共查询到20条相似文献,搜索用时 46 毫秒
1.
《国际水土保持研究(英文)》2020,8(4):354-362
Soil erosion is one of the main environmental problems in the Mediterranean area. This problem is becoming even more important especially in Italy, in the Apennines, where severe erosive processes occur due to the action of concentrated running water. The erodibility (K-Factor) of a soil, estimated using the Revised Universal Soil Loss Equation (RUSLE), is a measure of its susceptibility to erosion and depends on several soil properties such as organic matter, texture and permeability and structure.To assess the spatial variability of soil properties and soil erodibility in hilly agricultural areas and to investigate the relationships between soil features and landscape morphodynamics, a detailed study in Molise region (southern Italy), in a small drainange basin located along its hilly Adriatic flank, was carried out. In this catchment, 63 topsoil samples (A horizons) were collected and 10 soil profiles, forming a catena crossing 3 land units, were sampled. The calculated K-Factors ranges between 0.012 and 0.048 t ha h ha−1 MJ−1 mm−1 indicating a complex spatial distribution, due to the several local pedological and geomorphological factors affecting soil erodibility. The results give clear evidence about the relationships among soil characteristics, soil erodibility and landscape morpho-dynamics (land units).Comparing the soil loss rates estimated for the study area with those reported in literature, a good correspondence can be observed only for the more stable land unit, not characterized by intense erosive processes. The proposed methodology is suitable to highlight areas characterized by similar morphodynamics features, and comparable soil erodibility, for a more effective spatialization of K factor. 相似文献
2.
青藏高原土壤可蚀性K值的空间分布特征 总被引:4,自引:2,他引:2
土壤可蚀性反映了土壤对水力侵蚀作用的敏感性,是进行土壤侵蚀评价和预报的重要参数。收集了青藏高原1 255个典型土壤剖面资料,采用模型计算和面积加权分析方法确定了每一个土壤亚类的土壤可蚀性K值,结合青藏高原1∶100万土壤类型图,分析了青藏高原土壤可蚀性K值的空间格局特征。结果表明,青藏高原土壤可蚀性K值平均为0.230 8,低可蚀性、较低可蚀性、中等可蚀性、较高可蚀性和高可蚀性土壤面积分别占该区面积的5.60%,18.23%,24.35%,44.02%和7.80%。土壤可蚀性以中等可蚀性和较高可蚀性为主,二者分布面积之和达1.77×106 km2,占青藏高原总面积的68.37%;较高可蚀性、高可蚀性土壤主要分布在青藏高原中西部的羌塘高原、柴达木盆地和横断山区的低海拔河谷中。青藏高原土壤可蚀性K值具有明显的垂直分异特征,在横断山区最为显著,土壤可蚀性随海拔高度升高而降低。不同海拔高度的水热分异影响了土壤的理化特性,进而决定了青藏高原土壤可蚀性的垂直分带特征。 相似文献
3.
河北省表层土壤可侵蚀性K值评估与分析 总被引:1,自引:0,他引:1
利用河北土系调查成果中的土壤颗粒组成、土地利用及土壤化学性质等资料,利用EPIC模型中土壤可蚀性K值算法以及结合地统计学方法,研究了不同土壤类型、不同质地及不同土地利用类型的土壤可侵蚀性K值和土壤可侵蚀性K值的空间变异特征。结果表明:1河北土壤可侵蚀性K值平均为0.27,其变化范围为0.12~0.40,土壤可蚀性K值在0.30~0.35之间易蚀性土壤面积占总土地面积的63.71%,土壤可蚀性K值在0.25~0.3之间较易蚀性土壤面积占总土地面积的21.52%,这说明该省易蚀性土壤面积较大。2不同质地的K值之间显著性差异,粉砂黏壤质的可侵蚀性K值最大,为0.37;壤砂质的可侵蚀性K值最小,为0.13。而在不同的土地利用类型之间的K值差异性不显著,耕地的K值最大,为0.33;草地的K值最小,为0.22。3河北土壤可侵蚀性K值存在较强的变异性,其变异系数为29%。因此,在土壤侵蚀定量监测、评价水土流失时,应考虑土壤可蚀性K值的这种空间变异状况。块金值/基台值为37.3%,表明在变程内具有中等强度的空间相关性。步长为23 km,变程为440 km,变程远大于步长,表明在小流域尺度下有较好的空间相关性,进行Kriging插值能得到较准确的结果。4河北土壤可蚀性K值大体呈现南高北低的空间分布特征,南部主要是耕作栽培区,北部主要是自然植被区。该研究结果为宏观大尺度土壤资源可持续利用与制定水土保持规划提供科学依据。 相似文献
4.
Cosmas Parwada Johan Van Tol 《Acta Agriculturae Scandinavica, Section B - Plant Soil Science》2017,67(1):67-76
Soil erosion has serious off-site impacts caused by increased mobilization of sediment and delivery to water bodies causing siltation and pollution. To evaluate factors influencing soil erodibility at a proposed dam site, 21 soil samples collected were characterized. The soils were analyzed for soil organic carbon (SOC), exchangeable bases, exchangeable acidity, pH, electrical conductivities, mean weight diameter and soil particles’ size distribution. Cation exchange capacity, exchangeable sodium percentage, sodium adsorption ratio, dispersion ratio (DR), clay flocculation index (CFI), clay dispersion ratio (CDR) and Ca:Mg ratio were then calculated. Soil erodibility (K-factor) estimates were determined using SOC content and surface soil properties. Soil loss rates by splashing were determined under rainfall simulations at 360?mmh?1 rainfall intensity. Soil loss was correlated to the measured chemical and physical soil properties. There were variations in soil form properties and erodibility indices showing influence on soil loss. The average soil erodibility and SOC values were 0.0734?t?MJ?1?mm?1 and 0.81%, respectively. SOC decreased with depth and soil loss increased with a decrease in SOC content. SOC significantly influenced soil loss, CDR, CFI and DR (P??1. Addition of organic matter stabilize the soils against erosion. 相似文献
5.
6.
Soil erosion in mountain rangelands in Kyrgyzstan is an emerging problem due to vegetation loss caused by overgrazing. It is further exacerbated by mountain terrain and high precipitation values in Fergana range in the south of Kyrgyzstan. The main objective of this study was to map soil erodibility in the mountainous rangelands of Kyrgyzstan. The results of this effort are expected to contribute to the development of soil erodibility modelling approaches for mountainous areas. In this study, we mapped soil erodibility at two sites, both representing grazing rangelands in the mountains of Kyrgyzstan and having potentially different levels of grazing pressure. We collected a total of 232 soil samples evenly distributed in geographical space and feature space. Then we analyzed the samples in laboratory for grain size distribution and calculated soil erodibility values from these data using the Revised Universal Soil Loss Equation (RUSLE) K-factor formula. After that, we derived different terrain indices and ratios of frequency bands from ASTER GDEM and LANDSAT images to use as auxiliary data because they are among the main soil forming factors and widely used for prediction of various soil properties. Soil erodibility was significantly correlated with channel network base level (geographically extrapolated altitude of water channels), remotely sensed indices of short-wave infrared spectral bands, exposition, and slope degree. We applied multiple regression analysis to predict soil erodibility from spatially explicit terrain and remotely sensed indices. The final soil erodibility model was developed using the spatially explicit predictors and the regression equation and then improved by adding the residuals. The spatial resolution of the model was 30 m, and the estimated mean adjusted coefficient of determination was 0.47. The two sites indicated different estimated and predicted means of soil erodibility values (0.035 and 0.039) with a 0.05 significance level, which is attributed mainly to the considerable difference in elevation. 相似文献
7.
中国土壤可蚀性值及其估算 总被引:67,自引:0,他引:67
土壤可蚀性是评价土壤对侵蚀敏感程度的重要指标,也是进行土壤侵蚀预报的重要参数。本文运用野外观测资料,研究了我国不同水土流失区的土壤可蚀性值问题。根据实测资料,计算给出了一组土壤可蚀性实测值。并利用这组实测值。对我国土壤可蚀性估算问题进行了探讨。结果表明,国外现有的可蚀性估算模型不能直接应用于我国土壤的可蚀性计算,估算值明显大于实测值。但估算值与实测值之间存在有良好的线形关系。最后提出了我国不同地区及不同资料占有情况下的土壤可蚀性估算方法。本文研究结果可以直接用于我国土壤侵蚀预报中土壤可蚀性计算。 相似文献
8.
土壤侵蚀对坡耕地耕层质量退化作用及其评价趋势展望 总被引:11,自引:8,他引:3
土壤侵蚀是导致坡耕地耕层质量退化和土壤生产力不稳定的关键驱动因素。该文从水蚀区坡耕地侵蚀控制和生产功能角度,在解析地块尺度土壤侵蚀、水土保持、农业活动对坡耕地耕层生态过程作用特征的基础上,系统分析了土壤侵蚀对坡耕地耕层质量退化作用、影响效应及作用途径。认为:1)坡耕地耕层质量变化由降雨侵蚀、耕作活动交互作用的生态过程决定,2种作用的时间、空间尺度不同;耕层土壤参数在坡耕地农业生产中作用分为保水、保土、保肥和增产潜力,由地块尺度农作物-耕层耦合效应决定土壤生产能力、坡耕地水土流失特征及耕层侵蚀性退化方向及程度。2)土壤侵蚀对坡耕地耕层质量退化作用表现为土壤性质恶化、土壤质量劣化、土地生产力衰退3个方面,耕层土壤物理性质变异程度大于化学性质变异,径流作用导致的土地生产力衰退大于土壤流失作用。3)坡耕地耕层质量评价指标体系应兼顾侵蚀下降、产量提升2个目标,地块尺度诊断指标有效土层厚度、耕层厚度、土壤容重、土壤抗剪强度、土壤有机质、土壤渗透性可作为合理耕层评价最小数据集;坡耕地合理耕层适宜性分为5级,其诊断指标分级标准宜与土壤侵蚀分级和耕地地力分级衔接。4)坡耕地合理耕层评价未来应密切关注耕层质量诊断指标最小数据集、坡耕地合理耕层阈值/适宜值分级标准、坡耕地水土流失阻控标准拟定3个主要方向。研究可为深入认识坡耕地侵蚀性退化机制,辨识坡耕地合理耕层调控途径以及坡耕地合理耕层构建技术参数提供依据。 相似文献
9.
沂蒙山区典型县土壤可蚀性K值空间变异研究 总被引:2,自引:1,他引:2
土壤可蚀性是一个相对概念,在时间、空间等方面呈现异质性特征,选取蒙阴县和沂水县为研究区域,采用EPIC模型中K值计算方法,以地统计学原理为指导,基于Arc GIS地统计模块,探讨了沂蒙山区典型县土壤可蚀性空间分布特征,为区域土壤侵蚀评价提供数据支撑。结果表明:(1)研究区土壤可蚀性K值变化范围为0.1057~0.3776,属中等变异,以中低可蚀性土壤分布最广;在分布最广的粗骨土土类中,石灰岩钙质粗骨土K值最大,为中高可蚀性土壤,存在较大的侵蚀危险性。(2)蒙阴县西北部区域为低可蚀性土壤,中部和东南部为中可蚀性及以上土壤;沂水县土壤主要为中低可蚀性,而南部、西北及东北部存在中高及高可蚀性土壤;两县相接区域土壤为中可蚀性及以上土壤。(3)同一土类而不同土地利用呈现异质性特征,不同土地利用K值大小依次为园地耕地林地草地。(4)随着海拔高度增大,土壤可蚀性K值呈逐渐减小趋势。 相似文献
10.
Soil texture is directly associated with other soil physical and chemical properties and can affect crop yield, erodibility and water and pollutant movement. Thus, maps of soil textural class are valuable for agricultural management. Conventional spatial statistical methods do not capture the complex large-scale spatial patterns of multi-class variables. Markov chain geostatistics (MCG) was recently proposed as a new approach for the conditional simulation of categorical variables. In this study, we apply an MCG algorithm to simulate the spatial distribution of textural classes of alluvial soils at five different depths in a 15-km2 area on the North China Plain. Soil texture was divided into five classes – sand, sandy loam, light loam, medium loam and clay. Optimal prediction maps, simulated maps and occurrence probability maps for each depth were generated from sample data. Simulated results delineated the distribution of the five soil textural classes at the five depths and quantified related spatial uncertainties caused by limited sample size (total of 139 points). These results are not only useful for understanding the spatial distribution of soil texture in alluvial soils, but also provide valuable quantitative information for precision agriculture, soil management and studies on environmental processes affected by surface and subsurface soil textures. 相似文献
11.
黄土丘陵区冻融对土壤抗冲性及相关物理性质的影响 总被引:10,自引:6,他引:4
在股状水流侵蚀比较发育的黄土丘陵区,土壤可蚀性主要依赖于土壤抗冲能力。为了揭示季节性冻融对土壤抗冲性的影响,该文借助模拟冲刷试验,设置了裸地对照(CK)、黑麦草传统密度(LD)和加倍密度(HD)3种处理,测定并分析了冻融前后土壤物理性质及其抗冲性。结果表明,与冻融前相比,表层土壤容重、团聚体含量和根系密度在3个处理中均未发生显著变化(P<0.05),土壤黏聚力略有下降,而崩解速率在处理CK、LD和HD中分别增加了20.6%、18.8%和7.3%。冻融作用延后了3个处理的主要产沙时间,降低了土壤抗冲能力,增加了冲刷中途泥沙流失速率。与未冻融相比,冻融作用增加了处理CK和LD泥沙流失量为19.41%和6.70%,但对处理HD影响较小(P<0.05)。冻融和根系共同作用在LD和HD处理上分别减少土壤流失量为3.72%和49.39%。该研究期望对完善土壤侵蚀机理提供一定的参考价值。 相似文献
12.
A rational method for estimating erodibility and critical shear stress of an eroding rill 总被引:2,自引:0,他引:2
Soil erodibility and critical shear stress are two of the most important parameters for physically-based soil erosion modeling. To aid in future soil erosion modeling, a rational method for determining the soil erodibility and critical shear stress of rill erosion under concentrated flow is advanced in this paper. The method suggests that a well-defined rill be used for shear stress estimation while infinite short rill lengths be used for determination of detachment capacity. The derivative of the functional relationship between sediment yield and rill length at the inlet of rill flow, as opposed to average detachment rate of a long rill, was used for the determination of detachment capacity. Soil erodibility and critical shear stress were then regressively estimated with detachment capacity data under different flow regimes. Laboratory data of rill erosion under well defined rill channels from a loess soil was used to estimate the soil erodibility and critical shear stress. The results showed that no significant change in soil erodibility (Kr) was observed for different slope gradients ranging from 5 to 25 while critical shear stress increased slightly with the slope gradient. Soil erodibility of the loess soil was 0.3211 ± 0.001 s m− 1. The soil erodibility and critical shear stress calculations were then compared with data from other resources to verify the feasibility of the method. Data comparison showed that the method advanced is a physically logical and feasible method to calculate the soil erodibility and critical shear stress for physically-based soil erosion models. 相似文献
13.
14.
利用~(137)Cs技术研究土壤可蚀性的时空变异(英文) 总被引:3,自引:0,他引:3
土壤可蚀性的研究变异性是当代土壤侵蚀预测预报研究的核心。本综述了土壤可蚀性变异性研究的进展及存在的问题,提出了利用^137Cs法定量测定土壤可蚀性时空变异的新技术。 相似文献
15.
崇礼清水河流域土壤侵蚀空间格局及其影响因素研究 总被引:3,自引:1,他引:3
基于DEM数字高程模型并结合RUSLE模型应用GIS、GeoDa、GS+等软件分析了河北省张家口市崇礼区25年间土壤侵蚀空间格局演变及影响因素。结果表明:(1)1990—2015年,研究区中部、西部和西南部土壤侵蚀较严重,土壤侵蚀强度以轻度、中度为主,土壤侵蚀量呈先减少后增加的趋势。(2)1990—2000年,土壤侵蚀强度转变以轻度侵蚀转入为主,土壤侵蚀状况减轻;2000—2010年,土壤侵蚀由微度侵蚀转为高级别侵蚀,侵蚀程度呈严重趋势;2010—2015年,总体表现为微度侵蚀、轻度侵蚀转向高级别侵蚀,但侵蚀增加面积有所减少,侵蚀状况稍有改善。(3)土壤侵蚀Moran’s I0,空间分布呈正相关性,表现为聚集状态,以高高型聚集为主,主要集中在崇礼区中西部和西南部。土壤侵蚀模数符合指数模型和球状模型,R2为0.943~0.979。变程A先由3 870m减小到860m再增加至1 470m,表明1990—2015年土壤侵蚀变化先快后慢,空间相关性分布范围由小变大,空间异质性呈先增强后减弱趋势。分形维数(FD)介于1.922~1.971,在区域较小空间尺度下,土壤侵蚀空间异质性主要是由植被覆盖、土地利用类型、水土保持措施等随机因子引起的。(4)土壤侵蚀影响因子中前3个主成分贡献率占到89.215 0%。在第1主成分载荷中,植被覆盖因子向量投影长度最大,为0.976 4。在第2,3主成分载荷中,水土保持措施因子、土壤可蚀性因子向量投影长度较大。因此,崇礼区土壤侵蚀影响因素大小依次为植被覆盖因子(C)、水土保持措施因子(P)、土壤可蚀性因子(K)、降雨侵蚀力因子(R)、坡长坡度因子(LS)。研究结果可为崇礼区清水河流域水土综合治理和可持续发展提供理论依据。 相似文献
16.
广东省土壤可蚀性现状及影响因素分析 总被引:11,自引:0,他引:11
土壤可蚀性是土壤侵蚀预报和土地利用规划的重要参数,本文采用EPIC(Erosion Productivity Im-pact Calculator)模型中土壤可蚀性因子K值为指标,利用第二次土壤普查资料,探讨广东省土壤可蚀性K值及分布特征,并绘制了广东省土壤可蚀性K值图,结果表明:广东土壤可蚀性K值为0.116~0.415,加权平均K值为0.25,主要分布在较低-中高可侵蚀性范围;以铁铝土为例,成土母质对土壤侵蚀影响是多因素的,由于母质的特性差异,母质所发育土壤可蚀性K值并不能完全代表其侵蚀危害性,从总体上看,土壤经过多年耕种,抗侵蚀能力明显下降。 相似文献
17.
18.
[目的]研究区域土壤侵蚀,揭示水土流失的空间分异规律,为区域水土保持和生态农业建设提供理论指导依据。[方法]应用GIS和RUSLE模型对云南省泸水县的土壤侵蚀进行研究。RUSLE模型中的因子包括降雨侵蚀力、土壤可蚀性、坡度坡长因子、植被覆盖和水土保持措施因子,运用GIS空间分析模块,获取泸水县土壤侵蚀模数空间分布图,根据SL 190-2007的分级标准进行土壤侵蚀强度分级,并分析该区土壤侵蚀强度空间分布格局。[结果](1)从各强度侵蚀面积上看,泸水县2014年土壤侵蚀以微度侵蚀为主,占总面积的86.86%,但从平均土壤侵蚀模数看,土壤侵蚀量为4.24×10~6 t,平均侵蚀模数为1 373.1t/(km~2·a),土壤侵蚀强度属于轻度侵蚀;(2)土壤侵蚀较严重区与未利用地、耕地空间分布基本一致,在坡度25°~50°的范围内,侵蚀面积占总侵蚀面积的75%,并且在该坡度段上的耕地面积占总耕地的63%,剧烈侵蚀集中分布在未利用地上,中度以上剧烈以下强度侵蚀集中分布在该坡度段上的耕地上,说明该坡耕地、未利用地对土壤侵蚀的贡献最大,要加强对未利用地的生态治理。[结论]坡度大,陡坡垦殖和未利用地的不合理利用是该区土壤侵蚀加重的主要原因,坡度在25°以上的地区不适宜耕种,应优化农业产业结构如实施退耕还林还草等措施,才能有效的保持水土。 相似文献
19.
Simon Schmidt Cristiano Ballabio Christine Alewell Panos Panagos Katrin Meusburger 《植物养料与土壤学杂志》2018,181(5):737-748
Soil erodibility, commonly expressed as the K‐factor in USLE‐type erosion models, is a crucial parameter for determining soil loss rates. However, a national soil erodibility map based on measured soil properties did so far not exist for Switzerland. As an EU non‐member state, Switzerland was not included in previous soil mapping programs such as the Land Use/Cover Area frame Survey (LUCAS). However, in 2015 Switzerland joined the LUCAS soil sampling program and extended the topsoil sampling to mountainous regions higher 1500 m asl for the first time in Europe. Based on this soil property dataset we developed a K‐factor map for Switzerland to close the gap in soil erodibility mapping in Central Europe. The K‐factor calculation is based on a nomograph that relates soil erodibility to data of soil texture, organic matter content, soil structure, and permeability. We used 160 Swiss LUCAS topsoil samples below 1500 m asl and added in an additional campaign 39 samples above 1500 m asl. In order to allow for a smooth interpolation in context of the neighboring regions, additional 1638 LUCAS samples of adjacent countries were considered. Point calculations of K‐factors were spatially interpolated by Cubist Regression and Multilevel B‐Splines. Environmental features (vegetation index, reflectance data, terrain, and location features) that explain the spatial distribution of soil erodibility were included as covariates. The Cubist Regression approach performed well with an RMSE of 0.0048 t ha h ha?1 MJ?1 mm?1. Mean soil erodibility for Switzerland was calculated as 0.0327 t ha h ha?1 MJ?1 mm?1 with a standard deviation of 0.0044 t ha h ha?1 MJ?1 mm?1. The incorporation of stone cover reduces soil erodibility by 8.2%. The proposed Swiss erodibility map based on measured soil data including mountain soils was compared to an extrapolated map without measured soil data, the latter overestimating erodibility in mountain regions (by 6.3%) and underestimating in valleys (by 2.5%). The K‐factor map is of high relevance not only for the soil erosion risk of Switzerland with a particular emphasis on the mountainous regions but also has an intrinsic value of its own for specific land use decisions, soil and land suitability and soil protection. 相似文献
20.
Soil Erodibility and Physicochemical Properties of Collapsing Gully Alluvial Fans in Southern China 总被引:1,自引:0,他引:1
In southern China, collapsing gully erosion produces massive deposits of sediment on the plough layer of alluvial fan farmland, leading to reduced nutrients, increased erodibility, and even desertification. The aim of this study was to investigate soil erodibility (the factor K in the universal Soil Loss Equation, USLE) and physicochemical properties of the alluvial fans of the most severe collapsing gully erosion areas (Hubei, Jiangxi, Fujian, and Guangdong provinces) in southern China. The soils of the collapsing gully alluvial fans had a higher bulk density, but a lower total porosity, saturated water content, and silt and clay fractions than the control (CK) soils from the farmland without desertification. Soil quality gradually decreased from fan edge to fanhead. Significant decreases were found in soil pH, organic matter, cation exchange capacity, and total potassium, nitrogen, and phosphorus, as well as available nitrogen, phosphorus, and potassium, resulting in a gradual decrease in soil nutrients from the fanedge to the fanhead. Soil erodibility was greatest in the fanhead, and soil erodibility K values of the alluvial fans were 53.71%, 66.28%, 67.53%, and 71.68 % greater than that in those of the CK soils of Hubei, Jiangxi, Fujian, and Guangdong, respectively, indicating a significant correlation between the soil erodibility K values and physicochemical properties, particularly sand fraction and organic matter content. The results provide new insights into the relationship between soil physicochemical properties and erodibility of alluvial fans, and suggest that improving soil structure might increase soil fertility in the collapsing gully alluvial fan farmland. 相似文献