[1] Bordoni M, Meisina C, Vercesi A, et al. Quantifying the contribution of grapevine roots to soil mechanical reinforcement in an area susceptible to shallow landslides. Soil & Tillage Research, 2016, 163: 195-206 [2] Mokhammad MF. Shear strength of Apus bamboo root reinforced soil. Ecological Engineering, 2012, 41: 84-86 [3] Wang S-M (王双明), Du H-D (杜华栋), Wang S-Q (王生全). Analysis of damage process and mechanism for plant community and soil properties at northern Shenmu subsidence mining area. Journal of China Coal Society (煤炭学报), 2017, 42(1): 17-26 (in Chinese) [4] Pan D-J (潘东江), Zhang N (张 农), Zhao Y-M (赵一鸣), et al. Characteristics and mesoscopic mechanics of vegetation roots damage induced by mining in western mining area. Journal of China Coal Society (煤炭学报), 2017, 42(2): 373-380 (in Chinese) [5] Niu G-Q (牛国权), Yuan S-J (苑淑娟), Liu J (刘 静), et al. Preliminary studies on elastic-plastic of Salix and Artemisia roots under axial direction tensile. Journal of Inner Mongolia Agricultural University (内蒙农业大学学报), 2010, 31(1): 25-29 (in Chinese) [6] Yu R-X (于瑞雪), Li S-P (李少朋), Bi Y-L (毕银丽), et al. Effect of coal mining on root growth of Artemisia sphaerocephala and its self-repairing ability. Coal Science and Technology (煤炭科学技术), 2014, 42(2): 110-113 (in Chinese) [7] Saifuddin M, Osman N, Motior RM, et al. Soil reinforcement capability of two legume species from plant morphological traits and mechanical properties. Current Science, 2015, 108: 1340-1347 [8] Tosi M. Root tensile strength relationships and their slope stability implications of three shrub species in the Northern Apennines (Italy). Geomorphology, 2007, 84: 1268-1283 [9] Zhang CB, Chen LH, Jiang J. Why fine tree roots are stronger than thicker roots: The role of cellulose and lignin in relation to slope stability. Geomorphology, 2014, 26: 196-202 [10] Zhu H-L (朱海丽), Hu X-S (胡夏嵩), Mao X-Q (毛小青), et al. Study on mechanical characteristics of shrub roots for slope protection in loess area of Tibetan Plateau. Chinese Journal of Rock Mechanics and Engineering (岩石力学与工程学报), 2008, 27(S2): 3445-3452 (in Chinese) [11] Wang Y-X (王云翔), Sun H-L (孙海龙), Luo L-Z (罗龙皂), et al. Study on characteristic of root shear of Broussonetia papyrifera L. on rocky-steep slope. Research of Soil and Water Conservation (水土保持研究), 2012, 19(3): 114-118 (in Chinese) [12] Liu P-F (刘鹏飞), Liu J (刘 静), Zhu H-H (朱宏慧), et al. Difference of anti-fracture mechanical cha-racteristics between lateral-root branches and adjacent upper straight roots of four plant species in vigorous growth period. Chinese Journal of Applied Ecology (应用生态学报), 2016, 27(1): 33-39 (in Chinese) [13] Li YF, Liu J, Zhang X, et al. Study on the vulnerable root location of two kinds of plants by anti-fracture force. Proceedings of 2016 International Conference on New Energy and Sustainable Development. Changsha, 2016 [14] Lü C-J (吕春娟), Chen L-H (陈丽华). Relationship between root tensile mechanical properties and its main chemical components of typical tree species in North China. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2013, 29(23): 69-78 (in Chinese) [15] Liu J (刘 静), Du W-L (杜文亮), Chen W (陈 伟), et al. Portable root radial and axial mechanical properties testing machine. China, 201620176558.X. 2016-09-28 (in Chinese) [16] China National Pulp and Paper Research Institute (中国制浆造纸工业研究所). Fibrous raw material: Determination of solvent extractives (GB/T 2677.6-1994) [EB/OL]. (1994-09-24) [2018-05-17]. http://www.std.gov.cn/gb/search/gbDetailed?id=5DDA8BA08C-5818DEE05397BE0A0A95A7 (in Chinese) [17] China National Pulp and Paper Research Institute (中国制浆造纸工业研究所). Fibrous raw material: Determination of holocellulose (GB/T 2677.10-1995) [EB/OL]. (1995-07-06) [2018-05-17]. http://www.std.gov.cn/gb/search/gbDetailed?id=5DDA8BA02DDD18-DEE05397BE0A0A95A7 (in Chinese) [18] China National Pulp and Paper Research Institute (中国制浆造纸工业研究所). Fibrous raw material: Determination of acid-insolublelignin (GB/T 2677.8-1994) [EB/OL]. (1994-09-24) [2018-05-17]. http://www.std.gov.cn/gb/search/gbDetailed?id=5DDA8BA02DD-B18DEE05397BE0A0A95A7 (in Chinese) [19] Wang W (王 炜), Yang X-D (杨晓东), Zeng H (曾 辉), et al. Method for comprehensive benefit evaluation of land consolidation. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2005, 21(10): 70-73 (in Chinese) [20] Genet M, Stokes A, Salin F, et al. The influence of cellulose content on tensile strength of tree roots. Plant and Soil, 2005, 278: 1-9 [21] Han L-L (韩立亮), Song G-L (宋桂龙). Relationship between root mechanical characteristics and cell wall components of woody plant species. Journal of Beijing Forestry University (北京林业大学学报), 2015, 37(11): 120-127 (in Chinese) [22] Li N (李 宁). Study on Influence Factors of Root Tensile Properties by Four Arbor Root System. Master Thesis. Beijing: Beijing Forestry University, 2016 (in Chinese) [23] Hacke UG, Sperry JS, Pockman WT, et al. Trends in wood density and structure are linked to prevention of xylem implosion by negative pressure. Oecologia, 2001, 126: 457-461 [24] Bamber RK. A general theory for the origin of growth stresses in reaction wood: How trees stay upright. Iawa Journal, 2001, 22: 295-300 [25] Dupuy L, Fourcaud T, Stokes AA. A numerical investigation into the influence of soil type and root architecture on tree anchorage. Plant and Soil, 2005, 278: 119-134 [26] Zhao L-B (赵丽兵), Zhang B-G (张宝贵). Experimental study on root bio-mechanics and relevant factors of Medicago sativa and Digitaria sanguinalis. Transactions of the Chinese Society of Agricultural Engineering (农业工程学报), 2007, 23(9): 7-12 (in Chinese) [27] Qiao N (乔 娜), Yu Q-Q (余芹芹), Lu H-J (卢海静), et al. Research on mechanical effects of the vegetation on slope protection and response of root chemical compositions in cold and arid environment. Research of Soil and Water Conservation (水土保持研究), 2012, 19(3): 108-113 (in Chinese) [28] Hales TC, Ford CR, Hwang T, et al. Topographic and ecologic controls on root reinforcement. Geophysical Research, 2009, 114: F3 [29] Guo DL, Mitchell RJ, Hendricks JJ, et al. Fine root branch orders respond differentially to carbon source-sink manipulations in a longleaf pine forest. Oecologia, 2004, 140: 450-457 [30] Cofir P, Koolen AJ. Test speed and other factors affec-ting the measurement of tree root properties used in soil reinforcement models. Soil & Tillage Research, 2001, 63: 51-56 [31] Sun B-B (孙贝贝), Liu J (刘 杰), Ge Y-C (葛亚超), et al. Recent progress on plant regeneration. Chinese Science Bulletin (科学通报), 2016, 61: 3887-3902 (in Chinese) [32] Wang J-L (王姣龙), Li J-P (李际平), Chen X-Y (谌小勇), et al. Response of polycyclic aromatic hydrocarbon pyrene on root exudate components and root activity of Magnolia liliiflora Desr. Journal of Central South University of Forestry & Technology (中南林业科技大学学报), 2017, 37(2): 50-56 (in Chinese) [33] Lu X-M (陆秀明), Huang Q (黄 庆), Liu H-Z (刘怀珍), et al. Research of root characteristics and root activity in south super-yield rice. Chinese Agricultural Science Bulletin (中国农学通报), 2012, 28(6): 30-34 (in Chinese) [34] Liu F-Q (刘福全), Liu J (刘 静), Yao X-J (姚喜军), et al. Mechanical factors influencing soil-reinforcement by roots and identifying appropriate plant species for erosion control. Acta Ecologica Sinica (生态学报), 2015, 35(19): 6306-6315 (in Chinese) |