. This is promising for improving hydrologic model predictions, as CRNS can provide valuable information on SM in the root zone at the typical scale of a model grid cell. In this study, SM measurements from a network of 12 CRNS in the Rur catchment (Germany) were assimilated into the Terrestrial System Modeling Platform (TSMP) to investigate its potential for improving SM, evapotranspiration (ET) and river discharge characterization and estimating soil hydraulic parameters at the larger catchment scale. The data assimilation (DA) experiments (with and without parameter estimation) were conducted in both a wet year (2016) and a dry year (2018) with the ensemble Kalman filter (EnKF), and later verified with an independent year (2017) without DA. The results show that SM characterization was significantly improved at measurement locations (with up to 60% root mean square error (RMSE) reduction), and that joint state‐parameter estimation improved SM simulation more than state estimation alone (more than 15% additional RMSE reduction). Jackknife experiments showed that SM at verification locations had lower and different improvements in the wet and dry years (an RMSE reduction of 40% in 2016 and 16% in 2018). In addition, SM assimilation was found to improve ET characterization to a much lesser extent, with a 15% RMSE reduction of monthly ET in the wet year and 9% in the dry year.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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confidence: 99%

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Can a Sparse Network of Cosmic Ray Neutron Sensors Improve Soil Moisture and Evapotranspiration Estimation at the Larger Catchment Scale?

Li,

Bogena,

Bayat

et al. 2024

Water Resources Research

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Multi‐Decadal Soil Moisture and Crop Yield Variability—A Case Study With the Community Land Model (CLM5)

Boas,

Bogena,

Ryu

et al. 2024

J Adv Model Earth Syst

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While the impacts of climate change on global food security have been studied extensively, the capability of emerging tools that couple land surface processes and crop growth in reproducing inter‐annual yield variability at regional scale remains to be tested rigorously. In this study, we analyzed the effects of weather variations between years (1999–2019) on regional crop productivity for two agriculturally managed regions with contrasting climate and cropping conditions: the German state of North Rhine‐Westphalia (DE‐NRW) and the Australian state of Victoria (AUS‐VIC), using the latest version of the Community Land Model (CLM5) and the WFDE5 (WATCH Forcing Data methodology applied to ECMWF reanalysis version 5) reanalysis. Overall, the simulation results were able to reproduce the total annual crop yields of certain crops, while also capturing the differences in total yield magnitudes between the domains. However, the simulations showed limitations in correctly capturing inter‐annual differences of crop yield compared to official yield records, which resulted in relatively low correlation coefficients between 0.07 and 0.39 in AUS‐VIC and between 0.11 and 0.42 in DE‐NRW. The mean absolute deviation of simulated winter wheat yields was up to 4.6 times lower compared to state‐wide records from 1999 to 2019. Our results suggest the following limitations of CLM5: (a) limitations in simulating yield responses from plant hydraulic stress; (b) errors in simulating soil moisture contents compared to satellite‐derived data; and (c) errors in the representation of cropland in general, for example, crop parameterizations and human influences.

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A Comparative Analysis of Remote Sensing Soil Moisture Datasets Fusion Methods: Novel LSTM Approach Versus Widely Used Triple Collocation Technique

Zhao,

Montzka,

Vereecken

et al. 2024

IEEE J. Sel. Top. Appl. Earth Observations Remote Sensing

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The Importance of Subsurface Processes in Land Surface Modeling over a Temperate Region: An Analysis with SMAP, Cosmic Ray Neutron Sensing and Triple Collocation Analysis

Cited by 6 publications

References 95 publications

Can a Sparse Network of Cosmic Ray Neutron Sensors Improve Soil Moisture and Evapotranspiration Estimation at the Larger Catchment Scale?

Can a Sparse Network of Cosmic Ray Neutron Sensors Improve Soil Moisture and Evapotranspiration Estimation at the Larger Catchment Scale?

Multi‐Decadal Soil Moisture and Crop Yield Variability—A Case Study With the Community Land Model (CLM5)

A Comparative Analysis of Remote Sensing Soil Moisture Datasets Fusion Methods: Novel LSTM Approach Versus Widely Used Triple Collocation Technique

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