2021
DOI: 10.1515/hf-2020-0196
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Genetic variation of microfibril angle and its relationship with solid wood and pulpwood traits in two progeny trials of Eucalyptus nitens in Tasmania

Abstract: Microfibril angle (MFA) is a key biological trait contributing to wood stiffness, which is a common breeding objective for solid wood products in many tree species. To explore its genetic architecture, area-weighted MFA was measured in two Eucalyptus nitens progeny trials in Tasmania, Australia, with common open-pollinated families. Radial strips were extracted from 823 trees in 131 families and MFA assessed using SilviScan-2®. Heritability, genotype-by-environment interaction and inter-trait genetic correlati… Show more

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“…abrupt loss of resistance) are used to infer changes in the material, in our case the presence of voids in the wood. Among other applications, resistance drilling has been used to assess termite damage in wood (Hickman & Forschler, 2012), radial changes in wood density in pedunculate oak stands (Tomczak et al ., 2022) and climate‐associated variation in wood in Eucalyptus nitens M. plantations (Rocha Sepúlveda, 2023). Trees across all sites were drilled at breast height (at 130 cm above ground) across the longest diameter from end to end (Fig.…”
Section: Methodsmentioning
confidence: 99%
“…abrupt loss of resistance) are used to infer changes in the material, in our case the presence of voids in the wood. Among other applications, resistance drilling has been used to assess termite damage in wood (Hickman & Forschler, 2012), radial changes in wood density in pedunculate oak stands (Tomczak et al ., 2022) and climate‐associated variation in wood in Eucalyptus nitens M. plantations (Rocha Sepúlveda, 2023). Trees across all sites were drilled at breast height (at 130 cm above ground) across the longest diameter from end to end (Fig.…”
Section: Methodsmentioning
confidence: 99%