[1]张 磊,徐则民*,侯汝几,等.植被发育玄武岩斜坡土体基质吸力及其影响因素[J].山地学报,2016,(05):513-519.[doi:10.16089/j.cnki.1008-2786.000157]
 ZHANG Lei,XU Zemin,HOU Ruji,et al.Soil Matric Suction and Its Influencing Factors on a Well Vegetated Basalt Slope[J].Mountain Research,2016,(05):513-519.[doi:10.16089/j.cnki.1008-2786.000157]
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植被发育玄武岩斜坡土体基质吸力及其影响因素()
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《山地学报》[ISSN:1008-2186/CN:51-1516]

卷:
期数:
2016年05期
页码:
513-519
栏目:
山地灾害
出版日期:
2016-09-30

文章信息/Info

Title:
Soil Matric Suction and Its Influencing Factors on a Well Vegetated Basalt Slope
文章编号:
1008-2786-(2016)5-513-07
作者:
张 磊12徐则民3*侯汝几3任帮政1
1.昆明理工大学国土资源工程学院,云南 昆明650093;
2.甘肃工业职业技术学院地质学院,甘肃 天水741025;
3.昆明理工大学建筑工程学院,云南 昆明650500
Author(s):
ZHANG Lei12XU Zemin3HOU Ruji3REN Bangzheng1
1.Faculty of Land Resource Engineering, Kunming University of Science and Technology, Kunming,Yunan 650093, China;
2.College of Geology,Gansu Industry Polytechnic College. Tianshui,Gansu 741025, China;
3.Faculty of Civil Engineering and Mechanics, Kunming University of Science and Technology, Kunming,Yunnan 650500, China
关键词:
植被发育斜坡 基质吸力 有机质 大孔隙 优先流 滑坡
Keywords:
well vegetated slope matric suction soil organic matter soil macropore preferential flow landslide
分类号:
P642.1
DOI:
10.16089/j.cnki.1008-2786.000157
文献标志码:
A
摘要:
植被发育斜坡非饱和带垂直深度<50 cm范围内根系密布,与根系相关的大孔隙很大程度上降低了土体密实程度,而垂直深度>50 cm范围内根系稀疏,土体较密实,孔隙比较小。基质吸力受土体孔隙分布影响显著。对昆明呈贡县某植被发育玄武岩斜坡垂直深度10~20 cm和60~80 cm处取原状样(编号为XA和XB)进行了基质吸力测试,结果表明相同含水率下基质吸力XA小于XB。对头寨沟滑坡左翼某植被发育玄武岩斜坡垂直深度10~20 cm和60~80 cm处取原状样(编号为TA和TB)也进行了基质吸力测试,结果表明相同含水率下基质吸力TA>TB。对研究区土体有机质含量测试发现,TA、TB分别为14.89%、3.28%,而XA、XB分别为1.05%、0.39%。土壤有机质自身结构疏松多孔,并且会增大土壤比表面积和毛管孔隙度,改善颗粒级配和土体结构,使土壤吸附作用增强,利于土壤水分的保持,进而影响到土体土-水特征曲线。
Abstract:
Plant roots are densely scattered in soil shallower than 50cm of unsaturated zone on a vegetated slope. Those related soil macro pores substantially reduce soil compaction,while in region deeper than 50 cm,soil density is much larger and its porosity smaller. Soil matric suction is significantly affected by pore distribution. This paper takes undisturbed samples(No.XA and XB)from vertical depth 10~20 cm and 60~80 cm of a vegetated basalt slope of Chenggong Kunming,it then tests the matric suction of the samples,and the results show that XA is less than XB in matric suction when the moistures are the same. This paper further more takes undisturbed samples(No.TA and TB)from vertical depth 10~20 cm and 60~80 cm of a vegetated basalt slope beside Touzhai Landslide,and conducts a matric suction experiment. The results show that TA is greater than TB in matric suction when the moistures are the same. Test against the organic matter content of experimental zones finds that TA and TB are 14.89% and 3.28% respectively,while XA、XB are 1.05% and 0.39%. Since the structure of soil organic matter is porous,it thus enlarges surface area and capillary porosity of the soil,which in turn enhances particle grade and soil structure. Thus absorption ability of the soil is strengthened,which is beneficial to moisture retention of soil and affects the soil water characteristic curve(SWCC).

参考文献/References:

[1] Vanapalli SK,Fredlund DG,Pufahl DE. Relationship between soil-water characteristic curves and the as-compacted water content versus soil for a clay till[G]//Proceedings of Pan-American Conference on Soil Mechanics and Foundation Engineering,Brazil:Iguanzu Falls,1999:991-998
[2] Kawaik,Karube D,Kato S.The model of water retention curve considering effects of void ratio[G]//Rahardjo H,Toll DG,LeongEC.Unsaturated Soils for Asia,Rotterdam:Balkema,2000:329-334
[3] Charles W W NG,PangY W.Influence of sffess state on soil-water characteristics and slope stability[J].Journal of Geotechnical and GeoenvironmentaI Engineering,ASCE,2000,126(2):1 57-166
[4] Xue Xuzhang,Pete Stahl,Zhang Ren duo,Experimental study on relationship between matric suction and soil microbialactivity[J].TransActions of the CSAE.2003,19(5):31-35
[5] Fredlund DG,Rahardjo H. Soil mechanics for unsaturated soils[M]. Chen Zhongyi,trans. Beijing:China Architecture and Building Press,1997.(in Chinese).[弗雷德隆德D G,拉哈尔佐H. 非饱和土土力学[M]. 陈仲颐,译.北京:中国建筑工业出版社,1997.]
[6] Wang Zhao,Yang Jinxin,Kuang Juanjuan,et al. Application of filter paper method in field measurement of matric suction[J]. Chinese Journal of Geotechnical Engineering,2003,25(4):405-408[王钊,杨金鑫,况娟娟,等.滤纸法在现场基质吸力量测中的应用[J]. 岩土工程学报,2003,25(4):405-408]
[7] Bai Fuqing,Liu Sihong,Yuan Jiao.Measurement of SWCC of Nanyang expansive soil using the filter paper method[J]. Chinese Journal of Geotechnical Engineering,2011,33(6):928-932[白福青,刘斯宏,袁骄.滤纸法测定南阳中膨胀土土水特征曲线试验研究[J].岩土工程学报,2011,33(6):928-932]
[8] Wang Zhao,Zou Weilie,Li Xia. Measurement and application of suction in unsaturatedsoils[J]. Journal of Sichuan University(Engineering Science Edition),2004,36(2):1-6[王钊,邹维列,李侠.非饱和土吸力量测及应用[J].四川大学学报(工程科学版),2004,36(2):1-6]
[9] Jiang Gang,Wang Zhao,Qiu Jinying. Suction calibration curve of homemade filter paper[J].Rock and Soil Mechanics,2000,21(1):72-75[蒋刚,王钊,邱金营.国产滤纸吸力-含水量关系率定曲线的研究[J]. 岩土力学,2000,21(1):72-75]
[10] Qi Guoqing,Huang Runqiu.Anuniversal mathematicalmodel of soil-watercharacteristiccurve[J].Journal of En- gineering Geology,2004,12(02):182-185[戚国庆,黄润秋,土水特征曲线的通用数学模型研究[J].工程地质学报,2004,12(02):182-185]
[11] Vanapalli S,Fredlund D,Pufahl D. The influence of soil structure and stress history on the soil-water characteristics of a compacted till[J]. Géotechnique,1999,49(2):143-160
[12] Simms P,Yanful E. Measurement and estimation of pore shrinkage and pore distribution in a clayey till during soil-water characteristic curve tests[J]. Canadian Geotechnical Journal,2001,38(4):741-754
[13] Simms P,Yanful E. Predicting soil-water characteristic curves of compacted plastic soils from measured pore-size distributions[J]. Géotechnique,2002,52(4):269-278
[14]Simms P,Yanful E. A pore-network model for hydromechanical coupling in unsaturated compacted clayey soils[J]. Canadian Geotechnical Journal,2005,42(2):499-514
[15] Berkowitz B,Ewing R P. Percolation theory and network modeling applications in soil physics[J]. Surveys in Geophysics,1998,19(1):23-72
[16] Huang Runqiu,Qi Guoqing. Observation of Suction in A landslide[J]. Chinese Journal of Geotechnical Engineering,2004,26(2):216-219[黄润秋,戚国庆,滑坡基质吸力观测研究 [J].岩土工程学报,2004,26(2):217-219]
[17] Qian Jiahuan,Yin Zongze. Principle and calculation of geotextile[M].Beijing:China Water Power Press,1996:5[钱家欢,殷宗泽.土工原理与计算[M].北京:中国水利水电出版社,1996:5]
[18] Xu Zemin.Vegetation and macropores in vadose zone of hill slopes[J].Earth Science Frontiers,2007,14(6):134-142[徐则民.植被与斜坡非饱和带大空隙[J].地学前缘2007,14(6):134-142]
[19] Liu Xiaodong,Qiao Yuna,Zhou Guoyi. Controlling action of soil organic matter on soil moisture retention and its availability[J]. Chinese Journal of Plant Ecology,2011,35(12):1209-1218[刘效东,乔玉娜,周国逸. 土壤有机质对土壤水分保持及其有效性的控制作用[J],植物生态学报2011,35(12):1209-1218]
[20] Oades JM. Soil organic matter and structural stability:mechanisms and implications for management[J]. Plant and Soil,1984,76(1-3):319-337
[21] Haynes RJ,Swift RS,Stephen RC. Influence of mixed cropping rotations(pasture-arable)on organic matter content,water stable aggregation and clod porosity in a group of soils[J].Soil and Tillage Research,1991,19(1):77-87
[22] Chertov OG,Komarov AS,Bykhovets SS,et al. Simulated soil organic matter dynamics in forests of the Leningrad administrative area,northwestern Russia [J].Forest Ecology and Management,2002,169(1-2):29-44
[23] Zhang Yong,Pang Xueyong,Bao Weikai,et al. A review of soil organic matter and its research methods[J]. World Sci-Tech R & D,2005,27(5):72-78[张勇,庞学勇,包维楷,等.土壤有机质及其研究方法综述[J].世界科技研究与发展,2005,27(5):72-78]
[24] Huang Chengbiao,Liang Hongwen. Investigation on soil hydro-physical properties of forest soil at different geographic regions in Guangxi[J]. Soil and Environmental Sciences,1999,8(2):96-100[黄承标,梁宏温.广西不同地理区域森林土壤水文物理性质研究[J].土壤与环境,1999,8(2):96-100]
[25] Jing Guochen,Liu Xujun,Ren Xianping. Influence of soil erosion on soil properties of black soil bank farming[J]. Research of Soil and Water Conservation,2008,15(6):28-31[景国臣,刘绪军,任宪平.黑土坡耕地土壤侵蚀对土壤性状的影响[J].水土保持研究,2008,15(6):28-31]
[26] Zhong Guohui,Tian Fayi,Wang Mu,et al. Soil fertility of croplands in major agricultural areas in Tibet[J]. ActaPedologicaSinica,2005,42(6):1030-1034[钟国辉,田发益,旺姆,等.西藏主要农区农田土壤肥力研究[J].土壤学报,2005,42(6):1030-1034]
[27] Wang Guoliang,Liu Guobin,Zhou Shenglu. The effect of vegetation restoration on soil stable infiltration rates in small watershed of loess gully region[J].Journal of Natural Resources,2003,18(5):529-535[王国梁,刘国彬,周生路.黄土丘陵沟壑区小流域植被恢复对土壤稳定入渗的影响[J].自然资源学报,2003,18(5):529-535]
[28] Peng Xinhua,Zhang Bin,Zhao Qiguo. Effect of soil organic carbon on aggregate stability after vegetative restoration on severely eroded red soil[J].ActaEcologicaSinica,2003,23(10):2176-183[彭新华,张斌,赵其国. 红壤侵蚀裸地植被恢复及土壤有机碳对团聚体稳定性的影响[J].生态学报,2003,23(10):2176-2183]
[29] Zhao Shiwei,Zhou Yindong,Wu Jinshui. Soil moisture characteristics of different vegetation in northern of Ziwuling [J]. Journal of Soil and Water Conservation,2002,16(4):119-122[赵世伟,周印东,吴金水. 子午岭北部不同植被类型土壤水分特征研究[J].水土保持学报2002,16(4):119-122]
[30] Shan Xiuzhi,Wei Youqing. Influence of organic matter content on soil hydrodynamic farameters[J]. ActaPedologicaSinica,1998,35(1):1-9[单秀枝,魏由庆.土壤有机质含量对土壤水动力学参数的影响[J].土壤学报,1998,35(1):1-9]
[31] Hillel D.Introduction to Soil Physics [ M ]. San Diego:Academic Press,1982:243-248
[32] Zhu Zuxiang,pedology[M].Beijing:Agriculture Press,1982:104-158[朱祖祥.土壤学[M].北京:农业出版社,1982:104-158]

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备注/Memo

备注/Memo:
收稿日期(Received date):2015-11-28; 改回日期(Accepted):2015-12-07。
基金项目(Foundation item):国家自然科学基金-云南联合基金重点项目(U1033601); 高等学校博士学科点专项科研基金(20135314110005); NSFC-云南联合基金重点项目(U1502232)。[National Natural Science Foundation of China-Yunnan Joint Fund(U1033601); Research Fund for the Doctoral Program of Higher Education of China(20135314110005); NSFC-Yunnan Joint Fund(U1502232).]
作者简介(Biography):张磊(1987-),男,陕西宝鸡人,硕士研究生,主要从事水文地质与工程地质方面研究。[Zhang Lei(1987-),male, graduate candidate,major in hydrogeology and engineering geology.] E-mail:zlzb5201@126.com
*通信作者(Corresponding author):徐则民(1963-),教授,博士生导师。[Xu Zemin(1963-),male,Ph.D,professor.] E-mail:abc5100 @188.com
更新日期/Last Update: 2016-09-30