Wood Density and Ring Width in Quercus rotundifolia Trees in Southern Portugal

Sousa, Vicelina; Silva, Maria Emília; Lousada, J.; Pereira, Helena

doi:10.3390/f12111499

Cited by 5 publications

(4 citation statements)

References 66 publications

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“…Site S1 showed a fine soil texture, whereas site 2 and site 3 showed coarse and medium soil textures. The effects of soil on other oak species was already stated as regards their growth [29] and wood density [30]. In this case, a finer soil texture led to more hydric stress, which is reflected in the first layers of wood produced, which showed higher density (high proportion of latewood in the growth ring).…”

Section: Influence Of Site and Position In The Treementioning

confidence: 84%

Compressive and Bending Strength Variations in the Properties of Portuguese Clear Oak Wood

Knapic

Linhares

Machado

2022

Forests

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Within-stem variation in the mechanical properties of Portuguese oak wood was analysed, considering different locations (three sites in the centre and north of Portugal—Site 1, Site 2, Site 3) and positions within the tree (two distances to pith—P1, P2). The study comprised compression parallel to the grain, bending strength and modulus of elasticity. Ultimately, this study aims at assuring the building of a body of knowledge on the technological quality and processing options for this species. The results showed for one provenance, Site 1, a significant effect of the distance to pith in the mechanical properties, which can be related to a different soil composition. For this provenance, a decrease in the compression and bending strength was verified from pith to bark. For the other provenances (Site 2 and Site 3), no effect was noticed. The overall behaviour showed noticeable correlations between the mechanical properties and density.

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Section: Influence Of Site and Position In The Treementioning

confidence: 84%

Compressive and Bending Strength Variations in the Properties of Portuguese Clear Oak Wood

Knapic

Linhares

Machado

2022

Forests

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“…Indeed, P. halepensis grow faster than both Quercus species (Cañellas et al 2008;Montero et al 2002). However, when this value was relativized to a common basal area, C stock in AG trees was higher in Quercus forests, probably due to the higher wood density of Quercus trees (888-914 kg/m 3 ) compared to Pinus halepensis (500-630 kg/m 3 ) (Hevia et al 2020; Sousa et al 2021). For most of the remaining fractions, C stock tended to be larger in Quercus forests (both gross and per-basal area values) mostly for roots and AG shrubs.…”

Section: Quercus Forests Versus Pinus Plantationsmentioning

confidence: 99%

Above and belowground carbon stock of pine plantations and native oak forests coexisting in central Spain

van den Bor,

Castro-Díez,

Alonso

2023

New Forests

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Promoting nature-based carbon sinks is one of the effective ways to minimise global warming. Different types of forests, resulting from different land-use histories, may coexist under similar macroenvironmental conditions, but their e ciency as carbon sinks may differ. In central Spain, many areas are covered by coexisting patches of monospeci c plantations of Pinus halepensis, established since the 1950's, and native Quercus forest coppiced up to the 1960´s. We aimed to compare the carbon stock between both types of forests, considering both above and belowground compartments, in La Alcarria region (central Spain). In each plot, the diameter at breast height and height were measured in every adult tree, along with shrub cover. Three subsamples of litter and soil were collected per plot. The carbon pool of trees and shrubs was calculated using allometric equations, and for roots, litter, and soil, using the carbon content analysed in a laboratory or obtained from the literature. Carbon pools were analysed separately for three independent variables: plot type (Quercus/Pinus), tree basal area (m 2 /ha) and slope (°). Overall, Quercus forests stored more carbon than Pinus plantations. The carbon allocation pattern across compartments greatly varied between the two forest types, Pinus plots storing more than half (55%) of its carbon in the aboveground biomass of trees, while Quercus storing more carbon belowground (60%) in roots and soil. We conclude that native Quercus forests are more suitable for a long-term carbon storage, as belowground compartments represent an important part of its carbon storage capacity.

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“…Despite the wood density (FIS1) importance, the wood shrinkage and wood color, contributions were highlighted for the species distribution based on physical properties. In fact, wood density is greatly controlled by genetic factors [19], allowing the study of the effects of geographical provenance on wood density for a higher number of species from temperate to tropical regions due to their practical implications for tree improvement programs (e.g., [22][23][24][25]60]). In neotropical species, for example, wood density was found to be highly phylogenetically conserved [20].…”

Section: Physical Propertiesmentioning

confidence: 99%

“…Wood density is of high interest for taxonomic and phylogenetic studies since it is greatly controlled by genetic factors [19,20]. Thus, the genetic and/or geographical provenance effects on wood density are often studied for the most valued woods due to their practical implications for tree breeding and conservation programs (e.g., [21][22][23][24][25]).…”

Section: Introductionmentioning

confidence: 99%

An Integrated Similarity Analysis of Anatomical and Physical Wood Properties of Tropical Species from India, Mozambique, and East Timor

Bessa

Sousa

Quilhó

et al. 2022

Forests

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Tropical species are highly valued timber sources showing a large diversity of wood characteristics. Since there are major concerns regarding the sustainability of these tropical species in many tropical regions, knowledge of the variability in wood properties is therefore a valuable tool to design targeted exploitation and to enlarge the wood resources base, namely by identifying alternatives for CITES-listed species. In this study, 98 tropical wood species belonging to 73 genera from India, Mozambique, and East Timor were investigated regarding wood anatomy and physical properties. Numerical taxonomy, by means of cluster analysis and principal component analysis grouped species with anatomical and physical similarities from different geographical origins. In addition to wood density, ray and vessel characteristics as well as wood moisture and wood shrinkage properties explained the main variability of these species. The contribution of wood color patterns was highlighted as consistently separating the Mozambique woods. A distinct geographical pattern was not observed, reinforcing that species from India, Mozambique, and East Timor show similar anatomical and physical wood properties, which could be useful to increase timber trade diversity. The multivariate analysis showed that species from Mozambique, such as Morus mesozygia, and Millettia stuhlmannii and Swartzia madagascariensis, could be alternatives for the CITES-listed species Cedrela odorata and Dalbergia melanoxylon, respectively.

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Wood Density and Ring Width in Quercus rotundifolia Trees in Southern Portugal

Cited by 5 publications

References 66 publications

Compressive and Bending Strength Variations in the Properties of Portuguese Clear Oak Wood

Compressive and Bending Strength Variations in the Properties of Portuguese Clear Oak Wood

Above and belowground carbon stock of pine plantations and native oak forests coexisting in central Spain

An Integrated Similarity Analysis of Anatomical and Physical Wood Properties of Tropical Species from India, Mozambique, and East Timor

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