Phenotypic variation of basic wood density in Pinus ponderosa plus trees

Martinez‐Meier, Alejandro; Gallo, Leonardo; Pastorino, Mario J.; Mondino, Victor Alejandro; Rozenberg, Philippe

doi:10.4067/s0717-92002011000300003

Cited by 5 publications

(2 citation statements)

References 19 publications

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“…However, in temperate region, wood density may vary considerably in the environment of an individual plant (increasing from the early to the late wood), but the variation between individuals of a given species remains limited and, more importantly, the mean wood density for a given species is generally highly conserved. Many studies have investigated the intraspecific variability of wood density, dissecting the phenotypic variation of wood density into genetic and environmental components (and their interaction) for most commercial forest tree species (Aguiar et al 2003;Bouffier et al 2008;Martinez-Meier et al 2011;Apiolaza 2011). The phenotypic coefficient of variation for wood density is generally low, as is the genetic additive coefficient of variation (these conclusions do not apply to interspecific crosses, such as Eucalyptus sp.)…”

Section: Introductionmentioning

confidence: 98%

Micro-evolutionary patterns of juvenile wood density in a pine species

et al. 2012

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Wood density can be considered an adaptive trait, because it ensures the safe and efficient transport of water from the roots to the leaves, mechanical support for the body of the plant and the storage of biological chemicals. Its variability has been extensively described in narrow genetic backgrounds and in wide ranges of forest tree species, but little is known about the extent of natural genetic and phenotypic variability within species. This information is essential to our understanding of the evolutionary forces that have shaped this trait, and for the evaluation of its inclusion in breeding programs. We assessed juvenile wood density, leaf area, total aboveground biomass, and growth in six Pinus pinaster populations of different geographic origins (France, Spain, and Morocco) growing in a provenance-progeny trial. No genetic differentiation was found for wood density, whereas all other traits significantly differed between populations. Heritability of this trait was moderate, with a low additive genetic variance. For retrospective identification of the evolutionary forces acting on juvenile wood density, we compared the distribution of neutral markers (F ST ) and quantitative genetic differentiation (Q ST ). We found that Q ST was significantly lower than F ST , suggesting evolutionary stasis. Furthermore, we did not detect any relationship between juvenile wood density and drought tolerance (resistance to cavitation), suggesting that this trait could not be used as a proxy for drought tolerance at the intraspecific level.

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Section: Introductionmentioning

confidence: 98%

Micro-evolutionary patterns of juvenile wood density in a pine species

et al. 2012

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“…Growth traits such as height and diameter can be used as criteria for getting superior genotypes. To date selection program to obtain superior genotypes has combined characteristics of growth with wood quality, such as moisture content, wood density and specific gravity (Gaspar et al 2009;Martinez-Meier 2011;Nocetti et al 2012;Muga et al 2014). Several studies have shown a significant correlation between growth and wood quality, such as in Gmelina arborea Roxb.…”

Section: Introductionmentioning

confidence: 99%

Growth performance and wood quality of white jabon (Neolamarckia cadamba) progeny testing at Parung Panjang, Bogor, Indonesia

Chaerani

Sudrajat²,

Siregar

2019

Biodiversitas

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Abstract. Chaerani N, Sudrajat DJ, Siregar IZ, Siregar UJ. 2019. Growth performance and wood quality of white jabon (Neolamarckia cadamba) progeny testing at Parung Panjang, Bogor, Indonesia. Biodiversitas 20: 2295-2301. The aim of this study was to evaluate the genetic parameters of growth and wood quality in white jabon progeny test at 54 months old in Parung Panjang, Bogor. The 105 half-sib families obtained from 12 provenances were evaluated in a randomized complete block design with five replications. Wood quality was assessed both in a non-destructive way using a pilodyn and by destructive method using wood sample taker. Results indicated that the mean value ranged from 5.10 to 10.15 m for height, 6.67 to 15.30 cm for diameter, 2.30 to 3.62 cm for pilodyn penetration, 0.66 to 0.82 g/cm3 for wood density, 0.33 to 0.50 for specific gravity, and 66 to 111 % for moisture content, respectively. There were significant differences among 105 families for all traits except moisture content. The high heritability estimate was found for height (0.4-0.69) and basic density (0.27-0.59). Applying 80% selection intensity on diameter and leaving 84 best families in each block will produce a high total genetic gain. Pilodyn penetration had negative correlation with diameter, wood density, and specific gravity.

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Growth performance of Acacia mangium provenances in Parung Panjang, Bogor and its correlation with physical and mechanical wood properties

Nurhasybi¹,

Sudrajat²

2019

IOP Conf. Ser.: Earth Environ. Sci.

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Wood quality and growth are two important parameters that need to be analyzed for the utilization and selection of superior genotypes. The objective of this research was to investigate the ten provenances growth characteristics and their physical and mechanical properties of Acacia mangium at Parung Panjang, Bogor. The provenance trial was arranged in three blocks of a randomized completely blocks design. In every provenance, 18 trees were sampled resulting in a total of 180 trees in each block representing each provenance measured for their total height, clear bole height, stem diameter at breast height, stem form, branching system, and crown form. Three individual trees were selected randomly from each provenance for wood properties traits, i.e. moisture content, density, modulus of elasticity (MOE) and modulus of rapture (MOR). Significant differences among provenances were detected for stem diameter, clear bole height, branching system and crown form, while total height and stem form revealed not significantly different. Most of growth parameters was not significantly correlated with physical and mechanical wood traits, except for MOR, it revealed significant correlation with the total tree height, stem form, and branching system. Generally, some growth characteristics were not a good indicator for selecting the best provenance in wood properties. The best growth performance was revealed by Kiriwo/Serisa WP, Bimadebun Village, and Balimo District, but from wood quality, the superior provenance was revealed by Bimadebun Village with the lower moisture content, the highest wood density, the highest MOE and MOR. The Bimadebun Village provenance is potential to be developed as provenance seed stand, especialy for solid (contruction) wood.

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Phenotypic variation of basic wood density in Pinus ponderosa plus trees

Cited by 5 publications

References 19 publications

Micro-evolutionary patterns of juvenile wood density in a pine species

Micro-evolutionary patterns of juvenile wood density in a pine species

Growth performance and wood quality of white jabon (Neolamarckia cadamba) progeny testing at Parung Panjang, Bogor, Indonesia

Growth performance of Acacia mangium provenances in Parung Panjang, Bogor and its correlation with physical and mechanical wood properties

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