[1]罗春燕,吴楚,芦光新,等.三江源区植物根-土复合体的抗拉拔力特征及影响因素分析[J].水土保持研究,2014,21(05):260-266,271.
 LUO Chun-yan,WU Chu,LU Guang-xin,et al.Tensile Resistance Characteristics of Root-Soil Composite System and Influence Factor Analysis in Sanjiangyuan Regions of Qinghai-Tibet Plateau[J].Research of Soil and Water Conservation,2014,21(05):260-266,271.
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三江源区植物根-土复合体的抗拉拔力特征及影响因素分析

《水土保持研究》[ISSN:1005-3409/CN:61-1272/P] 卷: 21 期数: 2014年05期 页码: 260-266,271 栏目: 出版日期: 2014-10-28
Title:
Tensile Resistance Characteristics of Root-Soil Composite System and Influence Factor Analysis in Sanjiangyuan Regions of Qinghai-Tibet Plateau
作者:
罗春燕1, 吴楚2, 芦光新3, 德科加4, 张明4, 王军邦5
1. 青海大学 土木工程学院, 西宁 810003;
2. 长江大学 园艺园林学院, 湖北 荆州 4340252;
3. 青海大学 农牧学院, 西宁 810033;
4. 青海省畜牧兽医科学院, 西宁 810016
Author(s):
LUO Chun-yan1, WU Chu2, LU Guang-xin3, DE Ke-jia4, ZHANG Ming4, WANG Jun-bang5
1. College of Civil Engineering, Qinghai University, Xi’ning 810016, China;
2. College of Horticulture and Gardening, Yangtze University, Jingzhou, Hubei, 434025, China;
3. College of Agriculture and Animal Husbandry, Qinghai University, Xi’ning 810016, China;
4. Qinghai Academy of Animal Science and Veterinary Medicine, Xi’ning 810016, China
关键词:
三江源区植物根—土复合体抗拉力生物学特性燕麦
Keywords:
Sanjiangyuan Regions of Qinghai-Tibet Plateauroot-soil complexroot tensile resistancebiological characteristicsOats
分类号:
TU411.7
摘要:
为研究高寒地区草地恢复过程中牧草根系固土稳定性机制,在青藏高原三江源区对燕麦根—土复合体进行原位拉拔试验,系统分析了燕麦根—土复合体抗拉力的表现特征及影响因素。结果表明:(1)根—土复合体的抗拉力在不同地形、种植方式等不同情况下,表现出的特征不一致。高密度区比低密度区的抗拉力小,撒播区比条播区的抗拉力小,高坡度区比低坡度区抗拉力小,远离冲蚀沟区比冲蚀沟区附近抗拉力小,且差异显著(P < 0.05)。(2)根—土复合体的抗拉力与地上生物学性状相关性低,与根系生物学性状相关性高。(3)复合体的抗拉力与根径(RD)、须根条数(RN)呈极显著正相关(P < 0.01),与根长(RL)、单根生物量(RW)呈显著正相关(P < 0.05)。
Abstract:
To study the stability mechanism of the root-soil complex in restored alpine meadow, the tests for the tensile resistance of plant roots were carried out in Sanjiangyuan Regions of Qinghai—Tibet Plateau. The performance characteristics of the root tensile resistance and factors affecting root-soil complex were analyzed. All the results showed that: (1) the root-soil complex showed different characteristics under the conditions of different terrain and different planting way, the root tensile resistance in the area with high density of oats is smaller than that in the area with low density of oats, sowing ways affected the root tensile resistance, the root tensile resistance in the area with drilling sowing way is smaller than that in the area with scattering sowing way, slopes affect the root tensile resistance, the root tensile resistance in the area with greater slopes is smaller than that in the area with less slopes, in addition, the distances from the planting sites to the erosive ditches also affect the root tensile resistance, the root tensile resistance in the areas far away from the erosive ditches is significantly less than that in the area near the erosive ditches(P < 0.05); (2) the correlation between root tensile resistance and the biological characteristics of the ground-above parts of oat plants was low, but is high between root tensile resistance and the biological characteristics of the ground-below parts of oat plants; (3) there are significant positive correlations with root diameters (RD), root numbers ((RN), root length (RL), the biomass of single roots (RW) (P < 0.05).

参考文献/References:

[1] 郑湘如.植物学[M].北京:中国农业出版社,2006.
[2] 夏振尧,周正军,黄晓乐,等.植被护坡根系浅层固土与分形特征关系初步研究[J].岩石力学与工程学报,2011,30(2):3641-3647.
[3] Abe K, Iwamoto M. An evaluation of tree-root effect on slope stability by tree-root strength[J]. J. Jpn. Forestry Sci.,1986,69:505-510.
[4] Waldron L J. The shear resistance of root-permeated homogeneous and stratified soil[J]. Soil Science Society of America Journal,1977,41(5):843-849.
[5] Cammeraat E, van Beek R, Kooijman A. Vegetation succession and its consequences for slope stability in SE Spain[J]. Plant and Soil,2005,278(1/2):135-147.
[6] Gyssels G, Poesen J, Bochet E, et al. Impact of plant roots on the resistance of soils to erosion by water:A review[J]. Progress in Physical Geography,2005,29(2):189-217.
[7] Stokes A, Lucas A, Jouneau L. Plant biomechanical strategies in response to frequent disturbance:uprooting of Phyllostachys nidularia (Poaceae) growing on landslide-prone slopes in Sichuan, China[J]. American Journal of Botany,2007,94(7):1129-1136.
[8] Mickovski S B, van Beek L P H, Salin F. Uprooting resistance of vetiver grass (Vetiveria zizanioides)[M]//eco-and Ground Bio-Engineering:The Use of Vegetation to Improve Slope Stability. Springer Netherlands,2007:53-60.
[9] Operstein V, Frydman S. The influence of vegetation on soil strength[J]. Proceedings of the ICE-Ground Improvement,2000,4(2):81-89.
[10] Ekanayake J C, Phillips C J. A method for stability analysis of vegetated hillslopes:an energy approach[J]. Canadian Geotechnical Journal,1999,36(6):1172-1184.
[11] Nilaweera N S, Nutalaya P. Role of tree roots in slope stabilisation[J]. Bulletin of engineering Geology and the Environment,1999,57(4):337-342.
[12] 胡夏嵩,李国荣,朱海丽,等.寒旱环境灌木植物根-土相互作用及其护坡力学效应[J].岩石力学与工程学报,2009,28(3):613-620.
[13] 尚占环,龙瑞军.青藏高原"黑土型"退化草地成因与恢复问题的研究评述[J].生态学杂志,2005,24(6):652-656.
[14] 周华坤,周立,赵新全,等.江河源区"黑土滩"型草场的形成过程与综合治理[J].生态学杂志,2003,22(5):51-55.
[15] 马玉寿,朗百宁,李青云,等.江河源区高寒草甸退化草地恢复与重建技术研究[J].草业科学,2002,19(9):1-5.
[16] 曹波,曹志东,王黎明,等.植物根系固土作用研究进展[J].水土保持应用技术,2009,1:26-28.
[17] Gray D H, Alrefeai T. Behavior of fabric vs. fiber-reinforced sand[J]. Journal of the Geotechnical Engineering,ASCE,1986,112(8):804-820.
[18] 赵丽兵,张宝贵,苏志珠.草本植物根系增强土壤抗剪切强度的量化研究[J].中国生态农业学报,2008,16(3):718-722.
[19] 邓卫东,周群华,严秋荣.植物根系固坡作用的试验与计算[J].中国公路学报,2007,20(5):7-12.
[20] 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.
[21] 程洪,颜传盛,李建庆,等.草本植物根系网的固土机制模式与力学试验研究[J].水土保持研究,2006,13(1):62-65.
[22] 刘国彬,蒋定生,朱显漠.黄土区草地根系生物力学研究[J].土壤侵烛与水土保持学报,1996,2(3):21-28.
[23] 朱显漠.黄土高原地区植被因素对于水土流失的影响[J].土壤学报,1960,8(2):110-120.
[24] 查轩,唐克丽.植被对土壤特性及土壤侵蚀的影响研究[J].水土保持学报,1992,6(2):52-58.
[25] 李勇,朱显漠.黄土高原土壤抗冲性机理的初步研究[J].科学通报,1990(5):390-393.
[26] 吴彦.植物根系提高土壤水稳性团粒含量的研究[J].土壤侵蚀与水土保持学报,1997,3(1):45-49.
[27] Gray D H. Reinforcement and Stabilization of Soil by Vegetation[J]. J. Geotech. Engrg.,1974,100(6):695-699.
[28] 李勇.黄土高原植物根系提高土壤抗冲性的有效性[J].科学通报,1991(12):935-938.
[29] 李勇,徐晓琴.黄土高原植物根系提高土壤抗冲性机制初步研究[J].中国科学B辑,1992(3):254-259.
[30] Burroughs E R, Thomas B R. Declining root strength in Douglas-fir after felling as a factor in slope stability[J]. USDA Forest Service Department of Agriculture, Research Paper,1977:181-190.
[31] 方便,罗海波,魏华炜.三叶草根-土复合体抗剪切强度试验研究[J].贵州大学学报:自然科学版,2012,29(2):29-32.
[32] 封金财,王建华.乔木根系固坡作用机理的研究进展[J].铁道建筑,2004(3):29-31.
[33] 石浥尘,杨军,李秀明,等. 林地根系对土壤抗冲性影响[J].中国水运,2011,11(11):165-166.
[34] 钟亮根.紫穗槐在赣南红层路基边坡防护应用的试验研究[D].南昌:华东交通大学,2008.
[35] Fogel R. Root turnover and productivity of coniferous forests[M]//Tree Root Systems and Their Mycorrhizas. Springer Netherlands, 1983:75-85.
[36] Bischetti G B, Chiaradia E A, Simonato T, et al. Root strength and root area ratio of forest species in Lombardy (Northern Italy)[J]. Plant and Soil,2005,278(1/2):11-22.
[37] Tosi M. Root tensile strength relationships and their slope stability implications of three shrub species in the Northern Apennines (Italy)[J]. Geomorphology,2007,87(4):268-283.
[38] 杨维西,赵廷宁,李生智,等.人工刺槐林和油松林的根系固土作用初探[J].水土保持学报,1988,2(4):38-43.
[39] 孙立达,朱金兆.水土保持林体系综合效益研究与评价[M].北京:中国科学技术出版社,1995.
[40] 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(Z2):3445-3452.
[41] 李绍才,孙海龙,杨志荣,等.护坡植物根系与岩体相互作用的力学特性[J].岩石力学与工程学报,2006,25(10):2051-2057.
[42] 张东升.长江上游暗针叶林林木根系抗拉力学特性研究[D].北京:北京林业大学,2002.
[43] 朱清科,陈丽华,张东升,等.贡嘎山森林生态系统根系固土力学机制研究[J].北京林业大学学报,2002,24(4):64-67.
[44] Gray D H. Role of woody vegetation in reinforcing soils and stabilizing slopes[C]//Proc. Symp. Soil Reinforcing and Stabilising Techniques, Sydney, Australia,1978:253-306.
[45] Ekanayake J C, Marden M, Watson A J, et al. Tree roots and slope stability:a comparison between Pinus radiata and kanuka[J]. New Zealand Journal of Forestry Science,1997,27(2):216-233.
[46] Wu T H, Watson A J, El-Khouly M A, et al. Soil-root interaction and slope stability[C]//First Asia-Pacific Conference on Ground and Water Bioengineering for Erosion Control and Slope Stabilization, Manila, Philippines, April 1999. Science Publishers, Inc.,2004:183-192.
[47] Waldron L J, Dakessian S. Soil reinforcement by roots:calculation of increased soil shear resistance from root properties[J]. Soil Science,1981,132(6):427-435.
[48] Watson A, Phillips C, Marden M. Root strength, growth, and rates of decay:root reinforcement changes of two tree species and their contribution to slope stability[J]. Plant and Soil,1999,217(1/2):39-47.
[49] 王义琴,张慧娟,白克勇,等.分形几何在植物根系研究中的应用[J].自然杂志,1999,21(3):143-146.
[50] 廖成章,余翔华.分形理论在植物根系结构研究中的应用[J].江西农业大学学报,2001,23(2):192-196.
[51] Gray D H, Ohashi H. Mechanics of fiber reinforcement in sand[J]. J. Geotech. Eng.,1983,109(3):335-353.

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备注/Memo

收稿日期:2013-11-27;改回日期:2013-12-19。
基金项目:国家自然科学基金项目“青藏高原耐低温纤维素分解真菌多样性的研究”(41261064);农业部公益性行业(农业)科研专项项目“青藏高原社区畜牧业关键技术研究与示范”(201203007)
作者简介:罗春燕(1974-),女,重庆市人,副教授,研究方向:土力学。E-mail:1196810929@qq.com
通讯作者:王军邦(1974-),男,青海省湟中县人,博士,研究方向:全球变化生态学。E-mail:jbwang@igsnrr.ac.cn

更新日期/Last Update: 1900-01-01