[1] Liu S-R (刘世荣), Ma J-M (马姜明), Miao N (缪 宁). Achievements in natural forest protection, ecological restoration, and sustainable management in China. Acta Ecologica Sinica (生态学报), 2015, 35(1): 212-218 (in Chinese) [2] State Forestry Administration (国家林业局). Results of the eighth national forest resources inventory. Forest Resources Management (林业资源管理), 2014(1): 1-2 (in Chinese) [3] Jia W-W (贾炜玮), Xie X-T (解希涛), Jiang S-W (姜生伟), et al. Spatial distribution pattern of seedlings and saplings of three forest types by natural rege-neration in Daxin’an Mountains Xinlin Forestry Bureau, China. Chinese Journal of Applied Ecology (应用生态学报), 2017, 28(9): 2813-2822 (in Chinese) [4] Eerikinen K, Valkonen S, Saksa T. Ingrowth, survival and height growth of small trees in uneven-aged Picea abies stands in southern Finland. Forest Ecosystems, 2014, 1: 5 [5] Feng G-H (冯国红), Zhu Y-J (朱玉杰), Wang J-F (王景峰). Tree height curve models of different tree species in the natural forest of Xiaoxing’an Mountain. Journal of Northeast Forestry University (东北林业大学学报), 2016, 44(12): 6-9 (in Chinese) [6] Huang S, Titus SJ. An age-independent individual tree height prediction model for boreal spruce-aspen stand in Alberta. Canadian Journal of Forest Research, 1994, 24: 1295-1301 [7] Kearsley E, De HT, Hufkens K, et al. Conventional tree height-diameter relationships significantly overestimate aboveground carbon stocks in the Central Congo Basin. Nature Commumications, 2014, 4: 2269-2276 [8] Jiang Y (蒋 益), Deng H-F (邓华锋), Gao D-Q (高东启). Constructing height-diameter curve equations with measurement error models for Chinese pine stands. Journal of Northeast Forestry University (东北林业大学学报), 2015, 43(5): 126-129 (in Chinese) [9] Duan G-S (段光爽), Li X-D (李学东), Feng Y (冯岩), et al. Developing a height-diameter relationship model with mixed random effects for Larix principis-rupprechtii natural secondary forests. Journal of Nanjing Forestry University (Natural Science) (南京林业大学学报: 自然科学版), 2018, 42(2): 163-169 (in Chinese) [10] Huang S, Titus SJ, Wiens DP. Comparison of nonlinear height-diameter functions for major Alberta tree species. Canadian Journal of Forest Research, 1992, 22: 1297-1304 [11] Lu J (卢 军), Zhang H-R (张会儒), Lei X-D (雷相东), et al. Height-diameter models for saplings in a spruce-fir mixed forest in Changbai Mountains. Journal of Beijing Forestry University (北京林业大学学报), 2015, 37(11): 10-25 (in Chinese) [12] Maina K, Robert M, Kooyman RGB, et al. Regeneration changes in tree species abundance, diversity and structure in logged and unlogged subtropical rainforest over a 36-year period. Forest Ecology and Management, 2006, 236: 162-176 [13] Lundqvist L, Fridman E. Influence of local stand basal area on density and growth of regeneration in uneven-aged Picea abies stands. Scandinavian Journal of Forest Research, 1996, 11: 364-369 [14] Cronquist A. Basic Botany. New York: Harper & Row, 1982: 352-355 [15] Huang S, Price DJ, Titus SJ. Development of ecoregion based height-diameter models for white spruce in boreal forests. Forest Ecology and Management, 2000, 129: 125-141 [16] Methtalo L, Demiguel S, Gregoire TG. Modeling height-diameter curves for prediction. Canadian Journal of Forest Research, 2015, 45: 826-837 [17] Zhang XQ, Chhin S, Fu LY, et al. Climate-sensitive tree height-diameter allometry for Chinese fir in southern China. Forestry, 2019, 92: 167-176 [18] Fu L, Zhang H, Sharma RP, et al. A generalized nonlinear mixed-effects height to crown base model for Mongolian oak in northeast China. Forest Ecology and Mana-gement, 2017, 384: 34-43 [19] Jiang L-C (姜立春), Li F-R (李凤日). Application of Mixed Effect Model in Forest Modeling. Beijing: Science Press, 2014 (in Chinese) [20] Bohora SB, Cao QV. Prediction of tree diameter growth using quantile regression and mixed-effects models. Forest Ecology and Management, 2014, 319: 62-66 |