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1.
为探明黄土高原北部坡面土壤饱和导水率(Ks)空间分布特征,为土壤水文过程模拟与预测提供理论依据,采用经典统计学和地统计学的空间变异分析方法,分析了坡面尺度土壤Ks的空间变异特征,并用一阶自回归状态空间模型对Ks的空间分布进行了模拟.研究区坡面尺度Ks的变异为中等程度变异,具有中等程度空间依赖性,变程为42 m.Ks与容重、砂粒、粉粒和黏粒含量在不同滞后距离下均具有自相关关系和交互相关关系.容重和土壤颗粒是影响坡面Ks空间分布的主要因素.状态空间模拟结果表明,基于容重和土壤颗粒的状态空间方程可以很好地解释坡面Ks的变异状况(R2>0.9).一阶自回归状态空间模型可用于田间条件下坡面尺度Ks分布特征的预测. 相似文献
2.
为掌握黄土高原区域尺度土壤水分的时空分异特征及其影响因素,在黄土高原布设一条南北方向样带(N=86),动态监测0~5 m剖面土壤含水率。采用经典统计学方法分析了土壤蓄水量的分布规律、变异特征及影响因素。结果表明:不同土层土壤水分均呈中等程度变异,并由南向北递减,样带0~5 m剖面平均土壤蓄水量为735 mm;随着土层深度的增加,土壤水分在空间上的变异增强,而在时间上的变异减弱,表明深层土壤水分具有较强的时间稳定性特征。干燥度、黏粒、归一化植被指数和坡度是影响区域土壤水分空间分布的主要因素,可作为一定置信水平上预测区域土壤水分空间分布状况的预测变量。 相似文献
3.
应用Menger海绵结构模型,推导出包含有分形维数的土壤水分特征曲线的解析模型,该模型与Brook Corey (1964)及Campbell (1974)经验模型的结构相似。通过对不同地区所采集的10种土壤样本利用压力薄膜仪实测得到水分特性曲线资料反求得到相应的分形维数,分析了分形维数与土壤质地、结构之间的关系,结果表明分形维数随土壤粘粒含量的增大而增大,随砂粒含量的增大而减小。同时对土壤水分特性曲线模型的分形维数与基于质量的土壤颗粒分布分形维数进行了比较,结果表明,两者十分接近,而且具有良好的线性相关关系。根据上述关系,利用易测得的土壤粒径分形维数结合所推导的解析模型,对土壤水分特性曲线进行了预测,预测值与实测值具有良好的一致性。 相似文献
4.
研究土壤粒径分形特征,可为地区土壤质量评价提供科学依据.利用分形理论分析了黄河北岸兰州段荒漠-草原过渡带土壤粒径分形特征.(1)区域土壤颗粒主要为粉粒和极细砂粒,随荒漠化加重和土壤深度增加,土壤粗粒化,质地均匀性降低,粒径分布(PSD)频率曲线异质程度增大;(2)荒漠化加重和土壤深度增加降低了单重分形维数Dv和多重分形谱参数D1、D1/D0、D2、△α、△f;(3)Dv、D1、D2、D1/D0、△α和△f同黏粒、粉粒呈正相关,同砂粒呈负相关;黏粒、粉粒、Dv、D1、D2、D1/D0、△α和△f与荒漠化减弱程度呈正相关,砂粒与其呈负相关.土壤分形维数能反映区域土壤结构和变化,可为地区生态治理与巩固提升提供技术指导. 相似文献
5.
粗粒土压实特性及颗粒破碎分形特征试验研究 总被引:3,自引:0,他引:3
对多个级配不同含水率的粗粒土进行击实试验,研究粗粒土的压实特性和颗粒破碎分形特征。结果表明,粗粒土最大干密度随级配中粗粒含量的增大而增大,当粗粒含量P5=70%时,最大干密度出现最大值;当P5>70%时,最大干密度又随粗粒含量的增大而减小,粗粒土击实破碎后的粒径分布具有良好的分形特性,破碎分形维数为2.279 0~2.892 2,均大于击实前粗粒土粒度分形维数;相同级配条件下,粗粒土破碎分形维数随含水率的增大而增大,且粗粒含量P5>50%时,增幅显著;粗粒土破碎分形维数D与破碎率Bg存在良好的线性关系,且击实前后粗粒土粒度分形维数差值能客观表征颗粒破碎的程度;粗粒含量和含水率是影响颗粒破碎率的两个重要因素,但相对于含水率而言,粗粒含量对破碎率的影响更加显著。 相似文献
6.
水对岩石的物理力学性质影响较大,研究不同含水状态下岩石受冲击荷载后破碎物的分形规律具有较强的现实意义。借助于分离式霍普金森杆(SHPB)实验装置,开展不同含水状态的泥质粉砂岩的冲击试验,然后对破碎物的块度分布进行深入分析,并基于尺寸-频率分析方法,重点对破碎物颗粒粒径分布的分形规律进行探讨。结果表明,随着加载速率的提高,泥质粉砂岩冲击破碎物单块体积普遍减小,残留碎块的数量越多,破碎的程度也越高,此时分形维数越小;含水率越大,小颗粒比例越大,岩样破碎程度越高,饱水状态岩样的分形维数较其他两种状态大,天然含水状态和自然吸水状态岩样冲击破碎的分形维数较为接近;当冲击速度较大时其将成为影响分形维数的主要因素,含水率的影响相对较小。 相似文献
7.
8.
饱和导水率是重要的土壤水力学参数,对渗流和溶质运移研究起着至关重要的作用.土壤传递函数可以代替大规模采样和室内外试验间接预测该参数,但由于土壤的空间变异性以及方法的局限性等原因,以往的传递函数往往精度有限.本文以黄河下游沿岸兰考县闫楼乡包气带不同土层为研究对象,基于64个钻孔数据,将土壤粒径分布(黏粒、粉粒和砂粒含量)、土壤结构分形维数、干容重、总孔隙度、pH值、有机质和电导率等9个基本理化特性参数作为影响因素,基于逐步回归、主成分回归和主成分-地理加权回归(PCA-GWR)三种方法,分别对研究区包气带不同土层的饱和导水率进行回归分析,比较精度后基于PCA-GWR对饱和导水率进行地理加权回归克里金插值.结果显示,除表层粉土以外,PCA-GWR法的预测精度有显著优势.不同土层传递函数和饱和导水率分布的差异性表明,由于黄河下游地区快速多变的沉积过程、黄河的决口改道以及人类活动等因素,包气带土层相变剧烈,土壤饱和导水率在平面上亦具有明显的非平稳特征.而局部地质作用和人类活动是第二层粉土层回归克里金估计结果欠佳的深层原因. 相似文献
9.
渝东南岩溶山区耕地利用变化下土壤颗粒体积分形特征研究 总被引:2,自引:0,他引:2
通过对重庆东南部喀斯特山区的野外调查采样和室内粒度分析,利用土壤颗粒体积分维模型,分析了该区域耕地土壤与撂荒地土壤颗粒体积分形维数特征,探讨了颗粒体积分形特征与颗粒体积含量的关系。研究结果表明:土壤颗粒体积分形维数与土壤中粘粒(<0.002mm)含量呈明显的线性相关,表现为粘粒含量越高的土壤,其分形维数也越高。土壤粘粒含量与土壤颗粒体积分形维数在不同土地利用方式的土壤剖面上表现出相同的变化规律。土壤分形维数不仅受粘粒含量的支配,还与土壤质地的均一程度有关,分形维数与土壤质地均匀指数表现出一定的相关性,但相关性较弱。耕地土壤分形维数值(平均值为2.5065)大于撂荒地分形维数值(平均值为2.4835),说明岩溶区人类农耕活动对土壤质地尤其是粘粒含量影响明显。土壤体积分形维数可以作为区域耕地土壤质量评价指标之一。 相似文献
10.
为探究单刀齿线性切削作用下岩石的破坏规律,利用大比尺模型试验平台对砂岩开展了线性切削试验,结合分形几何学方法,对砂岩在不同切削角度及不同切削深度下的切削产物,包括切削沟槽的尺寸及切削碎块的几何特征进行了分析。试验结果表明,切削影响宽度与切削深度呈良好的线性关系,且随切削深度的增加而增加,切削角度为45°时相同切削深度对应的切削影响宽度最小。砂岩的切削碎块块度分布具有分形特征,分形维数集中在1.88~2.66。分形维数与切削深度呈良好的线性关系,随切削深度的增加而减小。分形维数与切削角度间的关系可统一用二次函数进行拟合,但随着切削深度的增加,函数二次项系数由正值变为负值。 相似文献
11.
Fractal features of soil particle-size distributions and their relationships with soil properties in gravel-mulched fields 总被引:1,自引:0,他引:1
Soil particle-size distribution (PSD) is an important index for soil classification because it has large influences on soil hydrological characteristics, salinity, fertility, erodibility, nutrient content, swelling/shrinking, and degradation. We present a case study of the fractal characteristics of soil PSD and its relationship with soil properties of gravel-mulched fields in an arid area of northwestern China using single-fractal calculation. Particle size was unimodally distributed within the narrow range of 20–100 μm, with silt as the most common component. Horizontally, silt content was the highest, followed by sand and clay contents. Vertically, clay content increased with depth, while there were no obvious change rules for both silt and sand contents. The volume fractal dimension (D) of PSD ranged from 2.4307 to 2.5260, increased with the content of fine particles but decreased with the content of coarse particles. D was correlated positively with soil-water content and salt content and negatively with bulk density. The saturated soil-water content was strongly correlated negatively with silt content (p < 0.01) and positively with sand content (p < 0.01). The results indicate that D can be a potential indicator of the physical and chemical properties of soil and can also provide a theoretical basis and technical guidance for the effective use and management of the region. 相似文献
12.
时域反射仪在监测青藏高原活动层水分变化过程中的应用 总被引:27,自引:13,他引:14
时域反射仪(TDR)是一种利用电磁脉冲方法,根据电磁波在土层中的传播速度测试不同土层 的介电常数,接介电常数值可获不同土类在冻融状态下的未冻水含量和总体积含水量.TDR仪可在 野外环境下无破损地测得融土和冻土的液态水含量,尤其是能测出不同负温下冻土中未冻水的变 化.该仪器最适用于测量均质细颗粒土的体积含水量,经与烘干称重法对比,TDR仪应用在青藏高 原上不同融土类所测含水量值的误差范围:粉土和细砂为±2.5%,粘土和亚粘土为±3.0%,砂砾石 土和碎石土为±5%.经过反复的野外实践证明,用 TDR仪测上层含水量具有简便、快速及稳定等 优点,是值得推广的方法.根据青藏公路沿线8个场地埋置的TDR仪和地温仪所获的一个年周期的 水、热资料(1997.8~1998.7),分析了高原活动层在冻融过程中温度场和水分场的耦合所导致的水分迁移及水分场重分布的规律 相似文献
13.
Soil degradation resulted from unreasonable land use and erosion has been a serious problem in the black soil region of northeastern
China. This paper seeks to understand the relationships between topsoil properties and topography and land use for land management
targeting at improving soil quality in this region. A total of 292 soil samples and 81 volumetric rings were taken from a
typical small watershed of the region in June 2005 for examining total carbon (TC), total nitrogen (TN), soil texture (classified
into gravel, sand, silt, and clay), and bulk density (ρ
b), respectively. Spatial variability of these soil properties was evaluated with classical statistics and geostatistics methods.
The results of classical statistics indicated that TC, TN, sand, silt, clay content, and ρ
b were moderate variables while gravel had great variability. Soil properties were mainly correlated to slope position, elevation
and land types. Geostatistical analyses showed that the spatial autocorrelation for TC, TN, and silt was weak, strong for
clay and moderate for and ρ
b sand, respectively. The spatial variations of soil properties are affected comprehensively by topographic factors, land use,
erosion, and erosion control in this watershed. Past erosion, however, is the most important component to induce change of
soil properties. In this small watershed, current soil and water conservation measures play an important role in controlling
soil loss. But the restoration of soil properties was unsatisfactory. Comparing with untilled soil of this region, TC, TN,
silt content are excessively low; whereas ρ
b, sand and clay content are excessively high; gravel appears at most sampling locations. It is necessary for improving soil
properties to protect forest and grassland and change cultivation system of farmlands. 相似文献
14.
隧道围岩中较差的砂土质隧道围岩一般在洞口段较为常见。砂土具有粘聚力是客观事实,该粘聚力会对砂土质围岩稳定性产生较大影响。本文从影响砂土质围岩坑道稳定性因素及围岩稳定性分类的角度出发,探讨了与砂土质隧道围岩稳定性相关的粘聚力的影响因素,发现砂土的密实程度对砂土围岩粘聚力有较显著的影响;细粒(d<0.075mm)含量对粘聚力的影响规律与砂土密实程度有关;采用细粒含水量而不是砂土含水量的方法来评定潮湿砂土的粘聚力的影响是较为合理的方法,并总结了细粒含水量对砂土粘聚力的影响规律。 相似文献
15.
The distribution of soil moisture in arid and semiarid regions is a major environmental factor and is regulated by regional topography, vegetation and soil texture. Here, we present the results of a study of the spatial distribution characteristics of soil moisture in the Mu Us Sandy Land, which is the transitional area between the northwestern deserts and the Chinese Loess Plateau, in North China. Samples were taken from holes drilled to a depth of 4 m in 52 different microtopographic positions on different types of dune (bare dunes, shrub-covered dunes and tree-covered dunes). The sites were located in the northwestern margin, the central region and the southeastern margin. All samples were analyzed for moisture content and grain size distribution. The results show that: (1) for the same type of dune, the soil moisture content varies in different microtopographic positions. The soil moisture content on windward slopes is greater than on leeward slopes in the shrub-covered dunes and the tree-covered dunes, while this is the case in only some of the bare migratory sand dunes. In addition, the soil moisture content on leeward slopes is greater than on the corresponding windward slope. (2) The vegetation type and density have a large influence on the moisture content of sandy soils; specifically, the presence of shrubs and trees significantly affects the soil moisture content of windward and leeward slopes and the inter-dune lowland. (3) Soil moisture content is positively correlated with the clay and silt content of sandy soils. From northwest to southeast across the Mu Us Sandy Land, the silt and clay content increases gradually; however, in the case of dunes covered with planted trees, a peak in the content of fine-grained material occurs in the central region, while for shrub-covered sand dunes, the peak occurs in the southeastern margin. In addition, the correlation between soil moisture and soil grain size distribution of the three types of dunes varies from northwest to southeast. (4) The proportion of fine-grained material and the correlation between the content of fine-grained material and soil moisture are the two main factors influencing the soil moisture distribution of the different types of dune. A soil moisture concentration index can be used as a rough indicator of the distribution characteristics of soil moisture. 相似文献
16.
土壤水分是黄土高原关键带水循环、地下水补给和植被恢复的关键因素。为揭示黄土高原关键带黄土整个剖面的土壤水分空间变化特征,通过土芯钻探的方式获取了黄土高原关键带5个典型样点(杨凌、长武、富县、安塞和神木)从地表到基岩的土壤水分样品,采用经典统计学和地统计学相结合的方法分析了剖面土壤水分的分布规律、变异特征及空间结构。结果表明:黄土高原关键带剖面土壤水分从南往北,土壤平均含水量由高变低;5个样点的土壤水分均为中等变异,随着深度由40 m增加到200 m,土壤水分变异性变弱,且样点之间的土壤含水量差异降低;地统计学分析表明样点的半方差函数能被理论模型较好地拟合(杨凌除外),指数模型能够描述大部分样点深剖面的空间变异结构。相关结果有助于了解黄土高原深层土壤水分状况及分布规律,对于黄土高原土壤水资源估算和区域植被恢复具有重要价值。 相似文献
17.
Statistical analyses and controls of root-zone soil moisture in a large gully of the Loess Plateau 总被引:1,自引:0,他引:1
Yinguang Shi Pute Wu Xining Zhao Hongchen Li Jiawen Wang Baoqing Zhang 《Environmental Earth Sciences》2014,71(11):4801-4809
Soil moisture variability and controls are little known in large gullies of the Loess Plateau which represent complex topography with steep slopes. This study analyzed spatial–temporal variability of soil moisture at the 0–20, 20–40, 40–60, and 60–80 cm depths in a large gully of the Loess Plateau based on root-zone soil moisture measurements for 3 years (2009–2011). The result showed that mean soil moisture, standard deviation (SD), and coefficient of variation, were highly dependent on depth; the highest mean value was observed at the 20–40 cm depth, while the lowest one was at the 0–20 cm depth. The SD increased with mean soil moisture for various depths as soil moisture was relatively wet; however, a transition that SD decreased with mean soil moisture occurred when soil moisture was relatively dry. Positive correlations exist between moisture contents over different depths, and that the relationships of the neighboring layers are relatively high with R 2 from 0.70 to 0.76. Correlation analysis, principle component analysis, and stepwise multiple regression analysis showed that soil particle size distribution and topography (slope and elevation) were the main environmental factors controlling soil moisture variability in the large gully. 相似文献