2D Finite Element (FE) Analysis of tree overturning was carried out. The main objective was to determine the effect of particular roots on anchorage strength in two contrasted soils and to discuss acclimation of root growth with regard to mechanical constraints. The FE model was based on the description of herringbone- like root patterns. Tree overturning simulations were performed applying a lateral displacement to a rigid stem. The results showed that lateral roots are the main components of tree anchorage in clay-like soil whereas the taproot plays a more significant role in sand. The modes of failure were different in the two soils, resulting in different root-plate shapes and rotation axis positions. Anisotropic secondary growth as a r...
This paper presents the development of a numerical model for simulating tree stability considering t...
International audienceThe finite element (FE) method has been used in recent years to simulate overt...
Identifiant Pubmed : PMID: 25006178International audienceBackground and Aims: Windstorms are the maj...
Background and Aims: The Finite Element Method (FEM) has been used in recent years to simulate overt...
International audienceBackground and Aims: The Finite Element Method (FEM) has been used in recent y...
The influence of root morphology and soil type on the mechanical behaviour of tree anchorage was inv...
Advances in wind risk require progress in understanding the uprooting process as a function of tree ...
Tree anchorage is a primary function for plant survival which may reach its limit under extreme cond...
Understanding the mechanism of tree anchorage in a forest is a priority because of the increase in w...
A sensitivity analysis based on numerical simulation is presented, in order to investigate the ancho...
The impact of climate change on tree stability is often associated with a higher risk of windthrow d...
The arrangement of a plant's roots in the soil determines the ability of the plant to resist uprooti...
A better understanding of root-soil mechanical interaction is necessary for investigating the capabi...
Evidence from forestry has shown that part of the forest floor bearing capacity is delivered by tree...
The finite element (FE) method has been used in recent years to simulate overturning processes in tr...
This paper presents the development of a numerical model for simulating tree stability considering t...
International audienceThe finite element (FE) method has been used in recent years to simulate overt...
Identifiant Pubmed : PMID: 25006178International audienceBackground and Aims: Windstorms are the maj...
Background and Aims: The Finite Element Method (FEM) has been used in recent years to simulate overt...
International audienceBackground and Aims: The Finite Element Method (FEM) has been used in recent y...
The influence of root morphology and soil type on the mechanical behaviour of tree anchorage was inv...
Advances in wind risk require progress in understanding the uprooting process as a function of tree ...
Tree anchorage is a primary function for plant survival which may reach its limit under extreme cond...
Understanding the mechanism of tree anchorage in a forest is a priority because of the increase in w...
A sensitivity analysis based on numerical simulation is presented, in order to investigate the ancho...
The impact of climate change on tree stability is often associated with a higher risk of windthrow d...
The arrangement of a plant's roots in the soil determines the ability of the plant to resist uprooti...
A better understanding of root-soil mechanical interaction is necessary for investigating the capabi...
Evidence from forestry has shown that part of the forest floor bearing capacity is delivered by tree...
The finite element (FE) method has been used in recent years to simulate overturning processes in tr...
This paper presents the development of a numerical model for simulating tree stability considering t...
International audienceThe finite element (FE) method has been used in recent years to simulate overt...
Identifiant Pubmed : PMID: 25006178International audienceBackground and Aims: Windstorms are the maj...