大红酸枝——交趾黄檀木材材性研究进展
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摘要
从木材解剖特性、化学组成、木材价值等方面论述了交趾黄檀(Dalbergia cochinchinensis Pierre ex Laness)木材材性特点和价值,并归纳总结了区分辨别交趾黄檀木材的方法,为进一步开展交趾黄檀木材材性相关研究工作提供参考和依据。
引文
[1]Aree T,Tip-Pyang S,Seesukphronrarak S,et al.2-(5,7-Dihydroxy-4-oxo-4-H-chromen-3-yl)-5-methoxy-1,4-benzoquinone(isoflavonequinone)[J].Acta Crystallographica,2003,59(3):363-365.
[2]Barrett M A,Brown J L,Yoder A D.Protection for trade of precious rosewood[J].Nature.2013(499):29.
[3]陈居静.六种酸枝类木材结构特征及相关属性的研究[D].福州:福建农林大学,2013.
[4]CITES.Consideration of proposals for amendment of appendices I and II[C].Bangkok(Thailand):Convention on International Trade in Endangered Species(CITES),2013:1-16.
[5]邓海秀,徐峰.交趾黄檀与微凹黄檀比较研究初探[J].中国木材,2009(3):10-13.
[6]刁士琪,张方达,黄安民,等.借助红外光谱与二维相关红外光谱鉴别交趾黄檀与微凹黄檀[J].光谱学与光谱分析,2014,34(10):119-120.
[7]Donnelly D M.X,Nangle B J,Prendergast J P,et al.Dalbergia species.V.Isolation of(R)-5-O-methyllatifolin fromDalbergia cochinchinensis[J].Phytochemistry,1968,7(4):647-649.
[8]广东鱼珠木材市场.14年6月30日广东鱼珠木材市场大果紫檀、交趾黄檀价格行情[EB/OL].中国木材网.http://www.chinatimber.org/news/54604.html,2018-4-27.
[9]Hartvig I,So T,Changtragoon S,et al.Population genetic structure of the endemic rosewoods Dalbergia cochinchinensis and D.oliveri at a regional scale reflects the Indochinese landscape and life-history traits[J].Ecology&Evolution,2017:1-16.
[10]何拓,罗建举.交趾黄檀及其相似树种木材构造的比较分析[J].林业工程学报,2016,1(4):58-63.
[11]黄塞北.热带硬阔叶材高效干燥技术研究[D].南京:南京林业大学,2012.
[12]Jiang T,Li K,Liu H,et al.The effects of drying methods on extract of Dalbergia cochinchinensis,Pierre[J].European Journal of Wood&Wood Products,2016,74(5):1-7.
[13]焦立超.基于DNA条形码的濒危木材识别技术研究[D].北京:中国林业科学研究院,2015:34-96.
[14]Khorn S.Distribution of selected tree species for gene conservation in Cambodia.Viet Nam forest trees[M].Hanoi:Forest Inventory and Planning Institute.Agricultural Publishing House:Annex B2-1-B2-9,2002.
[15]Kuroyanagi M,Ueno A,Hirayama Y,et al.Anti-androgen active constituents from Dalbergia cochinchinensis Pierre[J].Natural Medicines,1996,50:408-412.
[16]李菲菲,张晶,范静涛,等.基于NIR和SVM算法的巴里黄檀和交趾黄檀鉴别研究[J].光谱学与光谱分析,2016,36(S1):69-72.
[17]李瑞聪.闽南山地引种交趾黄檀种源初步表现[J].绿色科技,2017(15):127-129.
[18]刘金良.基于DNA技术的木材树种识别研究[D].南京:南京林业大学,2012.
[19]刘能文,吕泽群,唐镇忠,等.五种珍贵热带硬阔叶树材的干燥基准[J].木材工业,2015,29(3):47-50.
[20]刘荣华,温新潮,张普照,等.交趾黄檀异黄酮类化学成分研究[J].中草药,2015,46(19):2851-2855.
[21]Liu R H,Wen X C.,Shao F.,Zhang P Z.,Huang HL.,Zhang S.Flavonoids from heartwood of Dalbergia cochinchinensis[J].Chinese Herbal Medicines,2016,8(1):89-93.
[22]Liu R H.,Li Y Y,Shao F,et al.A new Chalcone from the heartwood of Dalbergia cochinchinensis[J].Chemistry of Natural Compounds,2016,52(3):405-408.
[23]刘顺治,林金国,王晓娴,等.黄檀属和紫檀属6种红木化学组成及pH值的研究[J].西北林学院学报,2015,30(4):233-235.
[24]Luo S,Wu Y,Huang J.Thermal and chemical properties of benzene-alcohol extractives from two species of redwood[C].International Conference on Biobase Material Science and Engineering(BMSE),2012:156-160.
[25]木材王国.2018年03月22日广东鱼珠市场红木价格行情[EB/OL].中国木材网:http://www.chinatimber.org/price/64245.html,2018-4-27.
[26]Pathak V,Shirota O,Sekita S,et al.Anti-androgenic phenolic constituents from Dalbergia cochinchinensis[J].Phytochemistry,1997,46(7):1219-1223.
[27]Rasheeha N,Iftikhar H,Abdul T,et al.Antimicrobial activity of the bioactive components of essential oils from Pakistani spices against Salmonella and other multidrug resistant bacteria[J].BMC Complement Alternat Med,2013,13(1):265.
[28]So T,Dell B.Conservation and utilization of threatened hardwood species through reforestation-an example of Afzelia xylocarpa(Kruz.)Craib and Dalbergia cochinchinensis Pierre in Cambodia[J].Pacific Conservation Biology,2010,16(2):101-116.
[29]Sovu,Tigabu M,Savadogo P,et al.Enrichment planting in a logged-over tropical mixed deciduous forest of Laos.[J].Journal of Forestry Research,2010,21(3):273-280.
[30]孙书冬,周旭,罗炘,等.四种红酸枝木类树种的鉴别[J].林产工业,2012,39(3):50-53.
[31]Vu T T H,Dinh T P.Genetic diversity among endangered rare Dalbergia cochinchinensis(Fabaceae)genotypes in Vietnam revealed by random amplified polymorphic DNA(RAPD)and inter simple sequence repeats(ISSR)markers[J].African Journal of Biotechnology,2012,11(35):1684-5315.
[32]吴培衍,张荣标,张金文.红木树种新贵---交趾黄檀[J].福建热作科技,2016,41(4):51-54.
[33]吴青思,王旋,夏金尉,等.交趾黄檀和微凹黄檀木材构造特征及GC-MS的辨析[J].林业工程学报,2017,2(6):26-30.
[34]杨柳,方崇荣,于海霞,等.顶空/气质联用鉴别交趾黄檀与微凹黄檀[J].中南林业科技大学学报,2013,33(12):151-156.
[35]张方达.七种酸枝类木材的红外光谱与二维相关红外光谱研究[D].北京:中国林业科学研究院,2014:7-71.
[36]Zhang F D,Xu C H,Li M Y,et al.Identification of Dalbergia cochinchinensis,(CITES Appendix II)from other three Dalbergia species using FT-IR and 2Dcorrelation IRspectroscopy[J].Wood Science&Technology,2016,50(4):693-704.
[37]张杰.2013拉丁美洲红木类木材识别特征量化的研究[D].南京:南京林业大学,2013.
[38]Zhong Y X,Huang R M,Zhou X J,et al.Chemical constituents from the heartwood of Dalbergia cochinchinensis[J].Natural Product Research&Development,2013,25(11):1515-1518.
[39]朱益萍,陈奶荣,饶久平,等.交趾黄檀心边材径向弯曲蠕变性能[J].福建林业科技,2016,43(2):112-116.
[2]Barrett M A,Brown J L,Yoder A D.Protection for trade of precious rosewood[J].Nature.2013(499):29.
[3]陈居静.六种酸枝类木材结构特征及相关属性的研究[D].福州:福建农林大学,2013.
[4]CITES.Consideration of proposals for amendment of appendices I and II[C].Bangkok(Thailand):Convention on International Trade in Endangered Species(CITES),2013:1-16.
[5]邓海秀,徐峰.交趾黄檀与微凹黄檀比较研究初探[J].中国木材,2009(3):10-13.
[6]刁士琪,张方达,黄安民,等.借助红外光谱与二维相关红外光谱鉴别交趾黄檀与微凹黄檀[J].光谱学与光谱分析,2014,34(10):119-120.
[7]Donnelly D M.X,Nangle B J,Prendergast J P,et al.Dalbergia species.V.Isolation of(R)-5-O-methyllatifolin fromDalbergia cochinchinensis[J].Phytochemistry,1968,7(4):647-649.
[8]广东鱼珠木材市场.14年6月30日广东鱼珠木材市场大果紫檀、交趾黄檀价格行情[EB/OL].中国木材网.http://www.chinatimber.org/news/54604.html,2018-4-27.
[9]Hartvig I,So T,Changtragoon S,et al.Population genetic structure of the endemic rosewoods Dalbergia cochinchinensis and D.oliveri at a regional scale reflects the Indochinese landscape and life-history traits[J].Ecology&Evolution,2017:1-16.
[10]何拓,罗建举.交趾黄檀及其相似树种木材构造的比较分析[J].林业工程学报,2016,1(4):58-63.
[11]黄塞北.热带硬阔叶材高效干燥技术研究[D].南京:南京林业大学,2012.
[12]Jiang T,Li K,Liu H,et al.The effects of drying methods on extract of Dalbergia cochinchinensis,Pierre[J].European Journal of Wood&Wood Products,2016,74(5):1-7.
[13]焦立超.基于DNA条形码的濒危木材识别技术研究[D].北京:中国林业科学研究院,2015:34-96.
[14]Khorn S.Distribution of selected tree species for gene conservation in Cambodia.Viet Nam forest trees[M].Hanoi:Forest Inventory and Planning Institute.Agricultural Publishing House:Annex B2-1-B2-9,2002.
[15]Kuroyanagi M,Ueno A,Hirayama Y,et al.Anti-androgen active constituents from Dalbergia cochinchinensis Pierre[J].Natural Medicines,1996,50:408-412.
[16]李菲菲,张晶,范静涛,等.基于NIR和SVM算法的巴里黄檀和交趾黄檀鉴别研究[J].光谱学与光谱分析,2016,36(S1):69-72.
[17]李瑞聪.闽南山地引种交趾黄檀种源初步表现[J].绿色科技,2017(15):127-129.
[18]刘金良.基于DNA技术的木材树种识别研究[D].南京:南京林业大学,2012.
[19]刘能文,吕泽群,唐镇忠,等.五种珍贵热带硬阔叶树材的干燥基准[J].木材工业,2015,29(3):47-50.
[20]刘荣华,温新潮,张普照,等.交趾黄檀异黄酮类化学成分研究[J].中草药,2015,46(19):2851-2855.
[21]Liu R H,Wen X C.,Shao F.,Zhang P Z.,Huang HL.,Zhang S.Flavonoids from heartwood of Dalbergia cochinchinensis[J].Chinese Herbal Medicines,2016,8(1):89-93.
[22]Liu R H.,Li Y Y,Shao F,et al.A new Chalcone from the heartwood of Dalbergia cochinchinensis[J].Chemistry of Natural Compounds,2016,52(3):405-408.
[23]刘顺治,林金国,王晓娴,等.黄檀属和紫檀属6种红木化学组成及pH值的研究[J].西北林学院学报,2015,30(4):233-235.
[24]Luo S,Wu Y,Huang J.Thermal and chemical properties of benzene-alcohol extractives from two species of redwood[C].International Conference on Biobase Material Science and Engineering(BMSE),2012:156-160.
[25]木材王国.2018年03月22日广东鱼珠市场红木价格行情[EB/OL].中国木材网:http://www.chinatimber.org/price/64245.html,2018-4-27.
[26]Pathak V,Shirota O,Sekita S,et al.Anti-androgenic phenolic constituents from Dalbergia cochinchinensis[J].Phytochemistry,1997,46(7):1219-1223.
[27]Rasheeha N,Iftikhar H,Abdul T,et al.Antimicrobial activity of the bioactive components of essential oils from Pakistani spices against Salmonella and other multidrug resistant bacteria[J].BMC Complement Alternat Med,2013,13(1):265.
[28]So T,Dell B.Conservation and utilization of threatened hardwood species through reforestation-an example of Afzelia xylocarpa(Kruz.)Craib and Dalbergia cochinchinensis Pierre in Cambodia[J].Pacific Conservation Biology,2010,16(2):101-116.
[29]Sovu,Tigabu M,Savadogo P,et al.Enrichment planting in a logged-over tropical mixed deciduous forest of Laos.[J].Journal of Forestry Research,2010,21(3):273-280.
[30]孙书冬,周旭,罗炘,等.四种红酸枝木类树种的鉴别[J].林产工业,2012,39(3):50-53.
[31]Vu T T H,Dinh T P.Genetic diversity among endangered rare Dalbergia cochinchinensis(Fabaceae)genotypes in Vietnam revealed by random amplified polymorphic DNA(RAPD)and inter simple sequence repeats(ISSR)markers[J].African Journal of Biotechnology,2012,11(35):1684-5315.
[32]吴培衍,张荣标,张金文.红木树种新贵---交趾黄檀[J].福建热作科技,2016,41(4):51-54.
[33]吴青思,王旋,夏金尉,等.交趾黄檀和微凹黄檀木材构造特征及GC-MS的辨析[J].林业工程学报,2017,2(6):26-30.
[34]杨柳,方崇荣,于海霞,等.顶空/气质联用鉴别交趾黄檀与微凹黄檀[J].中南林业科技大学学报,2013,33(12):151-156.
[35]张方达.七种酸枝类木材的红外光谱与二维相关红外光谱研究[D].北京:中国林业科学研究院,2014:7-71.
[36]Zhang F D,Xu C H,Li M Y,et al.Identification of Dalbergia cochinchinensis,(CITES Appendix II)from other three Dalbergia species using FT-IR and 2Dcorrelation IRspectroscopy[J].Wood Science&Technology,2016,50(4):693-704.
[37]张杰.2013拉丁美洲红木类木材识别特征量化的研究[D].南京:南京林业大学,2013.
[38]Zhong Y X,Huang R M,Zhou X J,et al.Chemical constituents from the heartwood of Dalbergia cochinchinensis[J].Natural Product Research&Development,2013,25(11):1515-1518.
[39]朱益萍,陈奶荣,饶久平,等.交趾黄檀心边材径向弯曲蠕变性能[J].福建林业科技,2016,43(2):112-116.