Add to ORKGInternational audienceA key problem of functional-structural plant modelling is the partitioning of resources between plant components. One approach to addressing this problem is based on the simulation of transport between the sources and sinks of a resource. To this end, we exploit an analogy between the flow of resources in a plant and the flow of currents in an electric circuit, and we present a computationally effective method for solving this circuit. The method lends itself to a straightforward implementation using L-systems, and is thus well suited for simulating the partitioning of resources in spatially-explicit models of growing plants
Carbon partitioning between alternative sinks is the weak point of all plant growth models, being do...
in pressPlant growth and development depend on both organogenesis and photosynthesis. Organogenesis ...
International audienceUnderstanding and simulating carbon allocation in plants is necessary to predi...
A key problem of functional-structural plant modelling is the partitioning of resources between plan...
Transport of carbohydrates and water are essential aspects of plant function. The aim of this study ...
The Carbon Transport-Resistance Allocation Model (C-TRAM) developed for L-system plant models is bas...
The simulation of carbon allocation among plant organs is one of the weakest features of crop growth...
The function of the plant's vasculature, incorporating both phloem and xylem, is of fundamental impo...
Following up on a previous work (Bui and Leoncini in Eur Phys J B 92, 2019) we examine a model of t...
A shoot:root carbon:nitrogen allocation model, based on the two processes of transport and chemical ...
Water and nutrient transfer to plant roots is determined by processes occurring from the single root...
Plant growth and development depend on both organogenesis and photosynthesis. Organogenesis sets in ...
In simulation models of plant development, physiological processes taking place in plants are typica...
Classical numerical methods exhibit numerical discrepancies, when we are dealing with the transport ...
Functional-structural plant models simulate the development of plant structure, taking into account ...
Carbon partitioning between alternative sinks is the weak point of all plant growth models, being do...
in pressPlant growth and development depend on both organogenesis and photosynthesis. Organogenesis ...
International audienceUnderstanding and simulating carbon allocation in plants is necessary to predi...
A key problem of functional-structural plant modelling is the partitioning of resources between plan...
Transport of carbohydrates and water are essential aspects of plant function. The aim of this study ...
The Carbon Transport-Resistance Allocation Model (C-TRAM) developed for L-system plant models is bas...
The simulation of carbon allocation among plant organs is one of the weakest features of crop growth...
The function of the plant's vasculature, incorporating both phloem and xylem, is of fundamental impo...
Following up on a previous work (Bui and Leoncini in Eur Phys J B 92, 2019) we examine a model of t...
A shoot:root carbon:nitrogen allocation model, based on the two processes of transport and chemical ...
Water and nutrient transfer to plant roots is determined by processes occurring from the single root...
Plant growth and development depend on both organogenesis and photosynthesis. Organogenesis sets in ...
In simulation models of plant development, physiological processes taking place in plants are typica...
Classical numerical methods exhibit numerical discrepancies, when we are dealing with the transport ...
Functional-structural plant models simulate the development of plant structure, taking into account ...
Carbon partitioning between alternative sinks is the weak point of all plant growth models, being do...
in pressPlant growth and development depend on both organogenesis and photosynthesis. Organogenesis ...
International audienceUnderstanding and simulating carbon allocation in plants is necessary to predi...