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遮荫对水曲柳幼苗细根衰老的影响 被引量:31

EFFECT OF SHADING ON THE SENESCENCE OF FINE ROOTS OF FRAXINUS MANDSHURICA SEEDLINGS
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摘要 细根周转对森林生态系统碳地下分配和养分循环具有重要影响,而衰老是细根周转过程中最重要的阶段。根据“源-汇”理论,细根衰老受碳向细根分配的影响。为此,该研究通过控制水曲柳(Fraxinus mandshurica)苗木向根系的碳分配的遮荫处理试验,采用树木生理分析技术,重点研究了在光合产物供应停止情况下水曲柳幼苗根系的生理变化(即根尖、1级根到3级根的细胞活力、可溶性糖含量、可溶性蛋白含量和膜透性的变化)。目的是从生理水平上证实1)碳分配对细根衰老产生怎样的影响;2)细根衰老的顺序是否与分支顺序相反。实验结果表明,遮荫处理使细根活力、可溶性糖含量、可溶性蛋白含量显著降低和膜透性增大,导致细根出现明显衰老。从根系顶端向基部随着根序增加,细胞活力、可溶性糖含量和可溶性蛋白含量提高,膜透性降低,从生理水平上表明细根衰老具有逐渐变化的顺序性,并且这种顺序性与根发育的顺序性相反。 Fine root production and mortality play essential roles in carbon allocation and nutrient cycling in forest ecosystems. Despite the ecological importance of fine root turnover and the tremendous research effort on this subject, our knowledge of fine root mortality is still limited because little is understood on processes of fine root senescence. The most important function of fine roots is nutrient and water acquisition from the soil. Thus, to perform this function, carbohydrates fixed in leaves must be transported belowground to build the root system and support their functions, such as root elongation, nutrient and water uptake, and support microbes in the rhizosphere. More recently, studies on root longevity and root orders have found that first-order roots at the distal end of a root system are thinner in diameter and shorter in life-span than higher order roots. Also, fine root mortality was caused mainly by exhaustion of carbohydrates, suggesting that carbon allocation to fine roots may be an important factor affecting the senescence and mortality of fine roots. The objective of this study was to answer the following two questions: how does senescence of fine roots with different orders responds to reduced C allocation and what is the sequence of senescence from first-order to higher order roots? This study was conducted in greenhouse on the campus of Northeast Forestry University during growing season from April to October in 2004 using Fraxinus mandshurica seedlings as experimental materials. Three one-year-old F. mandshurica seedlings were planted in each of 30 pots with crop soil in April 2004. At the end of June, two light treatments were carried out. Seedlings in 15 pots were grown under natural sunlight (1 000 μmol·m^-2· s^-1) used as controls, and the other 15 pots were completely shaded. After treatments for 30, 60 and 120 d, roots in five pots were carefully excavated, washed and separated into root tips, first-order, second-order and third-order roots. Four physiological indices (i. e. root vigor, concentrations of soluble sugars and soluble proteins, and membrane permeability) were analyzed from the root samples of different orders for assessing the degree of fine root senescence. The results showed that there was reduced C allocation to the fine roots in the shading treatment that induced reduced root vigor, decreased concentrations of soluble sugars and soluble proteins, and increased membrane permeability, compared with controls. After the 60 and 120 d of shading, root vigor reduced 50% and 95%, soluble sugar concentrations decreased about 74% and 73%, and soluble proteins reduced 5% and 30%, respectively, but membrane permeability increased one-fold after 120 d. These results suggest that reduced C allocation to fine roots caused by leaf shading has great impacts on the physiological functions of fine roots and stimulated root senescence. Root senescence differed significantly among root order: root tips exhibited senescence followed by the first- and second-order roots, and the third-order roots had the least amount of senescence. As the physiological functions of the fine roots changed, coloration of the roots also changed with the root tips being a dark brown, and the first-, second- and third-order roots becoming increasing lighter in color. These results indicat that fine roots senesce in sequence explaining why fine roots of the first-order at the distal ends of a root system have a short life-soan and raoid turnover.
出处 《植物生态学报》 CAS CSCD 北大核心 2006年第1期104-111,共8页 Chinese Journal of Plant Ecology
基金 国家自然科学基金重点项目(30130160)
关键词 细根衰老 细根根序 碳分配 水曲柳 Fine root senescence, Fine root order, Carbon allocation, Fraxinus mandshurica
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  • 1梅莉,王政权,程云环,郭大立.林木细根寿命及其影响因子研究进展[J].植物生态学报,2004,28(5):704-710. 被引量:78
  • 2单建平,陶大立,王淼,赵士洞.长白山阔叶红松林细根周转的研究[J].应用生态学报,1993,4(3):241-245. 被引量:115
  • 3Kikuzawa, K. 1995b. The basis for variation in leaf longevity of plants. Vegetatio, 121: 89-100.
  • 4Kikuzawa, K. & D. Ackerly. 1999. Significance of leaf longevity in plants. Plant Species Biology, 14:39 - 45.
  • 5Knops, J. M. H., W. D. Koenig & T. H. Nash Ⅲ. 1997. On the relationship between nutrient use efficiency and fertility in forest ecosystems. Oecologia, 110: 550-556.
  • 6Korner, C. 1989. The nutritional status of plants from high altitudes. Oecologia, 81:379 - 391.
  • 7Korner, C. 1991. Some overlooked plant characteristics as determinants of plant growth: a reconsideration. Functional Ecology, 5:162-173.
  • 8Kull, O. & P. G. Jarvis. 1995. The role of nitrogen in a simple scheme to scale up photosynthesis from leaf to canopy. Plant,Cell and Environment, 18:1174-1182.
  • 9Kull, O., A. Ann & T. Scelsepp. 1995. Light interception, nitrogen and leaf mass distribution in a multilayer plant community.Functional Ecology, 9:589 - 595.
  • 10Lamppu, J. & S. Huttunen. 2003. Relations between Scots pine needle element concentrations and decreased needle longevity along pollution gradients. Environmental Pollution, 122:119 -126.

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