• 研究报告 •

### 绿竹根系分布及生物力学性质

1. (1中国林业科学研究院亚热带林业研究所, 浙江富阳 311400;  2富阳市林业局, 浙江富阳 311400)
• 出版日期:2014-05-18 发布日期:2014-05-18

### Root system distribution and biomechanical characteristics of Bambusa oldhami

LI Qian1, ZHOU Ben-zhi1, AN Yan-fei1, XU Sheng-hua2

1. (1Research Institute of Subtropical Forestry, Chinese Academy of Forestry, Fuyang 311400, Zhejiang, China; 2Forestry Bureau of Fuyang County, Fuyang 311400, Zhejiang, China)
• Online:2014-05-18 Published:2014-05-18

Abstract: To determine the mechanism of soil stabilizing through Bambusa oldhami root system, the vertical distribution of B. oldhami root system in soil was investigated, and the tensile strength of individual root and soil shear strength were measured in B. oldhami forest. The dry mass, length, surface area and volume of the B. oldhami root system decreased with the increasing soil depth, with more than 90% of the root system occurring in the 0-40 cm soil layer. The root class with D≤1 mm occupied the highest percentage of the total in terms of root length, accounting for 79.6%, but the lowest percentage of the total in terms of root volume, accounting for 8.2%. The root class with D≥2 mm was the opposite, and the root class with D=1-2 mm stayed in between. The maximum tensile resistance of B. oldhami root, either with 12% moisture content or a saturated moisture content, increased with the increasing root diameter, while the tensile strength decreased with the increasing root diameter in accordance with power function. Tensile strength of the root, with either of the two moisture contents, was significantly different among the diameter classes, with the highest tensile strength occurring in the root with D≤1 mm and the lowest in the root with D≥2 mm. The tensile strength of root with 12% moisture content was significantly higher than that with the saturated moisture content, and less effect of moisture content on root tensile strength would occur in thicker roots. The shear strengths of B. oldhami forest soil and of bare soil both increased with the increasing soil depth. The shear strength of B. oldhami forest soil had a linear positive correlation with the root content in soil, and was significantly higher than that of bare soil. The shear strength increment in B. oldhami forest was positively correlated with the root content in soil according to an exponential function, but not related significantly with soil depth.