Chemical characterization and extractives composition of heartwood and sapwood from Quercus faginea

Miranda, Isabel; Sousa, Vicelina; Ferreira, Joana; Pereira, Helena

doi:10.1371/journal.pone.0179268

Cited by 52 publications

(42 citation statements)

References 40 publications

(43 reference statements)

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“…As tension and knot wood were avoided in the present measurements, it is the extractives content that should explain the density variations in Q. faginea wood between sites and between trees per site. However, the total heartwood extractives were approximately the same at both sites (19%) [4], suggesting that it does not explain per se the wood density variability found between these sites. Within-tree extractives content might be important to explain heart-and sapwood differences in wood density.…”

Section: Discussionmentioning

confidence: 85%

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Variation of Ring Width and Wood Density in Two Unmanaged Stands of the Mediterranean Oak Quercus faginea

Sousa

Lousada

Pereira

2018

Forests

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Ring width and wood density variation were studied from pith-to-bark and along the stem in two naturally regenerated stands of Quercus faginea Lam. in Portugal. Ring width was significantly different between sites, in both heartwood and sapwood rings, ranging from 1.83 mm to 2.52 mm and from 0.77 mm to 2.11 mm, respectively. Wood density was significantly different between sites only in the heartwood, i.e., 914 kg m −3 and 1037 kg m −3 . Site effects were the main source of variation for ring width and wood density within the heartwood as well as for sapwood ring width, while the between-tree effects explained more the density variation within the sapwood. Wood density showed within-tree uniformity that was not affected by site. The stand characteristics such as basal area and tree age may override the environmental growth conditions. There was also a weak correlation between wood density and ring width components therefore suggesting the possibility of forestry management for both fast tree growth and high wood density.

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Section: Discussionmentioning

confidence: 85%

“…In Portugal, its present area is very restricted because of the past intensive utilization [1]. The species shows favorable characteristics for wood processing and performance, and is considered a good potential timber species for structural and flooring components, and cooperage [2][3][4][5].…”

Section: Introductionmentioning

confidence: 99%

Variation of Ring Width and Wood Density in Two Unmanaged Stands of the Mediterranean Oak Quercus faginea

Sousa

Lousada

Pereira

2018

Forests

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“…The cited research by the above-mentioned authors confirms the impact of tree age on the content of structural compounds and extractives in wood. The results reported in the literature refer to specific studies and tree growing conditions, as well as their age, species, and the parts of the tree from which samples are taken (Bao et al 2001;Cown and McConchie 1982;Dietrichs 1972;Han and Rowell 1997;Hytönen and Nurmi 2015;Miranda et al 2017;Mohammadi et al 2011;Morais and Pereira 2012;Piispanen and Saranpää 2001;Rencoret et al 2011;Uprichard and Lloyd 1980;Waliszewska et al 2015). These results cannot be generalised, and it is not possible to formulate on their basis a general rule for the dependence of the chemical composition of wood on tree age for all species and for the entire range of ages, from young saplings to 100-year-old trees.…”

Section: Discussionmentioning

confidence: 99%

“…The proportions of particular components in wood tissue depend on the species, the habitat conditions, the climate, the part of the tree from which samples are taken (trunk, branches, roots, sapwood or heartwood, bark, juvenile, or mature wood), the time of year, and the health of the tree (Bikovens et al 2013;Miranda et al 2017;Szczepkowski et al 2007;Zobel and Sprague 1998). Another factor for the variation of the chemical structure of wood and its possible uses is the age of the tree, as has been documented for certain species (Berrocal et al 2004;Fidelis et al 2013;Healey et al 2016;Miranda and Pereira 2002;Rencoret et al 2011;Uprichard and Lloyd 1980).…”

Section: Introductionmentioning

confidence: 99%

The effect of tree age on the chemical composition of the wood of silver birch (Betula pendula Roth.) in Poland

et al. 2019

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The article presents the results of a so far most extensive study on the effect of tree age on variation of the chemical structure of silver birch wood carried out in Poland. Field studies took place in 12 forestry districts distributed throughout the country. In each district, study sites were selected with stands aged approximately 30, 50, and 70 years in fresh broadleaved forest habitats, as well as in five districts in fresh mixed broadleaved forest habitats. Analyses were made of the contents of substances soluble in cold and hot water, ethanol and 1% NaOH, as well as the contents of cellulose, lignin, pentosans and ash, and the pH, of wood from 306 silver birch trees. Tree age was shown to have a significant effect on the contents of cellulose, pentosans, ash, and substances soluble in 1% NaOH. In the case of the other characteristics, age was found to have no significant effect. The cellulose content was lowest in 30-year-old stands and increased with tree age. Similar observations were made regarding ash content. Contents of pentosans and substances soluble in 1% NaOH were highest in the wood of the youngest trees. Since birch wood is used by the pulp and paper, board and energy industries, the knowledge of its chemical composition, depending on the age of the trees, can be of potential practical importance for its further application.

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“…Other studies on woody forest material have analyzed the secondary metabolites present in the wood and bark. Their extraction uses different techniques and they can be used in different industrial sectors, especially in chemistry …”

Section: Introductionmentioning

confidence: 99%

Chemical analysis and antioxidant properties of orange‐tree (Citrus sinensis L.) biomass extracts obtained via different extraction techniques

Bruno

Russo

Cetera

et al. 2020

Biofuels Bioprod Bioref

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Orange orchards are typical Mediterranean crops and a major feature of the heritage of the Mediterranean basin, where they play an important environmental and economic role. Their high availability, low price, and potential industrial application make the development of new and valuable uses of the orange's biomass of high interest. This research was focused: (i) on recognition and mapping of orange cultivation in the Basilicata region; (ii) on the evaluation of the antioxidant capacity of extracts;These authors contributed equally to this work. 510MR Bruno et al.In the Field: Chemical characterization of orange biomass (iii) on identification of extractives' traits. To achieve these objectives, the anti-oxidative properties and chemical compounds of the extracts from orange orchard biomass were analyzed. Different extraction techniques were applied, including maceration, ultrasound-assisted extraction, accelerated solvent extraction, and autoclaving. Results demonstrated the potential antioxidant activity of the bark and wood of orange-tree biomass, which has not been investigated before. The relative antioxidant capacity index showed that bark extracts were more effective than wood ones, and accelerated solvent extraction was the most effective process for recovering antioxidants. Chemical characterization by liquid chromatography-mass spectrometry (LC-MS) showed the presence of different natural compounds, including caffeic acid, alkaloids, and flavonoids. The development of innovative applications that use biomass derivatives could lead to their possible use in the market as a commodity for the chemical or cosmetic industries, giving new added value to the current use of biomass from agricultural practices. Through multi-criteria analysis it was possible to recognize the sustainability of these cropping models and their ecological function, using them for the preservation of environmental resources, environmental quality, and quality of life.

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Chemical characterization and extractives composition of heartwood and sapwood from Quercus faginea

Cited by 52 publications

References 40 publications

Variation of Ring Width and Wood Density in Two Unmanaged Stands of the Mediterranean Oak Quercus faginea

Variation of Ring Width and Wood Density in Two Unmanaged Stands of the Mediterranean Oak Quercus faginea

The effect of tree age on the chemical composition of the wood of silver birch (Betula pendula Roth.) in Poland

Chemical analysis and antioxidant properties of orange‐tree (Citrus sinensis L.) biomass extracts obtained via different extraction techniques

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