[1] |
Amateis R L, Burkhart H E. Cubic-foot volume equations for loblolly pine trees in cutover, site-prepared plantations[J]. Southern Journal of Applied Forestry, 1987, 11(4):190-192. |
[2] |
Fowler G W. Individual tree volume equations for red pine in Michigan[J]. Northern Journal of Applied Forestry, 1997, 14(2):53-58. |
[3] |
曾伟生. 杉木相容性立木材积表系列模型研建[J]. 林业科学研究, 2014, 27(1):6-10. |
[4] |
张会儒, 唐守正. 与材积兼容的生物量模型的建立及其估计方法研究[J]. 林业科学研究, 1999, 12(1):53-59. |
[5] |
Snorrason A, Einarsson S F. Single-tree biomass and stem volume functions for eleven tree species used in Icelandic forestry[J]. Icelandic Agricultural Sciences, 2006, 19:15-24. |
[6] |
Brooks J R, Wiant H V. Ecoregion-based local volume equations for Appalachian hardwoods[J]. Northern Journal of Applied Forestry, 2008, 25(2):87-92. |
[7] |
Case B S, Hall R J. Assessing prediction errors of generalized tree biomass and volume equations for the boreal forest region of west-central Canada[J]. Canadian Journal of Forest Research, 2008, 38(4):878-889. |
[8] |
胥辉. 一种与材积相容的生物量模型[J]. 北京林业大学学报, 1999, 21(5):32-36. |
[9] |
曾鸣, 聂祥永, 曾伟生. 中国杉木相容性立木材积和地上生物量方程[J]. 林业科学, 2013, 49(10):74-79. |
[10] |
Tang S, Li Y, Wang Y. Simultaneous equations, error-in-variable models, and model integration in systems ecology[J]. Ecological Modelling, 2001, 142(3):285-294. |
[11] |
Tang S, Wang Y. A parameter estimation program for the error-in-variable model[J]. Ecological Modelling, 2002, 156(2):225-236. |
[12] |
Fortin M,Daigle C,Ung C, et al. A variance-covariance structure to take into account repeated measurements and heteroscedasticity in growth modeling[J]. European Journal of Forest Research, 2007, 126:573-585. |
[13] |
McRoberts R, Westfall J. Effects of uncertainty in model predictions of individual tree volume on large area volume estimates[J]. Forest Science, 2014, 60(1):34-42 |
[14] |
吴明山, 胥辉, 叶江霞. 兴安落叶松材积模型中的异方差研究[J]. 山东林业科技, 2010, 40(2):14-17. |
[15] |
Huang S, Price D, Titus S J. Development of ecoregion-based height-diameter models for white spruce in boreal forests[J]. Forest Ecology and Management, 2000, 129(1):125-141. |
[16] |
Peng C, Zhang L, Liu J. Developing and validating nonlinear height-diameter models for major Tree species of Ontario's boreal forests[J]. Northern Journal of Applied Forestry, 2001, 18(3):87-94. |
[17] |
夏忠胜, 曾伟生, 朱松, 等. 贵州省人工杉木立木材积方程研建[J]. 北京林业大学学报, 2012, 34(1):1-5. |
[18] |
Zhang L, Peng C, Huang S, et al. Development and evaluation of ecoregion-based jack pine height-diameter models for Ontario[J]. The Forestry Chronicle, 2002, 78(4):530-538. |
[19] |
Peng C, Zhang L, Zhou X, et al. Developing and evaluating tree height-diameter models at three geographic scales for black spruce in Ontario[J]. Northern Journal of Applied Forestry, 2004, 21(2):83-92. |
[20] |
曾伟生, 唐守正. 非线性模型对数回归的偏差校正及与加权回归的对比分析[J]. 林业科学研究, 2011, 24(2):137-143. |
[21] |
Wang M, Kane M, Borders B, et al. Direct variance-covariance modeling as an alternative to the traditional guide curve approach for prediction of dominant heights[J]. Forest Science, 2014, 60(4):652-662 |
[22] |
曾伟生. 加权回归估计中不同权函数的对比分析[J]. 林业资源管理,2013,05:55-61. |
[23] |
曾伟生, 唐守正. 立木生物量方程的优度评价和精度分析[J]. 林业科学,2011,11:106-113. |
[24] |
骆期邦, 宁辉, 贺东北, 等. 二元立木材积动态模型研究[J]. 林业科学研究, 1992, 5(3):263-270. |