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《Wood material science & engineering》2013,8(2):101-106
Abstract The effect of heat treatment on decay resistance of white birch was evaluated for different incubation periods ranging from 2 to 12 weeks using three species of brown rot and one species of white rot fungus. The results of weight loss tests showed that the white rot fungus, Trametes versicolor, effectively degraded the untreated wood (73.5%). While the degradation of untreated wood by brown rot fungi species, Gloephyllum trabeum (11.6%) and Conifora puteana (6.2%), was considerably less compared to T. versicolor, the third brown rot fungi studied, Poria placenta, caused an appreciable degradation of the same species (52.4%). The results clearly showed that the heat treatment reduced the effect of fungi attack on white birch. Increasing the heat treatment temperature from 195 to 215°C resulted in reduction of weight loss, consequently, reduction in fungal attack. As an example, the weight loss reductions due to T. versicolor, P. placenta, G. trabeum and C. puteana attack was 62.2%, 71.3%, 89.6% and 100%, respectively, compared to the weight loss of untreated wood when it is heat treated at 215°C. Thus, these results confirmed that the heat treatment increased the biological resistance of white birch. 相似文献
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Giuliana Deflorio Craig Johnson Siegfried Fink Francis Willis Mathew Robert Schwarze 《Forest Ecology and Management》2008
Development of decay and/or discoloration was assessed in the functional sapwood of one coniferous and three deciduous trees after wounding and artificial inoculation with six wood decay fungi. Living stems of mature Douglas fir, beech, oak, and sycamore trees were wounded in spring 2002 and immediately inoculated with brown, white, and soft rot fungi. Extent of discoloration and decay, wood weight loss, and total phenols in the reaction zone (zone of active response at a dynamic interface between living sapwood and wood colonized by decay fungi) were assessed 16 and 28 months after inoculation. 相似文献
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生物处理杨木制浆造纸的初步研究 总被引:7,自引:0,他引:7
利用白腐菌对杨木片进行生物处理并制浆造纸,研究结果表明,白腐菌C.v.No.1、C.v.-No.2对杨木片显示出较强的木素分解能力,经生物处理后的木片用于制浆造纸,纸的物理性能,如白度,裂断长,伸长率等项指标都高于未经生物处理木片抄纸的指标,同时用生物处理的杨木木片的化学浆时其蒸煮时间仅为未处理木片蒸煮时间的一半。 相似文献
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Heat treatment of wood at relatively high temperatures (in the range of 150–280°C) is an effective method to improve biological
durability of wood. This study was performed to investigate the effect of heat treatment process optimisation on the resistance
against fungal attack, including basidiomycetes, molds and blue stain fungi. An industrially used two-stage heat treatment
method under relatively mild conditions (<200°C) was used to treat the boards. Heat treatment of radiata pine sapwood revealed
a clear improvement of the resistance against the brown rot fungi Coniophora puteana and Poria placenta. Increasing process temperature and/or effective process time during the first process stage, the hydro thermolysis, appeared
to affect the resistance against C. puteana attack, but the effect on the resistance against P. placenta was rather limited. Heat treated radiata pine showed a limited resistance against the white rot fungus Coriolus versicolor and process variations during the hydro thermolysis stage appeared not to affect this resistance. A clear difference between
the resistance of heat treated Scots pine sapwood and heartwood against fungal attack is observed. Scots pine heartwood showed
a higher resistance against C. puteana and P. placenta but also against the white rot fungus C. versicolor. Similar results were obtained when heat treated birch was exposed to brown and white rot fungi. Heat treatment showed an
improved resistance against C. puteana attack, especially at higher temperatures during the hydro thermolysis stage. A clear improvement of the durability was also
observed after exposure to the white rot fungus C. versicolor and especially Stereum hirsutum. Increasing the process temperature or process time during the hydro thermolysis stage appeared to have a limited effect
on the resistance against C. versicolor attack. Heat treated radiata pine and Norway spruce were still susceptible to mold growth on the wood surface, probably due
to the formation of hemicelluloses degradation products (e.g. sugars) during heat treatment. Remarkable is the absence of
blue stain fungi on heat treated wood specimen, also because the abandant blue stain fungi were observed on untreated specimen.
Molecular reasons for the resistance of heat treated wood against fungal attack are discussed in detail contributing to a
better understanding of heat treatment methods. 相似文献
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铜-季铵盐复配木材防腐剂的防腐性能 总被引:7,自引:1,他引:7
在实验室内采用常规的真空-加压法浸注试件,土壤木块法进行防腐试验,检验了铜-季铵盐类防腐剂(FFJ-1、FFJ-2和FFJ-3)对白腐采绒革盖菌[Coriolus versicolor(L.ex Fr.)Quel.]和褐腐绵腐卧孔菌[Poria placenta(Fr.)Cooke.]的防腐性能,结果表明:在较低的保持量下,都有较好的防腐效果。与百菌清(可湿性粉剂)、五氯酚钠、三唑酮相比较,它们对白腐菌的防腐性能与百菌清相近,批五氯酚钠和三唑酮好。 相似文献
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ABSTRACTStructural alterations in the wood cell walls of neem inoculated with by Trametes hirsuta and T. versicolor were studied by microscopic methods. In vitro decayed wood showed extensive weight loss of test blocks (26.7 and 41.38% by T. versicolor and T. hirsuta, respectively) at the end of 3 months. Selective delignification in the initial phase followed by simultaneous removal of lignin was evident in test blocks inoculated with both the species. The separation of middle lamellae and patches of cellulosic polysaccharides stained blue with Astra blue in the delignified region of the fiber wall during early stages indicates selective mode of decay. In contrast, the occurrence of erosion troughs with characteristic U-notch in tangential sections is a characteristic feature of simultaneous rot that was apparent after 3 months of incubation. The decay pattern occurred concomitantly in all the xylem elements irrespective of general resistance pattern shown by vessel and axial parenchyma cells. At an advance stage, both species of Trametes showed formation of erosion channels along the microfibrils angle of cellulose which is considered as characteristics of soft rot decay type. The sharing of white rot and soft rot decay pattern by both the fungi suggest a phylogenetic link between both groups of fungi. 相似文献
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6种木材白腐菌对山杨材木质素分解能力的研究 总被引:13,自引:3,他引:13
由于不同的木材腐朽菌的生理特性不同 ,所分泌的酶及酶的活性各不相同 ,因此 ,不同的腐朽菌分解木材的各种成分及相对速度就各不相同 ,而且对于木质纤维基质会有不同的中间代谢产物。本项研究选择了火木层孔菌 (Phelliusigniarius)及另外 5种木材分解能力较强的阔叶树上的白腐菌 :粗毛盖菌 (Funaliagallica)、三色革裥菌 (Lenzitestricolor)、冬拟多孔菌 (Polyporellusbrumalis)、偏肿拟栓菌 (Pseudotrametesgibbosa)和血红密孔菌 (Pyc noporussanguineus) ,研究了它们对山杨木材木质素的分解能力 ,测定了经 6种白腐菌分解一定时期的山杨木材木质素的含量 ,作为木材白腐菌对山杨木材木质素生物降解机制的初步研究 ,旨在为山杨木材生物制浆造纸提供应用基础理论研究 ,同时也可为木质素合理的生物转化为有用的化学品、生物漂白、酶处理防止机械浆的返黄、废水治理、纤维素酶解糖化的微生物前处理等提供相关的借鉴研究 ,以期在生产实践中减轻环境污染并充分利用木质素资源。在无菌的条件下 ,将山杨木片样品分别放入以上 6种白腐菌的平板培养基中受菌侵染 ,一定时间后取出 ,去除木片表面的菌丝体 ,然后分别测定未腐朽材和受菌侵染 4 0d、6 0d、80d和 12 0d时木片样品中木质素的含量 ,分析 6种白腐菌对山杨木 相似文献
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木材白腐机理研究进展 总被引:14,自引:0,他引:14
白腐菌是木材的主要腐朽菌之一,白腐菌菌丝在细胞内形成多种降解酶主要是木素降解酶,次则是纤维素降解酶及半纤维素降解酶,以降解细胞壁物质中的木素、半纤维素及纤维素,作为木腐菌的营养。由于这些木材组成的降解,必然改变木材的化学及物理性质。近年来,在白腐菌的营养需求、降解酶传递途径,对木材主要组成酶降解机理及对材性的影响,产酶的分子遗传等领域的研究均取得一定进展,可望不久将来能利用生物工程改变白腐菌基因, 相似文献
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Hem-fir plywood were exposed to two brown rot fungi, Gloeophyllum trabeum and Postia placenta, and one white rot fungus, Trametes versicolor, to investigate the effect of fungal decay on mechanical properties of plywood. Results showed that modulus of rupture (MOR) and modulus of elasticity (MOE) of hem-fir plywood declined significantly by inoculating fungi, and weight loss of sample had a modest decrease. The fungi also made a greater effect on MOR than on MOE. Of three fungi, Postia placenta caused a most significant weight loss, and Gloeophyllum trabeum resulted in a largest flexural properties loss. Substantial declines in MOR and MOE of hem-fir plywood were also observed when the plywood samples were stored under wet conditions over 15 weeks, even in the absence of fungal attack. 相似文献
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以水蒸气作为保护气体,在170,185,200和215℃的条件下分别热处理橡胶木3h,对热改性橡胶木的生物耐久性进行研究.结果显示:高温热改性可提高橡胶木的耐腐性,其改善效果随着处理温度的升高而提高,当处理温度为185℃或更低温度时,改善效果不明显.215℃处理3h后,褐腐(密黏褶菌)质量损失率由51.6%降至21.6%,白腐(采绒革盖菌)质量损失率由27.6%降至6.8%.选用烟曲霉、哈茨木霉、产紫青霉和可可球二孢进行防霉试验,结果显示热改性橡胶木的防霉性能与对照相比没有明显的改善;经涂饰后,热改性试材的防霉性能优于未处理材.野外耐久性试验结果显示,高温热改性不能提高橡胶木的防白蚁性能. 相似文献
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In vitro wood slats degradation assays reveal that both the white root rot fungus R. lignosus and the brown root rot fungus P. noxius cause a white rot of wood. In vivo (infected tap roots) they cause the same type of decay. Nevertheless lignin determination show the rubber-tree ability to react against the parasite aggression by increased lignification of tissues. 相似文献
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本文首次系统报道了生长在中国原木、建筑物(包括房屋、桥梁、涵洞、栅栏等木质结构材)、坑木、枕木、矿柱、电杆、薪材等上的腐朽菌107种.其中24种引起木材褐色腐朽,83种引起白色腐朽.褐色腐朽的种类主要发生在针叶树木材上,白色腐朽的种类在针叶树和阔叶树木材上都常见.在针叶树原木上常见的木材腐朽菌有黄薄孔菌、红缘拟层孔菌、深褐褶菌、硫磺绚孔菌、冷杉附毛孔菌.在阔叶树原木上常见的有紫褐多孢孔菌、黑管孔菌、一色齿毛菌、红贝俄氏孔菌、硬毛粗毛盖孔菌、皮生锐孔菌、淡黄木层孔菌、鲜红密孔菌、淡黄裂孔菌、毛栓孔菌、锗栓孔菌和云芝栓孔菌等.这些种类来自作者长期的采集、记载和鉴定,全部标本保存在中国科学院沈阳应用生态研究所生物标本馆. 相似文献
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《Wood material science & engineering》2013,8(3):174-184
ABSTRACTThe goal of this study was to demonstrate how synchrotron-based X-ray fluorescence microscopy (XFM) can be used to better understand the mechanisms of copper tolerance in wood decay fungi. Copper is a major component in commercial wood preservatives as it is toxic to many wood decay fungi. However, certain fungi are copper tolerant and can attack preservative-treated wood, resulting in structural damage to treated wood members. Here we used large-field XFM to visualize six different elements (K, Ca, Mn, Fe, Cu, and Zn) in the mycelia and wood inoculated with four different species of brown rot wood decay fungi. Wood blocks were partially dipped into a solution of copper sulfate, exposed to fungi in malt extract agar petri dish assays for nine weeks, and then imaged and compared to blocks that were partially dipped in water. The blocks were imaged immediately adjacent to an end-matched control that was placed in malt extract agar petri dish assays for 9 weeks, but not exposed to the fungi so that the differences in the elemental distributions could be directly compared. The colonized wood and mycelia were rich in K, Ca, Mn, and Fe; however, the elements and the spatial distribution in the mycelia and wood differed across fungal species. The most interesting results were the maps showing the copper distribution. While three of the four fungi grew on the copper-rich region of the wood, only one species, Fibroporia radiculosa, dramatically reduced the copper concentration in the region of fungal growth. 相似文献
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Monotonic and reversed cyclic loading tests were conducted on dowel-type timber joints with varying degrees of wood decay
due to Fomitopsis palustris (Berk. et Curt.), a brown rot fungus, and the effect of decay on various shear performances of dowel-type joints was investigated.
For joints affected by the brown rot fungus, the initial stiffness, yield load, and maximum load of dowel-type joints were
significantly decreased, even with a small mass loss of wood. The reductions in shear performance were the largest for initial
stiffness, followed by yield load and maximum load, in that order. For a 1% reduction of the yield load, initial stiffness
and maximum load showed reductions of 1.15% and 0.77%, respectively. When dowel-type joints that had been exposed to the brown
rot fungus were subjected to reversed cyclic loading, the gap between the dowel and the lead hole of the wood was increased
and equivalent viscous damping was decreased. These results indicate that decay around the dowel lead hole especially affects
the load-displacement behavior at small displacement level, and dowel-type joints under cyclic loading have very low resistance
to forces acting on the wooden structure.
Part of this report was presented at the 5th Symposium on Timber Bridges of the Japan Society of Civil Engineers, Tokyo, July
2006; the 56th Annual Meeting of the Japan Wood Research Society, Akita, August 2006; and the Annual Meeting of the Architectural
Institute of Japan, Fukuoka, August 2007 相似文献