Kumar Chandan, Psaltis Steven, Baillères Henri, Turner Ian, Brancheriau Loïc, Hopewell Gary P., Carr Elliot J., Farrell Troy, Lee David J.. 2021. Accurate estimation of log MOE from non-destructive standing tree measurements. Annals of Forest Science, 78:8, 15 p.
Version publiée
- Anglais
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Version publiée
- Anglais
Accès réservé aux personnels Cirad Utilisation soumise à autorisation de l'auteur ou du Cirad. Kumar2021_Article_CorrectionToAccurateEstimation.pdf Télécharger (345kB) | Demander une copie |
Url - jeu de données - Entrepôt autre : https://doi.org/10.25907/00001
Quartile : Q1, Sujet : FORESTRY
Note générale : Corrigendum paru dans Annals of Forest Science 78, 17 (2021) : https://doi.org/10.1007/s13595-021-01041-8
Résumé : Key message: A novel non-destructive method has been developed to predict modulus of elasticity (MOE) of logs using measurements taken from cores extracted from discs. The trees were felled and cut into logs to allow validation of our method; however, similar results would be obtained if the cores were extracted from standing trees. The method shows that a single core from breast height is sufficient to predict MOE of logs, allowing early grading and sorting of logs for optimal use and processing. • Context: Early estimation of log MOE allows efficient sorting and grading of logs which can improve the financial return and reduce wastage of wood. • Aims: This work aims to predict the MOE of logs accurately from measurements taken on cores obtained from trees. • Methods: The MOE of the logs was predicted using ultrasound measurements conducted on small segments obtained from cores using two different approaches: segment average and integral average. Sixty-eight trees from locally developed F1 and F2 hybrid pines (slash pine × Caribbean pine hybrids, Pinus elliottii var. elliottii × P. caribaea var. hondurensis (PEE × PCH cross)) were felled and cut into logs to validate the results. The Beam Identification by Non-destructive Grading (BING) method was used to measure a reference dynamic MOE (BING-MOE) for each log, and this was compared with the estimated log MOE. • Results: Strong correlations (r=0.79 to 0.91) between measured log MOE and estimated log MOE were obtained. This study revealed that a single core from the breast height (1.3 m) of a tree allows a good prediction of the log MOE. Tree height, spacing, and diameter had no significant effect on the log MOE prediction. The segment average MOE under predicts the BING-MOE, whereas the integral average method provides very little bias in the prediction. Furthermore, the prediction errors from the regression analysis for all logs were greater in the segment average method compared with the integral average method. • Conclusion: This paper presented a novel non-destructive evaluation method capable of predicting the MOE of the whole log by combining data available from a single breast-height core extracted from standing trees with our integral average MOE approach. The integral average method predicted the BING-MOE more accurately with lower bias compared with other existing tools without any complex equipment, analysis, and statistical calibration for segregating out individual trees or stands. The method can potentially be used to predict the log MOE of other tree species and extended to predict MOE of individual boards that can be sawn from a log.
Mots-clés Agrovoc : technologie du bois, module d'élasticité, testage non destructif, dendrométrie, grume, Pinus
Mots-clés géographiques Agrovoc : Australie
Mots-clés libres : Log MOE, Non-destructive, Prediction, Standing tree measurement, Core
Classification Agris : K50 - Technologie des produits forestiers
K01 - Foresterie - Considérations générales
Champ stratégique Cirad : CTS 7 (2019-) - Hors champs stratégiques
Auteurs et affiliations
- Kumar Chandan, Queensland Government (AUS) - auteur correspondant
- Psaltis Steven, Queensland University of Technology (AUS)
- Baillères Henri, CIRAD-PERSYST-UPR BioWooEB (FRA)
- Turner Ian, Queensland University of Technology (AUS)
- Brancheriau Loïc, CIRAD-PERSYST-UPR BioWooEB (FRA) ORCID: 0000-0002-9580-7696
- Hopewell Gary P., Queensland Government (AUS)
- Carr Elliot J., Queensland University of Technology (AUS)
- Farrell Troy, Queensland University of Technology (AUS)
- Lee David J., University of the Sunshine Coast (AUS)
Source : Cirad-Agritrop (https://agritrop.cirad.fr/598630/)
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