Deepanshu Khare
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View article: Benchmarking of Functional-Structural Root Architecture Models
Benchmarking of Functional-Structural Root Architecture Models Open
Schnepf et al., (2020) defined benchmark scenarios for root growth models, soil water flow models, root water flow models, and for water flow in the coupled soil-root system. All benchmarks and corresponding reference solutions were publis…
View article: Collaborative benchmarking of functional-structural root architecture models: Quantitative comparison of simulated root water uptake
Collaborative benchmarking of functional-structural root architecture models: Quantitative comparison of simulated root water uptake Open
Functional-structural root architecture models have evolved as tools for the design of improved agricultural management practices and for the selection of optimal root traits. In order to test their accuracy and reliability, we present the…
View article: Quantitative comparison of root water uptake simulated by functional-structural root architecture models
Quantitative comparison of root water uptake simulated by functional-structural root architecture models Open
<p>3D models of root growth, architecture and function are becoming important tools to aid the design of agricultural management schemes and the selection of beneficial root traits. While benchmarking is common for water and solute t…
View article: Root System Scale Models Significantly Overestimate Root Water Uptake at Drying Soil Conditions
Root System Scale Models Significantly Overestimate Root Water Uptake at Drying Soil Conditions Open
Soil hydraulic conductivity ( k soil ) drops significantly in dry soils, resulting in steep soil water potential gradients ( ψ s ) near plant roots during water uptake. Coarse soil grid resolutions in root system scale (RSS) models of root…
View article: Quantifying how plants with different species-specific water-use strategies cope with the same drought-prone hydro-ecological conditions
Quantifying how plants with different species-specific water-use strategies cope with the same drought-prone hydro-ecological conditions Open
<p>Plant transpiration and root water uptake are dependent on multiple traits that interact with site soil characteristics and environmental factors such as radiation, atmospheric temperature, relative humidity, and soil-moisture con…