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Modelling the growth stress in tree branches: eccentric growth vs. reaction wooduse asterix (*) to get italics
Arnoul VAN ROOIJ, Eric BADEL, Jean Francois BARCZI, Yves CARAGLIO, Tancrède ALMERAS, Joseph GRILPlease use the format "First name initials family name" as in "Marie S. Curie, Niels H. D. Bohr, Albert Einstein, John R. R. Tolkien, Donna T. Strickland"
2023
<p style="text-align: justify;">This work aims to model the mechanical processes used by tree branches to control their posture despite their increasing weight loading. The two known options for a branch to maintain its orientation are the asymmetry of maturation stress, including reaction wood formation, and eccentric radial growth. Both options can be observed in nature and influence the stress distribution developed in the branch each year. This so-called "growth stress" reflects the mechanical state of the branch. In this work, a growth stress model was developed at the cross-section level in order to quantify and study the bio-mechanical impact of each process. For illustration, this model was applied to branches of two 50-year-old trees, one softwood <em>Pinus pinaster</em> and one hardwood <em>Prunus avium</em> (wild cherry tree), both simulated with the AmapSim discrete element software. For the wild cherry tree, the computed ouputs highlighted that the eccentricity of radial growth seems to be as efficient as the formation of reaction wood to maintain the postural control despite the increasing gravity. For the pine tree, eccentric radial growth appears to be less efficient than the formation of reaction wood. But although it does not necessarily act as a relevant lever for postural control, it greatly modifies the profile pattern of mechanical stress and could provide mechanical safety of the branch. This work opens experimental perspectives to understand the biomechanical processes involved in the formation of branches and their mechanical safety.&nbsp;</p>
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https://doi.org/10.57745/RECOBOYou should fill this box only if you chose 'Scripts were used to obtain or analyze the results'. URL must start with http:// or https://
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Branches, growth stress, biomechanics
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Biology of wood in living trees
Jana Dlouha [jana.dlouha@inrae.fr], Hiroyuki Yamamoto [hiro@agr.nagoya-u.ac.jp], Jingyao Zhang [zhang@archi.kyoto-u.ac.jp], Julien Colmars [julien.colmars@insa-lyon.fr]
e.g. John Doe john@doe.com
No need for them to be recommenders of PCI Forest Wood Sci. Please do not suggest reviewers for whom there might be a conflict of interest. Reviewers are not allowed to review preprints written by close colleagues (with whom they have published in the last four years, with whom they have received joint funding in the last four years, or with whom they are currently writing a manuscript, or submitting a grant proposal), or by family members, friends, or anyone for whom bias might affect the nature of the review - see the code of conduct
e.g. John Doe john@doe.com
2022-08-25 14:12:06
Erwin Dreyer