Add to ORKGInternational audienceThe main biological function of reaction wood is to act as “muscle” for trees, enabling them to control their posture and right stems when they are permanently disturbed from their set-point inclination by gravity or winds. The key property to achieve this function is the development of high mechanical stress during the formation of reaction wood cells, called “maturation strains”. Moreover, this function is basically performed through the asymmetric formation of wood (in quantity or quality) around the tree circumference. This asymmetry enables stems to bend upward or to compensate for the downward bending induced by gravity, as an asymmetric force associated to maturation strains creates a bending moment (i.e. one si...
International audienceTo grow straight, plants need a motor system that controls posture by generati...
Although the straightening capacity of the stem is key for light capture and mechanical stability in...
International audienceThis work aims to model the consequences of different strategies used by tree ...
International audienceThe main biological function of reaction wood is to act as “muscle” for trees,...
International audienceThe main biological function of reaction wood is to act as “muscle” for trees,...
International audienceThe main biological function of reaction wood is to act as " muscle " for tree...
International audienceStudies on tree biomechanical design usually focus on stem stiffness, resistan...
International audienceThis work aims to model the mechanical processes used by tree branches to cont...
The mechanisms that lead to prestresses (usually called "growth stresses") in wood of growing trees ...
International audienceTrees have a motor system to enable upright growth in the field of gravity. Th...
International audienceAbstractKey messageGravitropic movements in angiosperm woody stems are achieve...
Trees are gigantic and long living organisms where gravitropic movements are governed by cambial gro...
International audienceLiving wood in the tree performs a muscular action by generating forces at sap...
To grow straight, plants need a motor system that controls posture by generating forces to offset gr...
International audienceTo grow straight, plants need a motor system that controls posture by generati...
Although the straightening capacity of the stem is key for light capture and mechanical stability in...
International audienceThis work aims to model the consequences of different strategies used by tree ...
International audienceThe main biological function of reaction wood is to act as “muscle” for trees,...
International audienceThe main biological function of reaction wood is to act as “muscle” for trees,...
International audienceThe main biological function of reaction wood is to act as " muscle " for tree...
International audienceStudies on tree biomechanical design usually focus on stem stiffness, resistan...
International audienceThis work aims to model the mechanical processes used by tree branches to cont...
The mechanisms that lead to prestresses (usually called "growth stresses") in wood of growing trees ...
International audienceTrees have a motor system to enable upright growth in the field of gravity. Th...
International audienceAbstractKey messageGravitropic movements in angiosperm woody stems are achieve...
Trees are gigantic and long living organisms where gravitropic movements are governed by cambial gro...
International audienceLiving wood in the tree performs a muscular action by generating forces at sap...
To grow straight, plants need a motor system that controls posture by generating forces to offset gr...
International audienceTo grow straight, plants need a motor system that controls posture by generati...
Although the straightening capacity of the stem is key for light capture and mechanical stability in...
International audienceThis work aims to model the consequences of different strategies used by tree ...