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235 [15] RAJPUT K S, RAO K S. Cambial activity and development of xylem in Tamarindus indica L. growing in different forests of Gujarat State [J]. Acta Bot. Hung, 2001, 43: 379-390. [16] VENUGOPAL N, LIANGKUWANG M G. Cambial activity and annual rhythm of xylem production of elephant apple tree (Dillenia indica Linn.) in relation to phenology and climatic factor growing in sub-tropical wet forest of northeast India [J]. Trees, 2007, 21: 101-110. 240 [17] MARCATI C R, ANGYALOSSY V, EVERT R F. Seasonal variation in wood formation of Cedrela fissilis (Meliaceae) [J]. IAWA J., 2006, 27: 199-211. [18] MARCATI C R, MILANEZ C R D, MACHADO S R. Seasonal development of secondary xylem and phloem in Schizolobium parahyba (Vell.) Blake (Leguminosae: Caesalpinioideae) [J]. Trees, 2008, 22: 3-12. [19] MELLEROWICZ E J, BAUCHER M, SUNDBERG B, et al. Unravelling cell wall formation in the woody 245 dicot stem [J]. Plant Molecular Biology, 2001, 47: 239-274. [20] WHETTEN R, SEDEROFF R. Genetic engineering of wood [J]. For Ecol Manage, 1991, 43: 301-316. [21] RIDOUT B G, SANDS R. Within-tree variation in cambial anatomy and xylem cell differentiation in Eucalyptus globules [J]. Trees, 1993, 8: 18-22. [22] IQBAL M, GHOUSE A K M. Cambial concept and organization[M]. In: Iqbal, M. (ed.), The Vascular 250 Cambium. Somerset: Research Studies Press, 1990. [23] FAHN A, WERKER E. Seasonal cambial activity [M]. In: lqbal, M. (ed.), The Vascular Cambium. New York: Research Studies Press, 1990. [24] CUI K M, LUO H L, LI J H. The resumption of cambium activity and the change of peroxidase isozymes in Broussonetia papyrifera [J]. Acta Bot Sin, 1993, 35: 580-587. [25] SACHS T. The control of the patterned differentiation of vascular tissues [J]. 255 Adv. Bot. Res., 1981, 9: 152-155. [26] LITTLE C H A. Effect of cambial dormancy state on the transport of [1-14C] indol-3- ylacetic acid in Abies balsamea shoots [J]. Can. J. Bot., 1981, 59: 342-348. [27] WODZICKI T J , WODZICKI A B. Modulation of the oscillatory system involved in polar transport of auxin 260 by other phytohormones [J]. Physiol Plant, 1981, 53: 176-180. [28] SACHS T. The role of auxin in the polar organization of apical meristems [J]. Aust. J. Plant Physiol., 1993, 20: 541-553. [29] YIN Y F, JIANG X M, WEI L B. Periodicity of cambium activity and changes of peroxidase isozymes in Populus tomentosa Carr [J]. Sci Silv Sin, 2002, 38: 103-110. 265 [30] ZHANG Y B, ZHENG H M, LONG R Z. The study on the seasonal activity of cambium and the formation of phloem and xylem of eight tree species in North China [J]. Sci Silv Sin, 1982, 18: 366-379. [31] LUO L X, CUI K M, LI J H, et al. Cambial reactivity and change of peroxidase isozymogram in Eucommia ulmoides Oliv [J]. Chin. J. Bot., 1995, 7: 150-155. [32] FAN R W. A review of the study on the developmental biology of xylem [J]. Chinese Bulletin of Botany, 270 1999, 16(4): 387-397. [33] SAVIDGE R A. The tracheid-differentiation fractor of conifer needles [J]. International Journal of Plant Sciences, 1994, 155: 272-290. [34] WALSEL Y, FAHN A. The effects of environment on wood formation and cambial activity in Robmia pseudacacia [J]. The New Phytologist, 1965, 64(3): 436-442. 速生杨形成层和次生木质部的季节性发育 摘要:本文运用传统的木材解剖学方法研究了活动期内速生欧美杨107 形成层的解剖特征和 次生木质部的细胞的堆积过程,同时探讨了季节性形成层活动和次生木质部发育的相关性。 结果表明形成层呈季节周期性的活动和休眠的活动方式,且次生木质部细胞的堆积过程和形 成层的解剖特性有着显著的相关性,尤其与形成层的层数的相关性最显著。 关键词:木材科学与技术;形成层;次生木质部;活动期 学术论文网Tag: |
