蔡飞, 张勇. 1996. 演替过程中木荷种群动态的研究. 杭州大学学报: 自然科学版, 23(4): 398-399.
(Cai F, Zhang Y. 1996. A study on the dynamics of schima superba population in secondary successional process. Journal of Hangzhou University (Natural Science), 23(4): 398-399. [in Chinese] )
丁宝永, 郎奎健, 张世英. 1986. 落叶松人工林动态间伐系统的研究(1).东北林业大学学报, 14(4): 8-19.
(Ding B Y, Lang K J, Zhang S Y. 1986. Dynamic thinning systems for larch plantations. Journal of Northeast Forestry University, 14(4): 8-19. [in Chinese] )
段爱国, 张建国, 童书振, 等. 2004. 杉木人工林林分直径结构动态变化及其密度效应的研究. 林业科学研究, 17(2): 178-184.
(Duan A G, Zhang J G, Tong S Z, et al. 2004. Studies on dynamics of diameter structure of Chinese fir plantations and affection of density on it. Forest Research, 17(2): 178-184. [in Chinese] )
黄清麟, 红菊生, 陈永富, 等. 2003. 海南霸王岭山地雨林理想结构的指标与标准(standards) 探讨. 林业科学研究, 16(4): 404- 410.
(Huang Q L, Hong J S, Chen Y F, et al. 2003. A discussion on the indicators and standards of ideal structure of montane rainforest in Bawangling of Hainan Province. Forest Research, 16(4): 404- 410. [in Chinese] )
黄志森. 2010. 戴云山红楠种群直径分布规律. 福建林学院学报, 30(2): 133-136.
(Huang Z S. 2010. Study on diameter distribution of Machilus thunbergii population in Daiyunshan Mountain. Journal of Fujian College of Forestry, 30(2): 133-136. [in Chinese] )
惠淑荣, 刘强, 兰健. 1993. 日本落叶松直径结构规律的研究. 沈阳农业大学学报, 24(4): 365-369.
(Hui S R, Liu Q, Lan J. 1993. A study of diameter structure regular pattern for Japanese larch. Journal of Shenyang Agricultural University, 24(4): 365-369. [in Chinese] )
惠淑荣, 吕永霞. 2003. Weibull分布函数在林分直径结构预测模型中的应用研究. 北华大学学报: 自然科学版, 4(2): 101-104.
(Hui S R, Lü Y Z. 2003. Application of Weibull distribution function in prediction model of diameter construction. Journal of Beihua University(Natural Science), 4(2): 101-104. [in Chinese] )
李凤日. 1991. 兴安落叶松天然林直径分布及产量预侧模型的研究. 东北林业大学学报, 15(4): 10-11.
(Li F R. 1991. Study on diameter distribution and models predicting yields for natural dahurian larch stands. Journal of Northeast Forestry University, 15(4): 10-11. [in Chinese] )
刘剑丛. 2011. 小陇山日本落叶松密度与径阶分布分析研究. 农业科技与信息, (6): 18-19.
刘盛全. 1996. 刺楸木材基本密度的变异研究. 林业科技通讯, (10): 9-11.
孟宪宇. 1985. 使用Weibull分布对人工油松林直径分布的研究. 北京林学院学报, (1): 30-40.
(Meng X Y. 1985. A study on diameter distribution of some artificial Pinus tabulaeformis stands by using the weibull function. Journal of Beijing Forestry College, (1): 30-40. [in Chinese] )
孟宪宇. 2006. 测树学. 北京: 中国林业出版社, 31.
阮传成, 李振问, 陈诚和, 等. 1995. 木荷生物工程防火机理及应用. 成都: 电子科技大学出版社.
王秀花, 马丽珍, 马雪红, 等. 2011. 木荷人工林生长和木材基本密度. 林业科学, 47(7): 138-144.
(Wang X H, Ma L Z, Ma X H, et al. 2011. Growth and wood basic density of Schima superba plantation. Scientia Silvae Sinicae, 47(7): 138-144. [in Chinese] )
叶世坚. 1999. 木荷人工林大径材林分生长规律的初步研究. 福建林业科技, 26(4): 49-52.
(Ye S J. 1999. A preliminary study on the growth law of artificial stands with large diameter timber of Schima superba. Journal of Fujian Forestry Science and Technology, 26(4): 49-52. [in Chinese] )
俞益武, 江治标, 胡永旭. 1999. 杭州木荷常绿阔叶林的林分特征. 浙江林学院学报, 16 (3): 242-246.
(Yu Y W, Jiang Z B, Hu Y X. 1999. Stand characteristerics of evergreen broad leaved forest with Schima superba in Hangzhou. Journal of Zhejiang Forestry College, 16 (3): 242-246. [in Chinese] )
张蕊, 王秀花, 陈柳英, 等. 2012. 不同红豆树人工林生长和心材特性的差异. 浙江农林大学学报, 29(3): 412-419.
(Zhang R, Wang X H, Chen L Y, et al. 2012. Growth and heartwood characteristics of Ormosia hosiei plantations. Journal of Zhejiang A & F University, 29(3): 412-419. [in Chinese] )
周志春, 李建民, 陈炳星, 等. 2003. 几种亚热带速生乡土阔叶树种的制浆特性评价. 中国造纸, 22(2): 8-12.
(Zhou Z C, Li J M, Chen B X, et al. 2003. Evaluation of pulping properties of some indigenous fast growing hardwood species in subtropical region of China. China Pulp & Paper, 22(2): 8-12. [in Chinese] )
Ford E D. 1975. Competition and stand structure in some even-aged stand monocultures. Journal of Ecology, 63(1): 311-333.
Hamilton J K. 1961. Variation of wood properties in southern red oak. Forest Product Journal, 11: 267-271.
Hough A F. 1932. Some diameter distributions in forest stands of northwestern Pennsylvania. Journal of Forestry, 30(8): 933-943.
Kunisaki T, Imada M. 1996. Tree diameter distribution of stands and each species in large-scale cool-temperatate forest of Kyushu, southern Japan. Journal of the Faculty of Agriculture, Kyushu University, 41(1/2): 45-56.
Lasserre J P, Mason E G, Watt M S. 2008. Influence of the main and interactive effects of site, stand stocking and clone on Pinus radiata D. Don corewood modulus of elasticity. Forest Ecology and Management, 255(8/9): 3455-3459.
Lindsay S R, Wood G R, Woollons R C. 1996. Stand table modelling through the Weibull distribution and usage of skewness information. Forest Ecology and Management, 81(1/3): 19-23.
Nanos N, Montero G. 2002. Spatial prediction of diameter distribution models. Forest Ecology and Management, 161(1/3): 147-158.
Nord-Larsen T V, Cao Q. 2006. A diameter distribution model for even-aged beech in Denmark. Forest Ecology and Management, 231(1/3): 218-225.
Panshin A J, De Zeeuw C. 1980. Textbook of Wood Technology. 4th ed. New York: McGraw-Hill book Company.
Pretzsch H, Biber P. 2010. Size-symmetric versus size-asymmetric competition and growth partitioning among trees in forest stands along an ecological gradient in central Europe. Canadian Journal of Forest Research, 40(2): 370-384.
Rubin B D, Manion P D, Faber-Langendoen D. 2006. Diameter distributions and structural sustainability in forests. Forest Ecology and Management, 222(1/3): 427-438.
Smith D M. 1954. Maximum moisture content method for determining specific gravity of small wood samples. USDA, For Serv, For Prod Lab, 1-8.
Westphal C, Tremer N, Oheimb G V, et al. 2006. Is the reverse J-shaped diameter distribution universally applicable in European virgin beech forests ? Forest Ecology and Management, 223(1/3): 75-83. |