辽东山区主要树种耐阴性的研究
摘要
辽宁东部山区的天然次生林是辽宁的森林资源宝库和辽中城市群的天然屏障,在辽宁的经济建设和生态建设中发挥着不可替代的重要作用。本文以辽东山区天然次生林的主要树种:红松(Pinus koraiensis)、红皮云杉(Picea koraiensis)、蒙古栎(Quercus mongolica)、水曲柳(Fraxinus mandshurica)、花曲柳(Fraxinus rhynchophylla)、黄菠萝(Phellodendron amurense Rupr)、紫椴(Tilia amurensis Rupr)为研究对象,在自然条件下,栽植苗木,进行树种耐阴性试验。从生理生态学角度出发,对上述七种树木在不同光照条件下生长、形态、生理、生化指标进行试验研究。
阐明了光照条件的改变对两种针叶树和五种阔叶树生长量的影响,定量分析了生长与光合有效辐射的关系,通过多元统计分析解释了上述七种树木的生长和形态适应方式及其与环境条件的关系。通过对光合速率与光合有效辐射强度的数学模型,模拟分析光强的改变对苗木光合特性的影响,为解释树种的光适应策略提供了线索和可靠的证据。探讨他们在不同光照环境下生存、生长及适应机理,为合理地经营天然次生林或促进人工林的天然化提供科学详实的指导。
The natural secondary forest in the mountainous area of eastern Liaoning province is a precious forest resource of Liaoning and a natural barrier for the city groups in middle Liaoning.It is very important for the economic development and ecological construction of Liaoning.The main species of the natural secondary forest in the mountainous area of eastern Liaoning was studied.They are: Pinus koraiensis, Picea koraiensis, Quercus mongolica, Fraxinus mandshurica, Fraxinus rhynchophylla, Phellodendron amurense Rupr and Tilia amurensis Rupr. Under natural conditions, their seedlings were planted,and the shade-tolerance of them were measured. Physiological indices such as growth, physiology, biochemistry of these 7 species under different illumination conditions were observed.
The effect of the changing illumination conditions on the growth increment of these 7 species were studied, and the relationship between the growth and effective photosynthetic radiant was quantified. The adaptation mode of these 7 species in growth and shape and the relationship between them and the environment were studied with multivariate statistical analysis. The mathematic model on the photosynthesis velocity and effective photosynthetic radiant intensity was used to simulate the influence of changing radiant intensity on the photosynthetic character of seedlings. This provides a clue and dependable evidence for explaining the plants, light adaptation strategy. The survival, growth and adaptation mechanism of these species under different illumination conditions were also discussed, which provides a scientific and detailed instruction on how to manage the natural secondary forest and how to accelerate the planted forest into wild wood.
阐明了光照条件的改变对两种针叶树和五种阔叶树生长量的影响,定量分析了生长与光合有效辐射的关系,通过多元统计分析解释了上述七种树木的生长和形态适应方式及其与环境条件的关系。通过对光合速率与光合有效辐射强度的数学模型,模拟分析光强的改变对苗木光合特性的影响,为解释树种的光适应策略提供了线索和可靠的证据。探讨他们在不同光照环境下生存、生长及适应机理,为合理地经营天然次生林或促进人工林的天然化提供科学详实的指导。
The natural secondary forest in the mountainous area of eastern Liaoning province is a precious forest resource of Liaoning and a natural barrier for the city groups in middle Liaoning.It is very important for the economic development and ecological construction of Liaoning.The main species of the natural secondary forest in the mountainous area of eastern Liaoning was studied.They are: Pinus koraiensis, Picea koraiensis, Quercus mongolica, Fraxinus mandshurica, Fraxinus rhynchophylla, Phellodendron amurense Rupr and Tilia amurensis Rupr. Under natural conditions, their seedlings were planted,and the shade-tolerance of them were measured. Physiological indices such as growth, physiology, biochemistry of these 7 species under different illumination conditions were observed.
The effect of the changing illumination conditions on the growth increment of these 7 species were studied, and the relationship between the growth and effective photosynthetic radiant was quantified. The adaptation mode of these 7 species in growth and shape and the relationship between them and the environment were studied with multivariate statistical analysis. The mathematic model on the photosynthesis velocity and effective photosynthetic radiant intensity was used to simulate the influence of changing radiant intensity on the photosynthetic character of seedlings. This provides a clue and dependable evidence for explaining the plants, light adaptation strategy. The survival, growth and adaptation mechanism of these species under different illumination conditions were also discussed, which provides a scientific and detailed instruction on how to manage the natural secondary forest and how to accelerate the planted forest into wild wood.
引文
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4. Canham, C. D. 1988. Growth and canopy architecture of shade tolerant tree:response to canopy gaps.Ecology. 69: 786~795.
5. Carter, R. E. and K. K. linka. 1992. Variations in shade tolerance of Douglas—fir. Western hemlock and western redcedar in coastsl British Columbia. For. Ecol. Manage, 55:87~105.
6. Chapin, F. S. 1991. Integrated responses of plants to stress. Bio. Science,41:29~36.
7. Chazdon, R. L. 1988. Sunflecks and their importance to forest understory plants. Adv. Ecol. Res. 18:1~63.
8. Chazdon, R. L. and Kaufmann, S. 1993. Plasticity of leaf anatomy of two rain forest shrubs in relation to photosynthetic light acclimation. Funct. Ecol., 7:385~394.
9. Chazdon, R. L. and R. W. Pearcy. 1991. .Theimportance of suaflecds forforest understory plants. BioScience41: 760~766.
10. Ducrey, M. 1992. Variation in leaf morphology and branching pattern of some tropical rain forest species from Guadeloupe under semi—controlled light conditioms. Ann. Sci. For. 49:553~570.
11. Ellsworth, D. S. and P. B. Reich. 1992. Leafmass per area.nitrohen content and photosynthesis carbon gain in Acer saccharum seedlings in contrasting forest light Environment. Funct. Ecol. 6: 423~435.
12. Emmingham, W. H. and R. H. Waring. 1973. conifer growth under different light environments in the Siskyou mountains of south-west Oregon. Norhwest Sci.. 47: 88~89.
13. Feierabend, I. 1970. Characterization fo cytokinin action on enzyme formation during the development of the photosynthetic apparatus inseedlings. Enzymes of the reductive and oxidative
phosphate cycles —Panta. V. 94. pp. 1~15.
14. Lehto, T. ,J. Grace. 1994. Carbon balance of tropical tree seedlings:a comparison of two species. New Phytol, 127: 455~463.
15. Ninements, V. and O. Kull. 1995. Effects of light availability and tree size on the architecture of assimilative surface in the canopy of Piceaabies:variation in needle morphology. Tree Physiol. 15: 307~315.
16. Nixon, S. W. 1969. Synthetic microcosm. Limnol. Oceanogr. 14.142~145.
17. Odnm, H. T. Environment. Power and Society. Wiley. New York . 330.. 1971.
18. Sims, D. A. and R. W. Pearcy. 1994. Scaling sun and shade photosynthetic acclimation of Alocasia macrorrhizo to whole—plant performance 1. Carbon balance and allocation at different daily photo flex debsities. Plant. Celland Environ. 17: 881~887.
19. Walters, M. B.,E. L. Kruger. And P. B. Reich. 1993. Growth. biomass bistribution and CO_2exhhange of northern hardvood seedlings in high and low light:relationships with successional status and shade tolerance. Oecologia. 94: 7~16.
20. Wang, G. G. ,H. Qian. And K. KLINKA. 1994. Growth of Thuja plicata seedlings along a light gradient. Can. J. Bot. 72: 1749~1757.
21. .
22. Bassman J. B&Zwiet J. C. Gas exchange characteristics of Populous trichocarpa, Populusdeltoide sand Populus trichocarpaxP. Deltoide sclone . Tree Physiol, 1991(8):145~149
23. Buyanovsky G. A & Wagner Annual G. H.Cycles of carbon dioxide level in soil air. Soil Sci. Am.j.,1983(47):1139~1145
24.白伟岚.任建武.高永伟.李云.园林植物的耐荫性研究.林业科技通讯,1999.2:12~15
25.常杰.葛滢等.青冈常绿阔叶林主要物种叶片的光合特性及其群落学意义.植物生态学报,1999.23(5):393~400
26.陈大珂等.天然次生林.哈尔滨:东北林业大学出版社,1994
27.贺东祥.沈允钢.几种常绿植物光合特性的季节变化,植物生理学报.1982.21(1):68~72
28.胡润田.鞠永贵.张世英.水曲柳/胡桃揪/黄波罗/紫椴与不同针叶树种混交.东北林业大学学报,1991.9:115~120
29.梁春.林植芳.孔过辉.不同学强下生长的亚热带树苗的光合—光响应特性的比较,应用生态学报.1997.8(1):7~11
30.林益民.韩博平.南亚热带森林群落光合作用的模拟研究,生态科学.1997.16(1):13~21
31.林益民.黑石项南亚热带常绿阔叶林群落光合生理生态学研究,中山大学博士学位论文.1993
32.刘建伟.刘雅荣.不同杨树无性系光合作用与其抗旱能力的初步研究,林业科学.1994.30(1)83~87
33.彭少麟.张祝平.鼎湖山地带性植被生物量生产力和学能利用效率.中国科学.1994 a。24(5):497~502
34.桑运荣。王传宽。赵惠勋。周晓峰。“三大硬阔”叶片气体交换过程的时间动态,东北林业大学学报。1998.26(6):10~15
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