[1] PRETZSCH H. Forest Dynamics, Growth and Yield:from Measurement to Model[M]. Berlin:Springer-Verlag, 2009:20-21.
[2] GUZMÁN G, PUKKALA T, PALAHÍ M, et al. Predicting the growth and yield of Pinus radiata in Bolivia[J]. Ann For Sci, 2012, 69(3):335-343.
[3] MOGUÉDEC G L, DHÔTE J F. Fagacées:a tree-centered growth and yield model for sessile oak (Quercus petraea L.) and common beech (Fagus sylvatica L.)[J]. Ann For Sci, 2012, 69(2):257-269.
[4] KIMBERLEY M O, LEDGARD N J. Site index curves for Pinus nigra grown in the South Island high country, New Zealand[J]. New Zealand J For Sci, 1998, 28(3):389-399.
[5] 张瑜, 贾黎明, 郑聪慧, 等.秦岭地区栓皮栎天然次生林地位指数表的编制[J].林业科学, 2014, 50(4):47-54.

ZHANG Yu, JIA Liming, ZHENG Conghui, et al. Establishment of a site index table for Quercus variabilis natural secondary stand in Qinling Mountains[J]. Sci Silv Sin, 2014, 50(4):47-54.
[6] 吴恒, 党坤良, 田相林, 等.秦岭林区天然次生林与人工林立地质量评价[J].林业科学, 2015, 51(4):78-88.

WU Heng, DANG Kunliang, TIAN Xianglin, et al. Evaluating site quality for secondary forests and plantation in Qinling Mountains[J]. Sci Silv Sin, 2015, 51(4):78-88.
[7]

KITIKIDOU K, MILIOS E, TSIREKIS E, et al. Site quality assessment of degraded Quercus frainetto stands in central Greece[J]. iFor Biogeosci For, 2015, 8(1):53-58.
[8] 曾杰.西南桦丰产栽培技术问答[M].北京:中国林业出版社, 2010:2-3.
[9]

WANG Chunsheng, ZHAO Zhigang, HEIN S, et al. Effect of planting density on knot attributes and branch occlusion of Betula alnoides under natural pruning in southern China[J]. Forests, 2015, 6(4):1343-1361.
[10]

SUR T K, PANDIT S, BATTACHARYYA D, et al. Studies on the antiinflammatory activity of Betula alnoides bark[J]. Phytother Res, 2002, 16(7):669-671.
[11]

RAJ D A, MALARVILI T, VELAVAN S. Restorative effect of Betula alnoides bark on hepatic metabolism in high fat diet fed Wistar rats[J]. Int J Pharm Bio Sci, 2015, 6(3):B1281-B1288.
[12] 曾杰, 郭文福, 赵志刚, 等.我国西南桦研究的回顾与展望[J].林业科学研究, 2006, 19(3):379-384.

ZENG Jie, GUO Wenfu, ZHAO Zhigang, et al. Domestication of Betula alnoides in China:current status and perspectives[J]. For Res, 2006, 19(3):379-384.
[13] 孟宪宇.测树学[M].北京:中国林业出版社, 2006:106-107.
[14] 段爱国, 张建国.杉木人工林优势高生长模拟及多形地位指数方程[J].林业科学, 2004, 40(6):13-19.

DUAN Aiguo, ZHANG Jianguo. Modeling of dominant height growth and building of polymorphic site index equations of Chinese fir plantation[J]. Sci Silv Sin, 2004, 40(6):13-19.
[15] 赵磊, 倪成才, NIGH G.加拿大哥伦比亚省美国黄松广义代数差分型地位指数模型[J].林业科学, 2012, 48(3):74-81.

ZHAO Lei, NI Chengcai, NIGH G. Generalized algebraic difference site index model for ponderosa pine in British Columbia, Canada[J]. Sci Silv Sin, 2012, 48(3):74-81.
[16] 段劼, 马履一, 贾黎明, 等.北京低山地区油松人工林立地指数表的编制及应用[J].林业科学, 2009, 45(3):7-12.

DUAN Jie, MA Lüyi, JIA Liming, et al. Establishment and application of site index table for Pinus tabulaeformis plantation in the low elevation area of Beijing[J]. Sci Silv Sin, 2009, 45(3):7-12.
[17] 郑聪慧, 贾黎明, 段劼, 等.华北地区栓皮栎天然次生林地位指数表的编制[J].林业科学, 2013, 49(2):79-85.

ZHENG Conghui, JIA Liming, DUAN Jie, et al. Establishment of site index table for Quercus variabilis natural secondary forest in north China[J]. Sci Silv Sin, 2013, 49(2):79-85.
[18] 魏晓慧, 孙玉军, 马炜.基于Richards方程的杉木树高生长模型[J].浙江农林大学学报, 2012, 29(5):661-666.

WEI Xiaohui, SUN Yujun, MA Wei. A height growth model for Cunninghamia lanceolata based on Richards' equation[J]. J Zhejiang A&F Univ, 2012, 29(5):661-666.
[19]

ESSE C, DONOSO P J, GERDING V, et al. Modelling dominant height and site index in different edaphoclimatic zones of secondary forest in the Andes of south-central Chile[J]. South For J For Sci, 2014, 76(4):221-228.
[20] 郑海水, 黎明, 汪炳根, 等.西南桦造林密度与林木生长的关系[J].林业科学研究, 2003, 16(1):81-86.

ZHENG Haishui, LI Ming, WANG Bingen, et al. Effect of initial planting spacing on the growth of Betula alnoides[J]. For Res, 2003, 16(1):81-86.
[21] 王春胜, 赵志刚, 曾冀, 等.广西凭祥西南桦中幼林林木生长过程与造林密度的关系[J].林业科学研究, 2013, 26(2):257-262.

WANG Chunsheng, ZHAO Zhigang, ZENG Ji, et al. Relationship between planting density and tree growth process of Betula alnoides mid-young plantations in Pingxiang, Guangxi[J]. For Res, 2013, 26(2):257-262.
[22]

ALLEN Ⅱ M G, BURKHART H E. A comparison of alternative data sources for modeling site index in loblolly pine plantations[J]. Can J For Res, 2015, 45(8):1026-1033.
[23]

RAULIER F, LAMBERT M C, POTHIER D, et al. Impact of dominant tree dynamics on site index curves[J]. For Ecol Manage, 2003, 184(1/3):65-78.