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机构地区:[1]云南省地理研究所,昆明650223 [2]云南师范大学地理系,昆明650223
出 处:《植物生态学报》2001年第1期105-109,共5页Chinese Journal of Plant Ecology
基 金:国家自然科学基金项目 !(498710 5 4);云南省应用基础研究基金项目 !(98D0 0 7M和 97D0 0 6 R);云南省中青年学术与技术带头人培养计
摘 要:乔木根系的土壤加强作用是防护林稳定土壤和保护坡面的最有效的机械途径 ,其中侧根的牵引效应在林地的固土护坡过程中具有重要作用 ,其潜能与侧根的抗张强度呈正相关关系。本研究构建了侧根抗张强度与其牵引效应的数学模型 ,对云南山地以云南松林和滇青冈林为代表的松属和青冈属乔木群落进行了分析。结果表明 :青冈属和松属乔木侧根的抗张强度分别在 40~ 10 MPa和 30~ 5 MPa范围内 ,量值的高低随侧根直径的增加而降低。两种乔木的侧根在 0~ 6 0 cm的土壤深处有较高的分布密度 ,由于具有一定的强度 ,通过它们的牵引效应 ,侧根使这一深度的根际土层的抗张强度提高了 6 .85~ 12 .41k Pa。在各个土层 ,青冈属乔木固土护坡能力明显高于松属 。Reinforcement by tree roots is the most effective mechanical process effecting soil stability and slope protection in shelter-forests. In mountainous areas particularly, traction of lateral roots plays an important role in this regard. The importance of this effect rises positively with the roots' tensile strength. This study developed a mechanical model of the relationship between the tensile strength and the traction effect of roots. The model was tested in a Pinus-Cyclobalanopsis forest. The results show that the tensile strength of the Pinus and Cyclobalanopsis roots were 30-5 MPa and 40-10 MPa respectively, and increased negatively with root diameter. In the 0-60 cm layer, the density of lateral roots of the two tree species was relatively high and the roots are able to increase the tensile strength of the rooted soil by 6.85-12.41 kPa, through their traction effect. Though the strength of the pine's roots and its role in increasing strength of the rooted soil are significant, the root strength of the Pinus is lower than that of Cyclobalanopsis and other broad leaved trees.
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