共查询到20条相似文献,搜索用时 296 毫秒
1.
尖萼金丝桃根系对边坡土体抗剪强度的影响 总被引:2,自引:2,他引:0
[目的]探讨根系单根抗拉拔强度对边坡土体抗剪强度的影响,定量分析根系对边坡土体抗剪强度的增强作用,为评价植物根系增强边坡土体抗剪切性能提供依据。[方法]以2 a生尖萼金丝桃根系及其组成的根土复合体为研究对象,分别进行室内单根拉拔试验和根土复合体剪切试验,获得根系的抗拉强度及根土复合体试样黏聚力值;在此基础上分析根系抗拉强度与根土复合体黏聚力值之间的关系。[结果]尖萼金丝桃根系抗拉强度与根系直径存在负向幂函数关系,相关性系数均大于0.92;根系拉拔位移、抗拉拔力均与根系直径呈正相关关系,拉拔位移与抗拉拔力之间也表现为显著正相关关系;抗拉强度与根系直径、拉拔位移、抗拉拔力两两之间均呈负相关关系;根土复合体的黏聚力相较于无根素土均有不同程度的增长,增幅达17.25%~94.76%,黏聚力、黏聚力增长率均与根土面积比、根土体积比呈正相关关系。[结论]尖萼金丝桃根系拉拔特征对边坡土体抗剪强度产生显著的影响,边坡土体抗剪切性能评价指标与根系拉拔特征变化密切相关。 相似文献
2.
基于两种计算模型的油松与元宝枫根系固土效能分析 总被引:1,自引:0,他引:1
[目的]定量分析北方常见植物(油松、元宝枫)根系对提高土壤抗剪能力的作用,为更好地评价植物根系固土效能提供理论基础。[方法]选取不同根系面积比(RAR)的油松(Pinus tabulaeformis)根土复合体、元宝枫(Acer truncatum)根土复合体及素土分别进行了不同垂直压力下的直剪试验,得出了油松根土复合体、元宝枫根土复合体及素土的抗剪强度增量。并通过根系的拉伸试验测定了植物根系的抗拉强度,同时使用Wu的根土复合体模型和Pollen的纤维束模型对抗剪强度增量进行模拟并与实际测定的抗剪强度增量进行对比分析。[结果](1)根系主要通过增强土壤的黏聚力来增强土壤的抗剪切强度;(2)植物根系抗拉强度、拔出强度与根系直径都符合幂函数关系,抗拉强度和拔出强度大小存在阈值,根系大于2mm时,根系拔出强度小于根系抗拉强度,小于2mm时则反之;(3)Wu的根土复合体模型高估植物根系固土效果值平均为26.81%,而纤维束模型对根系提高土壤抗剪强度则平均高估9.82%。[结论]相对于Wu模型,纤维束模型对土壤的固土效果的计算更为准确。 相似文献
3.
为了进一步评价植物根系增强土体抗剪强度的作用及其变化规律,结合国内外学者在此领域所开展的研究,系统地阐述了根-土复合体的结构、性能及草本、灌木植物根系增强边坡土体稳定性的贡献,讨论了原位剪切试验对于评价植物根系增强边坡稳定性贡献的优势;并初步探讨了根-土复合体原位剪切试验的发展方向,即对于坡体不同深度条件下根-土复合体中根系与土体之间的摩擦力大小以及土体密度、含水量等物理性指标对根系提高土体强度的影响程度尚需进一步研究;对于根-土复合体原位剪切试验装置中相关构件参数如剪切盒尺寸等的设计,以及所反映的边坡土体抗剪强度大小等方面尚需做进一步探讨。 相似文献
4.
不同根系含量对山原红壤抗剪强度的影响 总被引:1,自引:0,他引:1
[目的]探讨云南省昆明市呈贡区段家营一植被覆盖的斜坡区不同含量植被根系对山原土壤抗剪强度的增强效应,为相关研究提供理论依据。[方法]制备0(无根系空白样),0.467,0.93,1.4 mg/cm~3这4种根系含量以及20%,25%,30%,35%,40%这5种含水量的根—土复合体试验样品进行抗剪强度试验。[结果]根—土复合体中,植被根系能提供给土壤额外的抗剪能力和抵抗土体变形来增强土体的抗剪强度,植被根系对土体抗剪强度有明显的增强效应,但这种增强效应是有限的。根系含量在0.93 mg/cm~3时,根系对土体的抗剪强度增强效果最好。随着根系含量的增加,黏聚力和内摩擦角总是呈现负相关性的关系,在低含水量情况下,黏聚力随根系含量增加而先降低后增加,内摩擦角随根系含量变化则相反。当含水量低且根系含量相对较少时(当含水量≤35%,根系含量≤0.93 mg/cm~3时),土壤参与剪切整个过程且为被剪主体,得到的黏聚力和内摩擦角均为正值,符合库仑定律;当含水量较高且根系含量较多时(当含水量=35%,根系含量=1.4 mg/cm~3时以及当含水量=45%,根系含量≥0.467 mg/cm~3时),被剪主体为根系,得到的黏聚力为负值,不符合库仑定律。[结论]库仑定律不适用于高含水量和高含量植被根系的根—土复合体抗剪强度的研究。在采用植被护坡时可用试验确定边坡土壤抗剪强度最高时的最佳含根量和含水量。 相似文献
5.
寒旱环境灌木根系增强边坡土体抗剪强度特征 总被引:1,自引:0,他引:1
为深入研究根系与剪切面呈不同夹角α条件下,边坡土体中根系对土体抗剪强度的影响,以及定量分析评价植物根系对边坡土体抗剪强度的增强作用,该项研究以生长期为150 d的柠条锦鸡儿、霸王根系及其组成的柠条锦鸡儿根-土复合体、霸王根-土复合体为研究对象分别进行室内单根拉伸试验和复合体剪切试验。通过对2灌木根系进行单根拉伸试验,得到2种灌木根系单根的抗拉强度,并对根系与剪切面夹角α分别为45°、60°、75°、90°等4种条件下的根-土复合体进行剪切试验,得到4种α角度条件下的根-土复合体试样抗剪强度;在此基础上,分析探讨了单根抗拉强度与根-土复合体试样粘聚力值之间的关系。结果表明:柠条锦鸡儿根系的单根抗拉强度较霸王根系的单根抗拉强度略高;柠条锦鸡儿根-土复合体、霸王根-土复合体试样,在4种不同α角度条件下的黏聚力均显著大于素土黏聚力;当α角由45°增大至90°时,2种灌木根-土复合体的黏聚力值呈逐渐增大的趋势,且黏聚力的增长率亦表现出一致性变化规律,即2种灌木根-土复合体试样的黏聚力的增长率均随着α角的增大而呈增大趋势;根-土复合体黏聚力值与单根抗拉强度存在正相关关系。由上述复合体黏聚力值的变化规律反映出,试验区2种灌木根系对边坡土体抗剪强度具有显著增强作用,同时亦反映出随根系的单根抗拉强度的增大,根系对土体粘聚力值的增强效果相对愈加显著,且随根系与剪切面间夹角不同,根系增强边坡土体抗剪强度贡献具有不同的变化规律,即表现在根系与剪切面之间的夹角趋于垂直时,根系具有相对最大限度地增强土体抗剪强度的作用。该研究结果为定量评价植物根系增强边坡土体抗剪强度的贡献,提供了试验方面的数据支撑,这为进一步深入探讨植物根系增强边坡土体抗剪强机理提供参考。 相似文献
6.
沙地柏根系径级对根土复合体抗剪强度的影响 总被引:2,自引:0,他引:2
采用应变控制式直剪仪,通过对含不同沙地柏根系径级的扰动土进行室内直剪试验,分析研究根土复合体的抗剪性能。结果表明沙地柏根系的加入,增强了土体的抗剪强度,且根土复合体的抗剪强度符合库伦定律;当所含根系径级小于某个极限值时,根土复合体的抗剪强度随着径级的增大而增大,当超过这一极限值,则随着所含根系径级的增大,其抗剪强度逐渐减小,随着根系径级的逐步增大,由于根自身抵抗土体剪切变形能力增强,使得根土复合体的抗剪强度值开始回升;一定竖向荷载下,根土截面比△过小,对复合体抗剪性能影响微弱;根土截面比过大,根系与土壤胶结力降低,对抗剪强度产生负影响,因此,存在一个最佳根土截面比,在此比值附近,根土复合体的抗剪强度达到最大。本研究可为沙地柏在作为水土保持树种栽植方面提供理论依据。 相似文献
7.
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13.48~21.87kPa,不含根系素土试样粘聚力值为8.45kPa,与不含根系素土相比,根—土复合体的粘聚力值增长量为5.03~13.42kPa,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。 相似文献
8.
布根方式及根系径级对根土复合体抗剪性能的影响 总被引:2,自引:0,他引:2
以沙地柏根系及其土壤所构成的根土复合体为研究对象,通过根土复合体的室内直剪试验,研究了沙地柏根的不同径级、不同布置方式对根土复合体抗剪性能的影响。结果表明,在不同法向应力作用下,有根系存在的根土复合体抗剪强度均明显高于无根扰动土的抗剪强度。在根土复合体中,垂直存在的根系对提高土体抗剪强度的贡献大于水平存在的根系。在所含根数一致的情况下,根土复合体的抗剪强度并不与所含根系径级的大小成正比,而是随着根系径级的增大呈现递增—回落—反弹的趋势。该试验的研究可为今后沙地柏水土保持树种的栽植提供一定的技术参数及理论支撑。 相似文献
9.
针叶与阔叶树根系对土壤抗剪强度及坡体稳定性的影响 总被引:2,自引:1,他引:1
重庆缙云山地处三峡库区,是国家重点自然保护区。由于地势特点,坡面极易发生土壤侵蚀及浅层滑坡,因此,在不破坏原有生态环境的前提下,有效防止灾害发生是该地区的重点防治工作。选取了同种根构型的针叶树种(马尾松Pinus massoniana Lamb)和阔叶树种(四川大头茶Gordonia acuminate),比较其提高土壤抗剪强度的作用强弱,并分析根面积比率、剪切带根系径级比、根系位置范围,以及根系角度等因素对土壤抗剪强度的影响。结果表明,针叶树种对土壤抗剪强度增强效果强于阔叶树种;针叶树种根系平均抗拉强度较大,其对土壤抗剪强度的增量更大;针叶树种根系分布范围较广且存在更多与剪切方向成60°的根系,表现出更好的固坡作用;根面积比率对土壤抗剪强度影响不明显。 相似文献
10.
为探讨高寒干旱环境下盐生植物根—土复合体抗剪强度影响因素以及复合体抗剪强度特征,选取了位于柴达木盆地西北部的尕斯库勒盐湖区作为研究区,筛选出芦苇、海韭菜、无脉苔草、赖草和洽草5种优势盐生植物作为试验供试种,对其进行了室内根—土复合体原状试样直剪试验,分析了复合体容重、含水量、根长密度(RLD)、根重密度(RWD)和根面积比(RAR)5种因素对根—土复合体抗剪强度影响;在此基础上,采用灰色关联法进一步评价了上述5种因素对复合体抗剪强度的影响程度,结果表明:盐生植物根—土复合体粘聚力c值、摩擦角φ值与影响因素间的灰色关联度容重为0.740,0.879,含水量为0.698,0.849,根重密度为0.692,0.609,根长密度为0.655,0.519,根面积比为0.631,0.569;5种盐生植物根—土复合体粘聚力c值与5种影响因素容重之间的关系相对较为显著。其中芦苇根系增强土体粘聚力c值作用相对较为显著,其根系在土体中呈近似垂直状分布,故在试样中根系多数穿过剪切面,即当复合体发生剪切变形时,试样中根系基本均能起到抵抗剪切变形作用。该研究成果对研究区及其周边地区有效防治坡面水土流失、浅层滑坡等地质灾害现象发生具有一定理论研究价值和实际指导意义。 相似文献
11.
Shuichi Asanuma Yasuhiro Kono Hirofumi Tanaka Michihiko Yatazawa 《Soil Science and Plant Nutrition》2013,59(4):553-561
Abstract Root system of rice seedlings grown on nutrient solution inoculated with soil microorganisms were examined morphologically in comparison with those obtained under sterile condition. In the presence of soil microorganisms, primary roots increased in their number and decreased in the total length. Inoculated plants had more secondary roots equipped with tertiary roots. In addition, longer root hairs developed densely on primary and secondary roots of the inoculated seedlings. Anatomical examination of the primary roots revealed that the number and width of cortical layers, as well as the length and width of the cortical cells, were increased by the effect of microorganisms. Microbial effect on outer morphology of rice roots, consequently, was estimated to have been induced from the alteration in histological and cytological activities including the activation of the periclinal divisions of the epidermal cells, the inactivation of the transverse divisions of the cortical cells and the activation of the elongation of cortical cells. 相似文献
12.
水、氮供应和土壤空间所引起的根系生理特性变化 总被引:24,自引:6,他引:24
在限制根系生长的胁迫条件下.,研究了补充和不补充供应水、氮对玉米根系生理特性及养分吸收的影响。结果表明.,正常生长条件下.,水、氮供应促进了根系生长.,增加了根系吸收总面积、活跃吸收面积和TTC还原量.,促进了根系对养分的吸收.,从而提高了产量.;限制根系生长.,水分的作用与正常条件下相同.,氮素的作用则受控于土壤水分。补充灌水增强了氮肥作用.,供氮促进了根系生长.,改善了根系生理特性.,减少了限制根系生长所引起的不良影响.;不补充灌水限制了氮肥作用的发挥.,供氮导致了根系生物量和生理特性下降.,加重了限制根系生长的不良影响。 相似文献
13.
In order to achieve high yields and environmental friendliness simultaneously, the replacement of chemical fertilizers by manure has become a research hotspot in recent years. Roots absorb nitrogen, participate in its assimilation and contribute to the cereal's dry matter accumulation. A 5-year filed experiment in the North China Plain was initiated to assess the response of root morphology and distribution of summer maize (Zea mays L.) to fertilizer application and contribution to crop yield. The treatments included CK (unfertilized control), NPK (inorganic nitrogen/phosphorus/potassium fertilizer) and NPKM (manure + 70% NPK). We determined the root biomass, root diameter, root length density (RLD) of three diameters (>0.8 mm, 1stRLD; 0.2–0.8 mm, 2ndRLD; <0.2 mm, 3rdRLD) and the soil chemical properties at 60 cm with 10 cm increments. At 40–60 cm, NPKM significantly decreased the root diameter than NPK. Fertilization showed no effect on total RLD, 1stRLD, 2ndRLD and 3rdRLD for a 60-cm soil profile. At 40–50 cm, the NPKM increased the RLD compared to NPK, mainly by increasing the 2ndRLD and 3rdRLD. Under CK and NPK, root lengths of 0–20 cm made up 62% and 57% of the total root length, respectively. Under NPKM, root lengths of 40–60 cm made up 46% of the total root length. Our results indicate that maize yield was preserved after replacing 30% of N fertilizer with manure, presumably depending on the change of root vertical distribution pattern and increase of the fine root length in deeper soil. 相似文献
14.
Roots are the main plant organs that supply nutrients, water, hormones and physical support for the plant. Phosphorus (P) is one of the most limiting and important elements in root growth and crop production. The aims of this study were to investigate the effects of different sources of phosphorus treatments on root growth (root length, diameter and dry matter) of barley. The two glasshouse pot experiments results showed that under P deficiency, the weight of dry root significantly decreased and the total root length of whole plant significantly increased with decrease of root diameter. Our results suggested that soil fertility and root structure are widely recognized as important role of the soil community and plant growth, the root structure and root extension can directly and indirectly affected by soil fertility and specially P nutrient of the soil. Accordingly, root characteristics can determine the circumstance of plant growth and crop production. 相似文献
15.
16.
两个氮素利用率不同的水稻品种根系形态及生理特性的差异 总被引:7,自引:0,他引:7
The variation in nitrogen (N) uptake by rice has been widely studied but differences in rice root morphology that may contribute to this variation are not completely understood. Field and greenhouse experiments were carried out to study N accumulation, root dry weights, total root lengths, root surface areas, and root bleeding rates of two rice cultivars, Elio with low N-use efficiency and Nanguang with high N-use efficiency. Low (1 mmol N L-1) and high (5 mmol N L-1) N applications were established in the greenhouse experiment, and the N rates were 0, 120, and 240 kg ha-1 in the field experiments at Jiangning and Jiangpu farms, Nanjing, China. The results showed that the N accumulation, root dry weight, total root length, and root surface area increased with an increase in N application. At the heading stage, N accumulation in the shoots and roots of Nanguang was greater than that of Elio in the field experiments and that of Elio at 5 mmol N L-1 in the greenhouse experiment. After the heading stage, N accumulation was higher for Nanguang at both 1 and 5 mmol N L-1 in the greenhouse experiment. The total root length and root surface area were significantly different between the two cultivars. Over the range of the fertilizer application rates, the root lengths of Nanguang at Jiangning Farm were 49%-61% greater at booting and 26%-39% greater at heading than those of Elio, and at Jiangpu Farm they were 22%-42% and 26%-38% greater, respectively. Nanguang had a greater root bleeding rate than Elio. It was concluded that the N-use efficiency of the two rice cultivars studied depended to a great extent on the root morphological parameters and root physiological characteristics at different growth stages. 相似文献
17.
Junichi Yamaguchi 《Soil Science and Plant Nutrition》2013,59(4):625-629
The variation in the root diameter of field-grown crops was directly measured under a microscope by manually removing soil particles from roots without washing the roots. The frequency of the root diameter at the mode (about 10 μm, mainly of root hairs) was higher in wheat and maize (about 60%) than in soybean and sugar beet (about 30%), and it was the lowest in potato (21%). The diameter of 88 to 97% of the roots larger than 20 μm ranged from 21 to 160 μm. The finer the roots, the higher was the frequency, except for potato roots in which the frequency of roots with a diameter of 21 to 40, 41 to 80, and 81 to 160 μm was about 30%. Since fine roots and root hairs account for the largest proportion of the crop root system, they should appropriately be quantified whenever morphological and physiological aspects of roots are analyzed. 相似文献
18.
19.
贺兰山3种乔木单根及根土复合体力学特性 总被引:6,自引:4,他引:2
为研究和比较贺兰山山杨、青海云杉、油松单根和根土复合体的力学特性,通过单根拉伸、三轴压缩、饱和渗透试验测定了3种乔木单根和根土复合体的力学参数及土水特征曲线。结果表明:3种乔木单根力学特性存在显著差异,且直径对单根的力学特性有显著影响。单根最大拉力与直径成幂函数相关,随直径增大而增大;单根抗拉强度、杨氏模量与直径成对数函数相关,随直径增大而减小。山杨单根平均最大拉力(0.38kN)青海云杉(0.25kN)油松(0.17kN);山杨单根平均抗拉强度(33.39 MPa)青海云杉(27.79MPa)油松(18.45MPa);山杨单根平均杨氏模量(0.17GPa)青海云杉(0.12GPa)油松(0.11GPa)。3种乔木根土复合体的黏聚力、弹性模量存在显著差异,但摩擦角没有显著差异(平均值30.48°)。山杨根土复合体的黏聚力(10.65kPa)青海云杉(8.97kPa)油松(7.13kPa);山杨根土复合体的弹性模量(2.17 MPa)青海云杉(2.52 MPa)油松(4.21 MPa)。3种乔木根土复合体的土水特征曲线、渗透函数曲线都存在极显著差异,山杨根土复合体的渗透能力油松青海云杉。研究结果对于评价山杨、青海云杉、油松稳定边坡能力和建立贺兰山边坡稳定性分析数值模型都具有重要参考价值。 相似文献
20.
[目的]探究灌木根系几何特性对拉拔力的影响,为边坡防护植物物种的选择与植物价值的充分利用提供理论参考。[方法]以红叶石楠为例,通过对多根系形态的灌木根系进行室外拉拔试验,研究不同含水率、根系形态、二级侧根等情况对根土间相互作用力的影响。[结果]Y型根系和水平根系最大拉拔力随土壤含水率的增加呈对数和指数函数减小,而主直根系最大拉拔力随土壤含水率的增加呈先增大后减小的趋势,最优含水率在17.5%左右;Y型根系的最大拉拔力随Y型根系夹角的增加逐渐增大,而根系全段激活时间随根系夹角的增加呈现先减小后增大的趋势,在夹角为75°时最容易被激活;Y型根系及主直根系的最大拉拔力均随二级侧根数的增加呈线性增加,且主直根系最大拉拔力的增加趋势大于Y型根系。主直根系在土壤含水率为10%,20%,25%时,拉拔曲线呈拉拔硬化型,含水率为15%时,拉拔曲线呈拉拔软化型;水平根系和Y型根系在含水率为15%,17.5%时,拉拔曲线呈拉拔硬化型,含水率为20%,22.5%,25%时,拉拔曲线呈拉拔软化型。[结论]根系形态与含水率是影响根系拉拔力的关键因素,根系形态越复杂,拉拔力越大;含水率越高,拉拔曲线逐渐由硬化向软化型转变。 相似文献