Parameterization of Root Water Uptake Models Considering Dynamic Root Distributions and Water Uptake Compensation

Parameterization of Root Water Uptake Models Considering Dynamic Root Distributions and Water Uptake Compensation

These models were implemented in HYDRUS‐1D, and soil hydraulic parameters were optimized by inverse modeling using soil water content and potential measurements and observations of root distributions of winter wheat (Triticum aestivum L.) in horizontally installed rhizotubes. Soil moisture was equal...

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Tác giả chính: Cai, C.
Đồng tác giả: Vanderborght, J.
Định dạng: BB
Ngôn ngữ:English
Thông tin xuất bản: 2020
Chủ đề:
Evapotranspiration
Genetic algorithm
Root length density
Root water uptake
Normalized root length density
Truy cập trực tuyến:http://tailieuso.tlu.edu.vn/handle/DHTL/9694
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Tóm tắt:These models were implemented in HYDRUS‐1D, and soil hydraulic parameters were optimized by inverse modeling using soil water content and potential measurements and observations of root distributions of winter wheat (Triticum aestivum L.) in horizontally installed rhizotubes. Soil moisture was equally well predicted by the three models, and the soil hydraulic parameters optimized by the models with compensation were comparable. The obtained RWU parameters of the Feddes–Jarvis model were consistent with data reported in the literature, although the pressure heads h3l and h3h for lower and higher transpirations rates, respectively, could not be uniquely identified. Response surfaces of the objective function showed that the root‐related parameters of the Couvreur model could be identified using inverse modeling. Furthermore, these parameters were consistent with combined root architectural and hydraulic observations from the literature. The Feddes–Jarvis and Couvreur models simulated similar root‐system‐scale stress functions that link total RWU to the effective root zone water potential, suggesting that parameters may be transferable between the two models. Simulated RWU profiles differed due to different water redistribution by the root system, but the measurements were not sufficiently precise to observe this redistribution.

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