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Soil erodibility is an important index to evaluate the soil sensitivity to erosion. The research on soil erodibility is a crucial tache in understanding the mechanism of soil erosion. Soil erodibility can be evaluated by measuring soil physiochemical properties, scouring experiment, simulated rainfall experiment, plot experiment and wind tunnel experiment. We can use soil erosion model and nomogram to calculate soil erodibility. Many soil erodibility indices and formulae have been put forward. Soil erodibility is a complex concept, it is influenced by many factors, such as soil properties and human activities. Several obstacles restrict the research of soil erodibility. Firstly, the research on soil erodibility is mainly focused on farmland; Secondly, soil erodibility in different areas cannot be compared sufficiently; and thirdly, the research on soil erodibility in water-wind erosion is very scarce. In the prospective research, we should improve method to measure and calculate soil erodibility, strengthen the research on the mechanism of soil erodibility, and conduct research on soil erodibility by both water and wind agents. 相似文献
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水蚀风蚀过程中土壤可蚀性研究述评 总被引:4,自引:1,他引:3
1 IntroductionSoil erosion is the process of detachm ent and transport of soil particles caused by w ater andw ind (M organ,1995).Soilerosion by w ater and w ind leads to decline in soilfertility,brings ona series of negative im pacts of land degradation … 相似文献
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《自然地理学》2013,34(1):78-96
Soil erosion has been recognized as one of the major forms of human-induced soil degradation. Due to land use changes in Iran, erosion has increased 800% between 1951 and 2002, calling for urgent action. But erosion research and policy development are hampered by a lack of information on the underlying factors controlling erosion. Soil types vary in their inherent susceptibility to erosion; but, like most countries, Iran lacks a network of field plots where erodibility is measured. A proxy for erodibility based on existing data and supplemented by an easily measured minimum data set is therefore needed. In this study, we use geological mapping and cluster, principal component, and factor analysis to group soils in the Taleghan Drainage Basin in Iran and subsequently determine their erodibility. First, a geological map of the area was prepared by photogeological methods and on-the-ground verification. Then, three soil profiles were investigated within similar landform units of each geological formation, and soil samples were taken. Physical and chemical properties that might impact soil erodibility (soil texture, pH, electrical conductivity, CaCO3, and soil organic matter) were used to create a matrix of soil properties and parent material. Application of cluster analysis and factor analysis to the data allowed identification of three geological (parent material) clusters. To investigate the mutual effect of land use and parent material on soil erodibility, a soil erodibility factor was obtained for three land use types in each cluster: rangeland, cropland (irrigated), and dry-land farming (nonirrigated). Geological cluster 1, consisting of marl, gypsum, and gypsiferous mudstone, was the most erodible; geological cluster 2, consisting of recent alluvium, alluvial fan, and landslip deposits, was of intermediate erodibility; and geological cluster 3, consisting of igneous rocks, dolomite, and conglomerate, was the least erodible. Within each geological cluster, dry-land farming was the most erodible, cropland was medium erodible, and rangeland was least erodible. The study suggests that geological and land use maps provide a useful framework for assessing soil erodibility. This work can guide future soil erosion studies and direct soil conservation policy to areas most susceptible to erosion. 相似文献
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Spatial patterns of soil surface components (vegetation, rock fragments, crusts, bedrock outcrops, etc.) are a key factor determining hydrological functioning of hillslopes. A methodological approach to analyse the patterns of soil surface components at a detailed scale is proposed in this paper. The methods proposed are applied to two contrasting semi-arid Mediterranean hillslopes, and the influence of soil surface component patterns on the runoff response of the slopes was analysed. A soil surface components map was derived from a high resolution photo-mosaic obtained in the field by means of a digital camera. Rainfall simulation experimental data were used to characterise the hydrological behaviour of areas with a specific pattern of soil surface components by means of the parameters of the Horton equation. Plot runoff data were extrapolated at the hillslope scale based on the soil surface component maps and their hydrological characterisation. The results show that in both slopes runoff generation is concentrated up- and downslope, with a water accepting area in the centre of both slopes disrupting the hydrological connectivity at the slope scale. This reinfiltration patch at the centre of the slope is related to the type of soil surface component and its spatial pattern. Herbaceous vegetation and ‘on top rock fragments’ increase the infiltration capacity of soils at the centre of the slope. In contrast, embedded rock fragments, rock outcrops, as well as crusted surfaces located in the upper and lower slopes favour runoff generation in these areas. In addition, a general pattern of water contribution areas downslope is apparent on both slopes. The south-facing slope shows a higher hydrological connectivity and more runoff. 55% of the surface of the south-facing slope produces runoff at the end of a 1 hour rainfall event and 17.3% of the surface is covered by a runoff depth between 0.5 and 1 mm. While on the north-facing slope only 38% of the surface produces runoff under the same conditions. Longitudinal connectivity of runoff is higher at the south-facing slope where more runoff-generating surfaces appear and where the vegetation pattern favours the connectivity of bare areas. 相似文献
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青海湖流域土壤可蚀性K值研究 总被引:13,自引:1,他引:12
以土壤亚类为基础,依据青海省第二次土壤普查资料建立了青海湖流域土壤亚类理化性质数据库.使用Wischmeier建立的通用方程计算土壤可蚀性K值,利用三次样条函数插值方法转换不同粒径标准的土壤质地;分别使用土壤有机质含量和土壤最小饱和水力传导率来确定土壤的结构和渗透级别.根据计算结果,建立了青海湖流域土壤可蚀性的分级指标.结果显示,中等和高等可蚀性K值的土壤面积分别占流域土壤总面积的72.1%和15.5%,土壤易于侵蚀.使用Arc/Info对青海湖流域土壤地图进行数字化得到值的K空间分布图,分析了流域可蚀性K值的分布规律及其土壤沙化原因,这对青海湖流域水土保持及流域长期规划具有重要意义. 相似文献
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Landsat series multispectral remote sensing imagery has gained increasing attention in providing solutions to environmental problems such as land degradation which exacerbate soil erosion and landslide disasters in the case of rainfall events. Multispectral data has facilitated the mapping of soils, land-cover and structural geology, all of which are factors affecting landslide occurrence. The main aim of this research was to develop a methodology to visualize and map past landslides as well as identify land degradation effects through soil erosion and land-use using remote sensing techniques in the central region of Kenya. The study area has rugged terrain and rainfall has been the main source of landslide trigger. The methodology comprised visualizing landslide scars using a False Colour Composite (FCC) and mapping soil erodibility using FCC components applying expert based classification. The components of the FCC were: the first independent component (IC1), Principal Component (PC) with most geological information, and a Normalised Difference Index (NDI) involving Landsat TM/ETM+ band 7 and 3.The FCC components formed the inputs for knowledge-based classification with the following 13 classes: runoff, extreme erosions, other erosions, landslide areas, highly erodible, stable, exposed volcanic rocks, agriculture, green forest, new forest regrowth areas, clear, turbid and salty water. Validation of the mapped landslide areas with field GPS locations of landslide affected areas showed that 66% of the points coincided well with landslide areas mapped in the year 2000. The classification maps showed landslide areas on the steep ridge faces, other erosions in agricultural areas, highly erodible zones being already weathered rocks, while runoff were mainly fluvial deposits. Thus, landuse and rainfall processes play a major role in inducing landslides in the study area. 相似文献
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应用EUROSEM模型对三峡库区陡坡地水力侵蚀的模拟研究 总被引:10,自引:3,他引:7
三峡库区坡地资源被广泛利用,但水土保持措施没有被很好地利用。坡地,尤其是陡坡地是库区主要泥沙来源,因此,有效评估土壤侵蚀风险、预测径流和侵蚀速率以及选择合理的水土保持措施在该地区显得非常必要。EUROSEM模型是动态分布式模型,可以在单独地块或小流域中预测水力侵蚀强度,其特点比较适合库区土壤侵蚀预测预报。本研究以在三峡库区秭归县王家桥小流域水土保持试验站的标准径流小区的人工降雨资料为基础,应用EUROSEM模型模拟陡坡地中的侵蚀状况。模拟结果表明,EUROSEM对人工降雨中径流模拟效果较好,但对土壤流失的模拟效果相对较差,更精确地模拟库区陡坡地的土壤侵蚀状况则需要作进一步的研究 相似文献
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Soil and bedrock distribution estimated from gully form and frequency: A GIS-based decision-tree model for Lebanon 总被引:2,自引:1,他引:1
Torrential rainfall and relatively sparse vegetation in the Mediterranean region result in the development of gully systems and land degradation, notably on lands with specific types of soil and bedrock. This paper proposes a decision-tree model to predict the distribution of soil and bedrock susceptible to gully erosion (white Rendzinas and marly rocks) from the form and frequency of gullies. The study area is located in Lebanon and the model is linked to GIS. V-fold cross-validation of the pruned model indicates that gully features including cross-section size and shape, network frequency, types of meandering, and catchment area can explain 80% of variance in soil/rock properties. The overall accuracy of the soil/rock map was estimated to be ca. 87%. The proposed model is relatively simple, and may also be applied to other areas. It is particularly useful when information about soil and rock obtained from conventional field surveys is limited. 相似文献
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There is a growing requirement for techniques to assess land susceptibility to wind erosion, i.e. land erodibility, over large geographic areas (>104 km2). This requirement stems from a lack of wind erosion research between the field (101 km2) and regional scales, and a need to evaluate the performance of spatially explicit wind erosion models across these scales. This paper addresses this issue by presenting a methodology for monitoring land erodibility at the landscape scale (103 km2). First, we define criteria suitable for evaluating land erodibility based on empirical relationships between soil texture, vegetation cover, geomorphology, and wind erosion. The criteria were used to visually assess land erodibility over long distances (103 km) using vehicle-based transects run through the rangelands of western Queensland, Australia. Application of the data for testing the performance of a spatially explicit land erodibility model (AUSLEM) is then demonstrated by comparing the visual assessments of land erodibility with the model output. The model performed best in the west of the study area in the open rangelands. In regions with higher woody shrub and tree cover the model performance decreases. This highlights the need for research to better parameterise controls on erodibility in semi-arid landscapes consisting of forested and rangeland mosaics. 相似文献
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阴山北麓不同用地方式下春季土壤可蚀性研究 总被引:1,自引:0,他引:1
阴山北麓位于中国北方农牧交错带内,此区属于生态环境脆弱地带,加之人类对土地资源的不合理利用,导致了严重的土壤风蚀问题,土壤可蚀性是影响土壤侵蚀大小的重要因素之一。本文通过对该区域土壤取样及室内理化分析,结合采样点的地表物质组成、植被覆盖度及土壤有机质含量等因素,分析了其潜在可蚀性。研究结果表明:阴山北麓草地的平均土壤潜在可蚀性最小,为63.82%,耕地的平均土壤潜在可蚀性最大,为66.05%,灌丛和林地居于其中,分别64.58%和64.88%。耕地的平均可蚀性>林地的平均可蚀性>灌丛的平均可蚀性>草地的平均可蚀性。随着春季温度的升高和不断的风蚀,土壤可蚀性也发生相应的变化,但这种变化并不是持续的,当温度达到一定程度时,土壤温度和湿度环境发生了变化,土壤潜在可蚀性反而降低,表现为第二次采样的土壤可蚀性>第三次采样的土壤可蚀性>第一次采样的土壤可蚀性。土地利用方式不同,土壤表层的理化性质、地表状况也会产生一定的差异,从而导致了表层土壤的潜在风蚀性不同。人类活动在土地利用过程中起主导作用,它是叠加在自然因素之上的影响土壤潜在风蚀性的人为因素。所以,应加强对耕地的保护,退耕还林草,减小其潜在风蚀性。 相似文献
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土壤可蚀性动态变化规律研究 总被引:18,自引:0,他引:18
通过回顾已有的研究成果,分析评价了现有具有代表性的土壤可蚀性评价指标的优缺点,提出了建立适用于土壤侵蚀预报的可蚀性评价指标的原则。并运用野外观测资料,计算分析了我国黑土、黄土,以及日本火山灰土等土壤可蚀性的季节变化规律,深入研究了土壤可蚀性随次降雨强度、不同强度段降雨组合的变化趋势。结果表明,单位降雨侵蚀力所对应的土壤流失量是反映土壤性质与流失量之间定量关系的最好指标,但不能把目前使用的土壤可蚀性指标直接移植于次降雨模型中。土壤可蚀性具有明显的季节变化,而其变化规律还存在地域差异性。采用最大30分钟雨强大于25-30mm/hr降雨的侵蚀产沙资料,计算的土壤可蚀性值比较稳定且接近该土类可蚀性的多年平均值。 相似文献
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基于地块汇流网络的小流域水沙运移模拟方法研究 总被引:4,自引:0,他引:4
全流域逐地块水土流失计算,是目前水土保持定量评价的重要手段,其实现过程既需要有考虑地貌因子和上下游关系的土壤侵蚀模型,也需要建立全流域地块汇流网络,并与侵蚀模型有机连接。本文针对黄土高原特殊的地理条件和水土流失规律,对传统的基于栅格的小流域汇流技术进行了改进,考虑地块间上下游汇流关系,建立了基于地块的水沙汇流网络模型,模拟水沙在流域复杂下垫面的汇流过程,提取出流域各地块间的水沙汇流网络,并计算出3个重要参数:流域地块间水沙汇流的顺序、流域地块间水沙汇流数目的空间分配、水沙流经各地块的坡长。将土壤侵蚀模型按地貌部位与特征分为坡面模型、沟坡模型和沟道输移模型,与地块汇流网络有机集成,实现了水沙运移的全流域按地块沿程计算。 相似文献
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延河流域景观格局与生态水文过程分析 总被引:5,自引:1,他引:4
延河流域作为典型的黄土高原丘陵沟壑区,水土流失是最主要的生态环境问题,其生态环境治理能为整个黄土高原生态恢复重建提供典型范例,因此评价延河流域景观格局变化对水文过程的影响,对流域景观格局与水文过程的研究具有重要的科学价值和现实意义。本文通过利用SWAT模型模拟的延河流域的41个子流域的水文响应单元,建立延河流域的“源—汇”水文响应单元景观格局指数,通过计算不同地形条件下水文响应单元随着坡度变化的面积累积百分比,构建了新的“地形—水文响应单元 (Slope-HRU) 综合景观指数”。并与SWAT水文模型所模拟获得的子流域径流量、产沙量进行相关性分析,评价“地形—水文响应单元 (Slope-HRU) 景观指数”对水文过程的表征能力和适用性。结果表明:在子流域尺度上Slope-HRU景观指数和产沙状况存在明显的区域分异规律,而且R值空间变异情况基本上与产沙量的空间变化规律相反,即R值呈现由南向北,由东向西递增,而产沙量由南向北,由东向西递减。R值与年产沙量在数值上呈显著相关关系,相关系数为-0.60;再将Slope-HRU景观指数与所选取的7个常用景观格局指数相结合,构成新的综合景观指数,发现它们与子流域的产沙量耦合关系明确,均显著负相关,相关系数绝对值范围为0.43~0.63。 相似文献
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The response of soil erosion and sediment export to land-use change in four areas of Europe: The importance of landscape pattern 总被引:7,自引:0,他引:7
Martha M. Bakker Gerard Govers Anne van Doorn Fabien Quetier Dimitris Chouvardas Mark Rounsevell 《Geomorphology》2008,98(3-4):213
The response of erosion and sediment export to past land-use change has been studied in four agricultural areas of Europe. Three of these areas were subject to land abandonment or de-intensification and one to intensification of land-use practices. Erosion and sediment yield were modeled using the WaTEM/SEDEM model, which combines the RUSLE equation with a sediment routing algorithm. Spatial relationships between the RUSLE C-factor (i.e. land-use) and other erosion and sediment export-determining factors (slope, soil erodibility and distance to rivers) were investigated, as these account for non-linearity in the response of erosion and sediment export to land-use change.Erosion and sediment export have decreased enormously in the de-intensified areas, but slightly increased in the intensively cultivated area. The spatial pattern of land-use change in relation to other erosion and sediment export-determining factors appears to have a large impact on the response of soil erosion and sediment export to land-use change. That the drivers of abandonment of arable land and erosion coincide indicates that de-intensification leads to a more favourable landscape pattern with respect to reduction of erosion and sediment export. This mechanism applies not only within the study areas, but also among the European study areas where the process of intensification of some areas and de-intensification of others might result in an overall decrease of erosion and sediment yield through time. 相似文献
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随着气候变化对农业系统的影响不断加剧,为保障粮食安全,必须掌握变化中的自然与人文因素,判别农 业景观中可调整的关键机制,依据未来的可能情景,尽早订定农业景观优化方案。本研究以土壤侵蚀问题为切入 点,整合相关的环境因子,构建农业景观对土壤侵蚀适应性的研究框架。基本思路为首先通过目前气候变化对土壤 侵蚀的影响研究,为不同时空尺度上土壤侵蚀发生、发展趋势提供理论依据;其次,从增强未来农业景观对土壤侵 蚀适应能力的角度,详细讨论景观类型、空间配置和管理措施等与土壤侵蚀的关系,以提高农业景观优化配置的针 对性;最后,为科学评价农业景观对土壤侵蚀适应的程度,基于Agent 模型原理设计土壤侵蚀模拟模型,通过不同 土壤侵蚀情景下景观类型、结构、空间配置和管理措施等的适应性分析,为有效提升区域农业景观的土壤抗侵蚀能 力提供科学依据。 相似文献
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山区土地利用/覆被变化对土壤侵蚀的影响 总被引:42,自引:6,他引:36
本文以福建省山区为例,在对福建省水土保持实验站、建瓯市牛坑龙水土保持试验站长期观测、实验资料深入分析对比的基础之上,探讨了土地利用/土地覆被变化对土壤侵蚀的影响规律。分析结果表明,土地利用/土地覆被变化对径流的产生和土壤侵蚀有重要影响,植被的覆盖度的变化直接影响着径流系数和土壤侵蚀模数;植被的覆盖度和径流系数呈负线性关系,随着覆盖度的增加径流系数逐渐减小;植被覆盖度和土壤侵蚀模数为负指数关系,随着植被覆盖度的增大,土壤侵蚀模数急剧下降。 相似文献
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西南岩溶山地乡村景观格局与石漠化调控展望 总被引:3,自引:0,他引:3
西南岩溶山地乡村景观格局石漠化过程的生态认识落后于生态治理措施。面对国家需求,优化乡村景观格 局对石漠化发生过程的调控,未来优先研究领域:⑴识别岩溶山地乡村景观格局的转换、渐变和基本不变的层次 性,测算不同尺度下乡村景观类型及其空间组合的贡献;⑵认识不同类型乡村景观空间分布的生态学意义及其对 区域石漠化整体程度的影响,找出不同乡村景观演化格局下的石漠化效应;⑶厘定岩溶山地高强度人类活动及其 所诱导的乡村景观格局演化对石漠化的作用效应,构建乡村景观石漠化的成因框架;⑷探讨乡村景观格局制约下 有利于石漠化土地恢复的格局优化模拟,丰富人们对岩溶山地乡村石漠化发生过程的理解和认识。 相似文献
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隶属度判别法在水土流失快速评估中的应用 总被引:3,自引:0,他引:3
引入隶属度判别法对水土流失快速评估方法进行改进。在GIS的支持下,选取标准参照区域对反映水土流失状况的表现因子--输沙模数进行聚类,建立标准参照组,计算由各个环境因子特征值决定的水土流失对标准参照组的隶属度;采用特尔菲法确定选取的环境因子对表现因子的影响权重向量;对待测区域的环境因子进行分析,确定待测区域对标准参照组的隶属度矩阵和标准化隶属度向量;依据经验公式确定待测区域的输沙模数。以陕西省安塞县纸坊沟小流域为例进行了方法应用,结果表明该方法在小流域尺度上对输沙模数有较好的预测精度和较快的预测速度。 相似文献