ZHAO Dan,YU Dongmei,HU Xiasong,et al.Study on Reinforcement Effect by Halophyte Roots in Increasing Soil Shear Strength[J].Research of Soil and Water Conservation,2017,24(04):259-265,273.
盐生植物根系增强土体抗剪强度效应试验研究
- Title:
- Study on Reinforcement Effect by Halophyte Roots in Increasing Soil Shear Strength
- 分类号:
- P642.11+6
- 摘要:
- 以大柴旦盐湖区及其周边地区作为试验区,选取海韭菜、芦苇2种优势盐生植物作为供试种,通过对2种盐生植物根—土复合体试样和素土试样进行剪切试验,探讨了盐生植物根系对土体抗剪强度增强作用以及土体抗剪强度的影响因素。结果表明:2种植物根—土复合体试样粘聚力值为13.48~21.87 kPa,不含根系素土试样粘聚力值为8.45 kPa,与不含根系素土相比,根—土复合体的粘聚力值增长量为5.03~13.42 kPa,其增长幅度为59.53%~158.82%;海韭菜根—土复合体试样粘聚力值大于芦苇,2种盐生植物根—土复合体试样粘聚力值与2种盐生植物在一定范围内的根系含量之间呈正相关关系,同时一定程度上表明了试验区2种植物根系增强土体强剪强度的机制表现为,在一定范围内根—土复合体中根系密度和数量愈高则其对土体抗剪强度增强程度相对愈显著,且海韭菜对土体粘聚力的增强作用显著大于芦苇。该研究成果对研究区以及与该区地质条件相类似的其他地区利用盐生植物增强土体抗剪强度,以实现有效地防治地表水土流失、浅层滑坡等地质灾害具有理论研究价值和实际指导意义。
- Abstract:
- Da Qaidam Salt Lake and its surrounding areas were selected as the test sites. And two predominant halophytes (Triglochin m aritimum L. Claus. and Phragmites australis (Cav.) Trin. ex Steud) were selected as the test samples. By direct shear tests on soil without root samples and rooted soil samples for the two halophytes, the influences of the roots of the two halophytes on increasing shear strength of soil were investigated. The test results show that the cohesion forces of rooted soil for the two halophytes were 13.48~21.87 kPa, and the cohesion force of soil without roots was 8.45 kPa. In contrast to soil without root, the increment in cohesion force of rooted soil was 5.03~13.42 kPa, with the corresponding incremental rate of 59.53%~158.82%. The cohesion force of rooted soil for T.maritimum was greater than that for P.australis. Moreover, the cohesion forces of rooted soil for the two halophytes were positively correlated with root content in some extent. And in some extent, the mechanism of roots for the two halophytes in increasing the shear strength of soil was exhibited in the following. To a certain extent, the increased amount of roots and root density meant the increased effect of roots in increasing shear strength of soil, and the contribution of root for T.matitimum in increasing shear strength is relatively greater than that for P.australis. The obtained conclusion has the theoretical value and practical significance in increasing shear strength by roots of halophytes for Da Qaidam Salt Lake area and other areas with the similar geological condition, and meanwhile, the conclusion is conducive in the control of geological hazards like water loss and shallow landslides.
参考文献/References:
[1] Bischetti G B, Chiaradia E A, Simonato T, et a1. Root strength and root area ratio of forest species in Lombardy(Northern Italy)[J]. Plant and Soil, 2005,278(1):11-22.
[2] Matti C, Bischetti G B, Gentile F. Biotechnical characteristics of root systems of typical Mediterranean species[J]. Plant and Soil, 2005,278(1):23-32.
[3] 熊燕梅,夏汉平,李志安,等.植物根系固坡抗蚀的效应与机理研究进展[J].应用生态学报,2007,18(4):895-906.
[4] 陈安强,张丹,熊东红,等.元谋干热河谷坡面表层土壤力学特性对其抗冲性的影响[J].农业工程学报,2012,28(5):108-113.
[5] 薛明,刘晓旭,白如雪.盐渍土地区公路工程绿化技术[J].公路交通科技,2007(9):27-29.
[6] Comino E, Druetta A. The effect of Poaceae roots on the shear strength of soils in the Italian alpine environment[J]. Soil and Tillage Research, 2010,106(2):194-201.
[7] 李建兴,何丙辉,谌芸,等.不同护坡草本植物的根系分布特征及其对土壤抗剪强度的影响[J].农业工程学报,2013,29(10):144-152.
[8] 格日乐,张成福,蒙仲举,等.3种植物根-土复合体抗剪特性对比分析[J].水土保持学报,2014,28(2):85-90.
[9] 栗岳洲,胡夏嵩,余冬梅,等.寒旱环境盐生植物根系固土护坡力学效应及其最优含根量探讨[J].岩石力学与工程学报,2015,34(7):1370-1383.
[10] 余芹芹,乔娜,卢海静,等.植物根系对土体加筋效应研究[J].岩石力学与工程学报,2012,31(S1):3216-3223.
[11] 杨璞,向志海,胡夏嵩,等.根对土壤加强作用的研究[J].清华大学学报:自然科学版,2009,49(2):305-308.
[12] 陈昌富,刘怀星,李亚平.草根加筋土的室内三轴试验研究[J].岩土力学,2007,28(10):2041-2045.
[13] 王元战,刘旭菲,张智凯,等.含根量对原状与重塑草根加筋土强度影响的试验研究[J].岩土工程学报,2015,37(8):1405-1410.
[14] 卢荻秋,孙海龙,李绍才,等.石质陡边坡薄层含根土体抗剪强度试验研究[J].中国水土保持,2012,(4):38-41.
[15] 孙纬宇,梁庆国,欧尔峰,等.陕西延安Q2原状与重塑黄土抗拉强度对比试验研究[J].土木工程学报,2015,48(S):53-58.
[16] 张锋,凌贤长,吴李泉,等.植被须根护坡力学效应的三轴试验研究[J].岩石力学与工程学报,2010,29(S2):2979-2985.
[17] 李识博,王常明,马建全,等.陇西黄土三轴剪切过程微观变化研究[J].岩土力学,2013,34(11):3299-3305.
[18] 孙世洲,孔令韶.青海省大柴旦盆地植被.西北植物学报,1992,12(1):59-69.
[19] 肖莲桂,石明章.大柴旦地区气候对生态环境的影响分析[J].青海气象,2012,(4):52-54.
[20] 高世扬,宋彭生,夏树屏,等.盐湖化学-新类型硼锂盐湖[M].北京:科学出版社,2007:341-342.
[21] 中国科学院中国植物志编委会.中国植物志[M].北京:科学出版社,1988.
[22] 中华人民共和国水利部. SL237-1999土工试验规程[S].北京:中国水利水电出版社,1999.
[23] 南京水利科学研究院.土工试验规程[S].北京:中国水利水电出版社,1999:181-186.
[24] 虎啸天,余冬梅,付江涛,等.柴达木盆地盐湖区盐生植物根-土复合体抗剪强度试验研究[J].冰川冻土,2015,37(6):1579-1590.
[25] 余芹芹,胡夏嵩,李国荣,等.寒旱环境灌木植物根-土复合体强度模型试验研究[J].岩石力学与工程学报,2013,32(5):1020-1031.
[26] Comino E, Druetta A. In situ shear tests of soil samples with grass roots in Alpine Environment[J]. American Journal of Environmental Sciences, 2009,5(4):475-486.
[27] Fan Chia-Cheng, Su Chih-Feng. Role of roots in the shear strength of root-reinforced soils with high moisture content[J]. Ecological Engineering, 2008,33(22):157-166.
[28] De Baets S, Poesen J, Reubens B, et al. Root tensile strength and root distribution of typical Mediterranean plant species and their contribution to soil shear strength[J]. Plant and Soil, 2008,305(1):207-226.
[29] 朱海丽,胡夏嵩,毛小青,等.青藏高原黄土区护坡灌木植物根系力学特性研究[J].岩石力学与工程学报,2008,27(S2):3445-3452.
[30] 王云翔,孙海龙,罗龙皂,等.人工石质边坡构树根系抗剪特性研究[J].水土保持研究,2012,19(3):114-118.
[31] Ziemer R, Swanston D. Root strength changes after logging in southeast Alaska[M]. Dept. of Agriculture, Forest Service, Pacific Northwest Forest and Range Experiment Station, 1977.
[32] Wu T H, Watson A. In situ shear tests of soil blocks with roots[J]. Canadian Geotechnical Journal, 1998,35(4):579-590.
[33] Ziemer R. Roots and the stability of forested slopes[C]//Davies, Timonthy R H. Erosion and Sediment Transport in Pacific Rim Steeplands, International of Hydrological Sciences, 1981.
[34] Materechera S A, Alston A M, Kirby J M, et al. Influence of root diameter on the penetration of seminal roots into a compacted subsoil[J]. Plant & Soil, 1992,144(2):297-303.
[35] Hengchaovanich D. Vetiver System for Slope Stabilization Reviewer[C]//Proceedings of3rd International Vetiver Conference, 2003:301-309.
[36] 解明曙.林木根系固坡土力学机制研究[J].水土保持学报,1990,4(3):7-14.
[37] 刘秀萍,陈丽华,宋维峰.林木根系与黄土复合体的抗剪强度试验研究[J].北京林业大学学报,2006,28(5):67-72.
[38] 刘秀萍,陈丽华,宋维峰.林木根系与黄土复合体的三轴试验[J].林业科学,2007,43(5):54-58.
[39] 王元战,张智凯,马殿光,等.植物根系加筋土剪切试验研究综述[J].水道港口,2012,33(4):330-336.
[40] 张晓明,王玉杰,夏一平,等.重庆缙云山典型植被原状土与重塑土抗剪强度研究[J].农业工程学报,2006,22(11):6-9.
[41] Davoudi M H. Influence of willow root density on shear resistance parameters in fine grain soils using direct shear tests[J]. Research Journal of Environmental Sciences, 2011,5(2):157-170.
备注/Memo
收稿日期:2016-06-20;改回日期:2016-08-04。
基金项目:中国科学院“百人计划”项目(Y110091025);国家自然科学基金(41572306);青海省自然科学基金(2014-ZJ-906);中国科学院青海盐湖研究所“青年基金”(Y360441058)
通讯作者:胡夏嵩(1965-),男,河南开封人,教授,博士,主要从事环境岩土工程与工程地质等方面的教学与科研工作。E-mail:huxiasong@tsinghua.org.cn