张 嵩. 油松侧枝的节间特征及其变异规律[J]. 温带林业研究, 2021, 4(1): 39-44.
ZHANG Song. The Internodes Characteristics and Its Variation of Lateral Branches of Pinus tabulaeformis. 温带林业研究, 2021, 4(1): 39-44.
[1] 涂 洁,刘琪璟 . 中亚热带红壤丘陵区湿地松枝条生长规律 [J]. 浙江林学院学报,2007,24(2):162-162.
[2] 郑 杨,董利虎,李凤日 . 黑龙江省红松人工林枝条分布数量模拟 [J]. 应用生态学报,2016,27(7):2172-2180.
[3] 苗 铮,董利虎,李凤日,等 . 基于 GLMM 的人工林红松二级枝条分布数量模拟 [J]. 南京林业大学学报:自然科学版,2017,41(4):121-128.
[4] Anna L, Tuomo K. The effect of tree architecture on conduitdiameter and frequency from small distal roots to branch tipsin Betula pendula,Picea abies and Pinus sylvestris[J]. TreePhysiology,2010,11 :1433-1447.
[5] 许 月,杨晓东,谢一鸣,等 . 浙江天童木本植物小枝的“大小 - 数量”权衡 [J]. 植物生态学报,2012,36(12):1268-1276.
[6] 张维统,古 辉,丁维龙,等 . 虚拟植物形态生成关键算法研究 [J]. 浙江工业大学学报,2007(5):62-66+71.
[7] 国 红,雷相东,陆元昌,等 . 基于 GreenLab 原理构建油松成年树的结构 - 功能模型 [J]. 植物生态学报,2011,35(4):422-430.
[8] Westoby M, Wright I J. The leaf size-twig size spectrum andits relationship to other important spectra of variation amongspecies[J]. Oecologia,2003,135(4):621-628.
[9] Pickup M,Westoby M,Basden A. Dry mass costs ofdeploying leaf area in relation to leaf size[J]. FunctionalEcology,2005,19(1):88-97.
[10] Osada N. Crown development in a pioneer tree, Rhustrichocarpa, in relation to the structure and growth ofindividual branches[J]. New Phytologist,2006,172(4):667-678.
[11] Xiang S,Wu N,Sun S. Within-twig biomass allocationin subtropical evergreen broad-leaved species along analtitudinal gradient :allometric scaling analysis[J]. Trees,2009,23(3):637-647.
[12] Warton D I , Wright I J , Falster D S , et al. Bivariateline-fitting methods for allometry[J]. Biological Reviews,2006,81(2):259-291.