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All issues Volume 57 / No 4 (May 2000) Ann. For. Sci., 57 4 (2000) 361-359 Abstract

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Issue		Ann. For. Sci. Volume 57, Number 4, May 2000
Page(s)		361 - 359
DOI		https://doi.org/10.1051/forest:2000126

DOI: 10.1051/forest:2000126

Ann. For. Sci. 57 (2000) 361-359

A new experimental device for rapid measurement of the trunk equivalent modulus of elasticity on standing trees

Jean Launay^a - Philippe Rozenberg^b - Luc Paques^b - Jean-Marc Dewitte^b

^aESEM, 8 rue Léonard de Vinci, 45067 Orléans Cedex 2, France
^bINRA Orléans, 45160 Ardon, France

(Received 15 July 1999; accepted 4 January 2000)

Abstract:

A new device has been developed in order to determine experimentally the modulus of elasticity of standing trees. Following preliminary trials on aluminum and steel beams, its performances have been compared to the one of another equipment built according to the model proposed by Koizumi (1987). Large-scale trials were then carried out on Douglas-fir and larch plantations of 72 and 292 trees, respectively. Results showed that the new device described here allowed rapid assessments of the mechanical characteristics presented by populations of rather young trees (i.e.: less than 20 years old). Thus, the data obtained with the device can efficiently be included in selection schemes along with other criteria.

Keywords: genetics / modulus of elasticity / standing tree / douglas-fir / larch

Résumé:

Un nouvel appareil pour la mesure rapide d'élasticité équivalent des arbres sur pied. Un nouveau dispositif destiné à la mesure du module d'élasticité des arbres sur pied a été mis au point. Après l'avoir testé sur des poutres en acier et en aluminium, il a été comparé à un autre appareillage construit sur le modèle de celui proposé par Koizumi. Des essais à grande échelle sur des plantations de douglas (72 arbres) et de mélèzes (292 arbres) ont montré que ce dispositif permet de mesurer rapidement les caractéristiques mécaniques d'une population d'arbres assez jeunes (moins de 20 ans) et d'effectuer efficacement une sélection en prenant en compte ce critère parmi d'autres.

Mots clé : génétique / module d'élasticité / arbre sur pied / douglas / mélèze

Correspondence and reprints: Jean Launay
Tel. 33 238417332; Fax. 33 238417063; jean.launay@univ-orleans.fr

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