参考文献/References:
[1] Tang C Q,Chiou C,Lin C,et al. Plant diversity patterns in subtropical evergreen broad-leaved forests of Yunnan and Taiwan [J]. Ecol Res,2013,28(1):81-92.
[2] 陈焕庸,黄成就. 中国植物志(第22卷)[M]. 北京:科学出版社,1998:28.
[3] 丘小军,朱积余,蒋燚等. 红锥的天然分布与适生条件研究[J]. 广西农业生物科学,2006,25(2):175-179.
[4] Li J,Ge X J,Cao H L,et al. Chloroplast DNA diversity in Castanopsis hystrix populations in south China [J]. For Ecol Manage,2007,243(1):94–101.
[5] Buffum B,Gratzer G,Tenzin Y. The sustainability of selection cutting in a late successional broadleaved community forest in Bhutan [J]. For Ecol Manage,2008,256 (12):2 084-2 091.
[6] Wang F M,Zhu W X,Zou B,et al. Seedling growth and soil nutrient availability in exotic and native tree species: implications for afforestation in southern China [J]. Plant Soil,2013(364):207-218.
[7] Hsue-Fen C,Tanaka T,Nonaka G,et al. Phenylpropanoid-substituted catechins from Castanopsis hystrix and structure revision of cinchonains [J]. Phytochemistry,1993a,33:183–187.
[8] Hsue-Fen C,Tanaka T,Nonaka G,et al. Hydrolysable tannins based on a triterpenoid glycoside core,from Castanopsis hystrix[J]. Phytochemistry,1993b,32:1 457–1 460.
[9] Chang C W,Lin M T,Lee S S,et al. Differential inhibition of reverse transcriptase and cellular DNA polymerase-alpha activities by lignans isolated from Chinese herbs,Phyllanthus myrtifolius Moon,and tannins from Lonicera japonica Thunb and Castanopsis hystrix [J]. Antivir Res,1995,27(4):367-374.
[10] Liu J,Zhou G,Xu Z,et al. Photosynthesis acclimation,leaf nitrogen concentration,and growth of four tree species over 3 years in response to elevated carbon dioxide and ntrogen treatment in subtropical China [J]. J Soils and Sedi,2011,11 (7):1 155-1 164.
[11] 蒋燚,朱积余,张泽尧,等. 红锥种源多点育苗试验研究[J]. 广西林业科学,2005,34(4):196-199.
[12] 严平勇. 红锥不同种源苗期生长与变异研究[J]. 林业调查规划,2014,39(3):155-159.
[13] 朱积余,蒋燚,丘小军. 广西红锥地理种源试验初报[J]. 广西林业科学,1997(2):66-68.
[14] 申文辉,朱积余,刘秀,等. 红锥种源区域试验与优良种源选择[J]. 中南林业科技大学学报,2014(3):11-17.
[15] 张凤良,张方秋,潘文,等. 17个红锥种源叶片性状变异分析[J]. 广东林业科技,2011.
[16] 张凤良,张方秋,段安安,等. 17个红锥种源生长、干形及木材基本密度变异分析[J]. 广东林业科技,2013,29(2):17-22..
[17] 朱炜,李宝福,潘琼蓉,等. 红锥家系苗期变异与初步选择的研究[J]. 山地农业生物学报,2014(5):19-24.
[18] 张凤良,张方秋,段安安,等. 不同种源红锥光合特性与水分利用效率变异分析[J]. 西南林业大学学报,2012(4):12-16.
[19] Sun G,Zeng X,Liu X,et al. Effects of moderate high-temperature stress on photosynthesis in three saplings of the constructive tree species of subtropical forest [J]. Acta Ecol Sin,2007,27(4):1 283–1 290.
[20] 蒋燚,朱积余,黄荣林,等. 10个红锥种源不同种植点的光响应[J]. 广西林业科学,2013a,42(3):213-217.
[21] 蒋燚,李志辉,朱积余,等. 不同红锥种源幼林光合特性日变化测定与分析[J]. 中南林业科技大学学报,2013b,33(6):43-47.
[22] 朱积余,蒋燚,梁瑞龙,等. 广西红锥种源/家系造林试验研究初报[J]. 西部林业科学,2005,34(4):5-9.
[23] 朱积余,申文辉,蒋燚,等. 红锥家系遗传变异与优良家系选择[J]. 热带亚热带植物学报,2014(3):270-280.
[24] 蒋燚,李志辉,朱积余,等. 红锥家系木材密度等物理性状的遗传及变异性分析[J]. 中南林业科技大学学报,2012,32(11):9-13.
[25] 张方秋,朱积余,黄永权,等. 红锥中心分布区种源早期生长研究[J]. 广东林业科技,2005,21(4):9-12.
[26] Yu Y,Baskin J M,Baskin C C,et al. Ecology of seed germination of eight non-pioneer tree species from a tropical seasonal rain forest in southwest China [J]. Plant Ecol,2008,197(1):1-16.
[27] 朱积余,唐玉贵,陈尔. 红锥采穗圃营建及其穗条的扦插育苗试验[J]. 西部林业科学,2007,36(2):10-12.
[28] 邓燕忠,连辉明. 红锥扦插繁殖试验[J]. 广东林业科技,2005,21(3):45-47.
[29] 陈明荣,余德钦,林雄. 红锥嫁接初探[J]. 广东林业科技,1985(5):22-26.
[30] 钟瑜,张张振谋,谭英彬等. 红锥与白锥种间嫁接育苗试验[J]. 福建林业科技,2012,39(4):86-88,108.
[31] 蒋桂雄,朱积余. 广西珍贵树种高效栽培技术[M]. 北京:中国林业出版社,2012.
[32] Li J,Ge X J,Cao H L,et al. Chloroplast DNA diversity in Castanopsis hystrix populations in south China [J]. For Ecol Manage,2007,243(1):94–101.
[33] Li R,Sun B,Wang Q,et al. Two new Castanopsis (Fagaceae) species based on cupule and foliage from the upper Miocene of eastern Zhejiang,China [J]. Plant Syst Evol,2015,301(1):25-39.
[34] 朱积余,申文辉,蒋燚等. 红锥家系遗传变异与优良家系选择[J]. 热带亚热带植物学报,2014(3):270-280.
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