Chemical Characteristics of Teak Wood Attacked by Neotermes tectonae

Lukmandaru, Ganis

doi:10.15376/biores.10.2.2094-2102

Cited by 13 publications

(5 citation statements)

References 8 publications

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“…Lignin content in teak wood ranges from 30 to 43% [28][29][30][31]. Unmodified (reference) wood in this work has lignin content within this range (35.42%), as reported previously [32].…”

Section: Klason and Dioxane Lignin Yieldssupporting

confidence: 81%

The Impact of Thermal Treatment on Structural Changes of Teak and Iroko Wood Lignins

et al. 2020

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Thermal modification is an environmentally friendly method to improve dimensional stability, durability, and aesthetic properties of wood. Changes in lignin as one of the main wood components markedly influence wood product properties and recycling possibilities of thermowood at the end of its life cycle. Teak and iroko wood samples were thermally treated at the temperatures of 160 °C, 180 °C and 210 °C following the Thermowood process. Dioxane lignin was isolated from treated and untreated wood and analysed by nitrobenzene oxidation (NBO), size exclusion chromatography (SEC) and Fourier transform infrared spectroscopy (FTIR). The yields of both acid-insoluble and dioxane lignins increased with an increasing treatment temperature. Dioxane lignins are GS-types containing more guaiacyl units compared to syringyl ones with S/G ratios of 0.91 and 0.84, respectively. In the process of thermal modification, several degradation and condensation reactions were observed. The cleavage of methoxyl groups and side chains, oxidation reactions, cleavage of the β-O-4 ether linkage and cross-linking radicals arising at higher temperatures were all confirmed. However, during the thermal treatment, teak lignin changed in a different way than iroko lignin, e.g., the molecular weight of iroko lignin decreased at all applied temperatures while it increased at 180 °C and 210 °C in teak lignin, and the change in S/G ratio and the cleavage of alkyl-aryl bonds are different in both wood species.

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“…Lignin content in teak wood ranges from 30 to 43% [28][29][30][31]. Unmodified (reference) wood in this work has lignin content within this range (35.42%), as reported previously [32].…”

Section: Klason and Dioxane Lignin Yieldssupporting

confidence: 81%

The Impact of Thermal Treatment on Structural Changes of Teak and Iroko Wood Lignins

et al. 2020

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“…In addition, there are numerous causes for the formation of wood figures or burls, including congenital growth condition, growth rate and size of trees, postnatal climate, soil, geographic location, height above sea level, latitude, and biological and non-biological effects, such as the wounds caused by insects, animals, or out-side disasters, cellular morphology, arrangement influenced by ambient temperature and humidity changes, natural disasters, invasive infection of pathogens, variation of tree genes, a lack of phytohormones, or other unknown effects (Black, 1945;Kelly and Black, 1949;Black, 1952a and1952b;Millington, 1954a and1954b;Ahuja, 1962;de Torok, 1968;Beals and Davis, 1977;Eklund and Säll, 2000;Dodueva et al, 2007;Schweingruber, 2007;Lukmandaru, 2015). White and Millington (1954a) mentioned that the Picea glauca burl grows in coastal regions with salt mist.…”

Section: C Age Estimation Of Taiwan Cypress Bwfsmentioning

confidence: 99%

Density Analysis and Carbon Age Estimation of Taiwan Cypress Burl Wood Figure

Huang¹,

Jane²,

Fujimoto³

et al. 2021

Journal of the Faculty of Agriculture, Kyushu University

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This study used Soft X-ray image analysis and radiocarbon dating (14C dating) to analyze the density and estimate carbon age (14C age) of Taiwan cypress burl wood figures (BWFs). The densities of waterripple, sliver-ripple, peanut-like, phoenix tail-like, nail-like, and thorn-like burl figures were 0.64, 0.68, 0.73, 0.71, 0.93, and 0.86 g/cm 3 , respectively, which were higher than both of Chamaecyparis formosensis (0.50 g/cm 3 ) and Chamaecyparis obtusa var. formosana (0.54 g/cm 3 ). Physical organizational changes, cellular morphology, orientation of wood, and the amount of chemical substance (inclusion) might be related to BWF density variations. Both sides of a bright band or adjacent surfaces had different densities due to tracheid pattern differences. The higher nail dot density was supposed to be related to the inclusion. The 14C ages of water-ripple, sliver-ripple, peanut-like, phoenix tail-like, nail-like, and thorn-like burl figures were about 382, 180, 480, 342, 173, and 277 BP, respectively, meaning the precedence order of 14C ages of various BWFs might not be related to the complexity or density of BWF patterns. In addition to the time course, the formation of BWF patterns was related to the physical organizational or chemical substance changes, such as the cellular morphology, arrangement, or amount of inclusion of wood.

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“…Previous reports demonstrated that deoxylapachol effectively inhibited the growth of some fungi (Sumthong et al 2006(Sumthong et al , 2008Lukmandaru 2013). Thus, the formation of included phloem might be related to the Neotermes tectonae termite attacks (Lukmandaru 2015).…”

Section: Gas Chromatography-mass Spectrometry Analysismentioning

confidence: 99%

“…One of the studies has adressed the decay resistance of the included phloem in Koompassia excelsa wood and has compared it to the normal tissues (Wong 1988). Our previous works have explored the chemical characterization of abnormal wood in teak Lukmandaru 2011;Lukmandaru 2015). Therefore, this study investigated the colour and chemical properties of the included phloem stem wood in radial direction.…”

Section: Introductionmentioning

confidence: 99%

Properties of Included Phloem in Teakwood

Lukmandaru

2020

Wood Res. J

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In some areas of Indonesia, the heartwood of teak tree (Tectona grandis L.f.) contains included phloem, which is categorized as defects. This paper characterized the colour and chemical properties of such abnormal wood. Three selected trees from Perhutani plantation, Randublatung region, were assessed. The heartwood colour properties were measured by CIELAB system. Result showed that the included phloem-containing heartwood (IPHW) was darker (L*), but less red (a*) and yellow (b*) compared to the adjacent normal heartwood (NHW). The lignin and ash contents were not significantly different in the wood radial direction. In contrast, the level of extractive contents were significantly different between sapwood and heartwood. The amount of ethanol-benzene extractive and solubility in 1% NaOH in the IPHW region were significantly higher than that in normal tissues. The analysis of extractive components using gas chromatography-mass spectrometry showed that the deoxylapachol and lapachol was highly marked in the IPWH region. The obtained results suggest that napthaquinone compounds were related to the protection against wood-destroying organisme attack.

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Chemical Characteristics of Teak Wood Attacked by Neotermes tectonae

Cited by 13 publications

References 8 publications

The Impact of Thermal Treatment on Structural Changes of Teak and Iroko Wood Lignins

The Impact of Thermal Treatment on Structural Changes of Teak and Iroko Wood Lignins

Density Analysis and Carbon Age Estimation of Taiwan Cypress Burl Wood Figure

Properties of Included Phloem in Teakwood

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