紫檀属木材荧光性能种间差异和心边材差异
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摘要
为促进紫檀属木材树种的快速准确识别,分别研究6种紫檀属木材荧光性能的种间和心边材差异。结果显示,6种紫檀属木材种间和心边材的荧光性能差异均为显著;通过荧光光谱检测,综合考虑荧光强度等定量指标和荧光颜色等定性指标,可以准确判定檀香紫檀和染料紫檀,同时将安哥拉紫檀与大果紫檀、刺猬紫檀和非洲紫檀区分。荧光性能标准化定性和定量检测,可以辅助解剖学识别方法,提高紫檀属木材的鉴定水平。
To assist rapid and accurate identification of Pterocarpus species, interspecies differences and differences between heartwood and sapwood in wood fluorescence properties of 6 Pterocarpus species were studied.Results showed that the interspecies differences and differences between heartwood and sapwood of wood fluorescence properties of Pterocarpus species were significant. Through fluorescence spectrum detection,the quantitative indexes such as fluorescence intensity and the qualitative indexes such as fluorescence color are comprehensively considered. P. santalinus and P. tincrorius could be accurately determined. At the same time, P. angolensis could be discriminated from P. marsupium, P. erinaceus and P. soyauxii.Qualitative and quantitative standardization detection of wood fluorescence properties could be an assistant method to improve identification level of Pterocarpus species.
To assist rapid and accurate identification of Pterocarpus species, interspecies differences and differences between heartwood and sapwood in wood fluorescence properties of 6 Pterocarpus species were studied.Results showed that the interspecies differences and differences between heartwood and sapwood of wood fluorescence properties of Pterocarpus species were significant. Through fluorescence spectrum detection,the quantitative indexes such as fluorescence intensity and the qualitative indexes such as fluorescence color are comprehensively considered. P. santalinus and P. tincrorius could be accurately determined. At the same time, P. angolensis could be discriminated from P. marsupium, P. erinaceus and P. soyauxii.Qualitative and quantitative standardization detection of wood fluorescence properties could be an assistant method to improve identification level of Pterocarpus species.
引文
[J]姜笑梅,殷亚方,刘波.木材树种识别技术现状、发展与展望[J].木材工业,2010, 24(4):36-39.
[2]张洁,袁鹏飞,李君.木材识别与鉴定技术研究综述[J].湖北林业科技,2015,44(2):30-35.
[3] LI chao J,MIN Y, ALEX C. Wiedenhoeft, et al. DNA barcode of authentiation and library development for the wood of six commercial Pterocarpus species:the critical role of xylarium specimens[J].Scientific Reports, 2018, 8(1):1945.
[4] BONER M, SOMMER T, ERVEN C, et al. Stable isotopes as a tool to trace back the origin of wood[C]//Proceedings of the international workshop"Fingerprinting methods for the identification of timber origins". Germany, 2007.
[5] ESPINOZA E O1 WIEMANN M C, Barajas-Morales J, et al. Forensic analysis of CITES-protected Dalbergia timber from the Americans[J].IAWA Journal, 2015, 36(3):311-325.
[6] BAJKOWSKI B. Application of artificial intelligence in the wood industry[R]. Annals of Warsaw University of Life Sciences-SGGW.Forestry and Wood Technology, 2011:106-110.
[7] Keqi W, Shaochun Y, Tianhong D, et al. Research on wood classification using uniform color space[J]. Computer Engineering and Design, 2008,29(7):1780-1784.
[8]程士超,李丹,张求慧,等.5种花梨木的红外光谱比较分析[J].北京林业大学学报,2016,38(1):118-124.
[9]尚丽平,杨仁杰.现场荧光光谱技术及其应用[M].北京:科学出版社,2008.
[10]陈桂丹,徐峰.亚花梨木类主要树种及其识别特征[J].中国木材,2010(2):10-14.
[11]刘波,卢芸,张毛毛,等.样品要求和观察光源对紫檀属木材荧光性能的影响[J].木材工业,2019, 33(1):17-20.
[12]刘波,邬瑞东,卢芸,等.提取条件对紫檀属木材荧光性能的影响[J].木材工业,2019, 33(2):16-19.
[13] JOSEPH R, Lakowicz. Principles of Fluorescence Spectroscopy, 3~(rd)[M].Berlin:Springer, 2006.
[14]李坚.木材科学[M].北京:高等教育出版社,2012.
[15] Hillis W E, Melbourne. Chemical aspects of heartwood formation[J].Wood Science and Technology, 1968, 2(4):211-259.
[16] BAMBER R K, FUKAZAWAK. Sapwood and heartwood:Areview[C]//Pacific Regional Wood Anatomy Conference 1984, 46(9):567-580.
[2]张洁,袁鹏飞,李君.木材识别与鉴定技术研究综述[J].湖北林业科技,2015,44(2):30-35.
[3] LI chao J,MIN Y, ALEX C. Wiedenhoeft, et al. DNA barcode of authentiation and library development for the wood of six commercial Pterocarpus species:the critical role of xylarium specimens[J].Scientific Reports, 2018, 8(1):1945.
[4] BONER M, SOMMER T, ERVEN C, et al. Stable isotopes as a tool to trace back the origin of wood[C]//Proceedings of the international workshop"Fingerprinting methods for the identification of timber origins". Germany, 2007.
[5] ESPINOZA E O1 WIEMANN M C, Barajas-Morales J, et al. Forensic analysis of CITES-protected Dalbergia timber from the Americans[J].IAWA Journal, 2015, 36(3):311-325.
[6] BAJKOWSKI B. Application of artificial intelligence in the wood industry[R]. Annals of Warsaw University of Life Sciences-SGGW.Forestry and Wood Technology, 2011:106-110.
[7] Keqi W, Shaochun Y, Tianhong D, et al. Research on wood classification using uniform color space[J]. Computer Engineering and Design, 2008,29(7):1780-1784.
[8]程士超,李丹,张求慧,等.5种花梨木的红外光谱比较分析[J].北京林业大学学报,2016,38(1):118-124.
[9]尚丽平,杨仁杰.现场荧光光谱技术及其应用[M].北京:科学出版社,2008.
[10]陈桂丹,徐峰.亚花梨木类主要树种及其识别特征[J].中国木材,2010(2):10-14.
[11]刘波,卢芸,张毛毛,等.样品要求和观察光源对紫檀属木材荧光性能的影响[J].木材工业,2019, 33(1):17-20.
[12]刘波,邬瑞东,卢芸,等.提取条件对紫檀属木材荧光性能的影响[J].木材工业,2019, 33(2):16-19.
[13] JOSEPH R, Lakowicz. Principles of Fluorescence Spectroscopy, 3~(rd)[M].Berlin:Springer, 2006.
[14]李坚.木材科学[M].北京:高等教育出版社,2012.
[15] Hillis W E, Melbourne. Chemical aspects of heartwood formation[J].Wood Science and Technology, 1968, 2(4):211-259.
[16] BAMBER R K, FUKAZAWAK. Sapwood and heartwood:Areview[C]//Pacific Regional Wood Anatomy Conference 1984, 46(9):567-580.
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