International audienceShoot architecture is a key component of the interactions between plants and their environment. We present a novel model of grass, which fully integrates shoot morphogenesis and the metabolism of carbon (C) and nitrogen (N) at organ scale, within a three-dimensional representation of plant architecture. Plant morphogenesis is seen as a self-regulated system driven by two main mechanisms. First, the rate of organ extension and the establishment of architectural traits are regulated by concentrations of C and N metabolites in the growth zones and the temperature. Second, the timing of extension is regulated by rules coordinating successive phytomers instead of a thermal time schedule. Local concentrations are calculated ...
Background and Aims Because functional–structural plant models (FSPMs) take plant architecture expli...
La plasticité phénotypique, la capacité d’un génotype à adapter son phénotype à ses conditions de cr...
International audienceIntroduction Rhizodeposition, i.e. the release of organic materials by roots, ...
International audienceShoot architecture is a key component of the interactions between plants and t...
Shoot architecture is a key component of the interactions between plants and their environment. We p...
International audienceLeaf dimensions, specific mass and composition are traits of interest, as leav...
Special issue in in silico PlantsInternational audienceIntroduction Phenotypic plasticity - the abil...
Intimate relationships exist between form and function of plants, determining many processes governi...
Modelling plant structure and growth has undergone major changes in the last decades along two major...
Modelling of plant structure and growth has undergone major changes in the last few decades. Two maj...
International audienceBACKGROUND AND AIMS: The strong influence of environment and functioning on pl...
This dataset contains the underlying data for the study: Evers JB, Vos J, Yin X, Romero P, van der ...
The strong influence of environment and functioning on plant organogenesis has been well documented ...
oral communication abstractContext: Leaves are the main interface between plants and their above gro...
Background and Aims Because functional–structural plant models (FSPMs) take plant architecture expli...
La plasticité phénotypique, la capacité d’un génotype à adapter son phénotype à ses conditions de cr...
International audienceIntroduction Rhizodeposition, i.e. the release of organic materials by roots, ...
International audienceShoot architecture is a key component of the interactions between plants and t...
Shoot architecture is a key component of the interactions between plants and their environment. We p...
International audienceLeaf dimensions, specific mass and composition are traits of interest, as leav...
Special issue in in silico PlantsInternational audienceIntroduction Phenotypic plasticity - the abil...
Intimate relationships exist between form and function of plants, determining many processes governi...
Modelling plant structure and growth has undergone major changes in the last decades along two major...
Modelling of plant structure and growth has undergone major changes in the last few decades. Two maj...
International audienceBACKGROUND AND AIMS: The strong influence of environment and functioning on pl...
This dataset contains the underlying data for the study: Evers JB, Vos J, Yin X, Romero P, van der ...
The strong influence of environment and functioning on plant organogenesis has been well documented ...
oral communication abstractContext: Leaves are the main interface between plants and their above gro...
Background and Aims Because functional–structural plant models (FSPMs) take plant architecture expli...
La plasticité phénotypique, la capacité d’un génotype à adapter son phénotype à ses conditions de cr...
International audienceIntroduction Rhizodeposition, i.e. the release of organic materials by roots, ...