磁性示踪在土壤侵蚀研究中的应用进展

示踪技术在土壤侵蚀研究中已得到了较广泛的应用，尤其是利用核素示踪（如137Cs、7Be、210Pb和REE示踪）定量研究土壤侵蚀规律和侵蚀机理方面取得了一系列成果。近几年利用磁性示踪研究土壤侵蚀成为示踪技术在土壤侵蚀研究中应用的一种新思路。目前，在利用环境磁性的时空差异性来研究区域内侵蚀泥沙来源，以沉积物磁性作为流域环境变迁指示剂以及利用磁性参数的变化研究土壤侵蚀等方面已取得一些成果，同时也有人提出利用人工磁性示踪剂来研究土壤侵蚀强度的空间分异规律，定量描述侵蚀方式的演变及侵蚀过程的发生、发展规律，并在野外进行了小区试验。但总体上磁性示踪在土壤侵蚀研究中的应用还相对较少。就磁性示踪在土壤侵蚀研究中应用的理论基础以及目前的研究现状作了简要论述，并分析提出了其研究方向和应用前景。     

三江源地区土壤侵蚀类型研究

全球气候变暖导致三江源地区雪线上升,冰川后移,降水和径流减少,草场退化,土壤沙化,使本来就十分脆弱的生态环境更加恶化。根据三江源地区当前所处的实际情况,在分析三江源地区土壤侵蚀环境背景以及土壤侵蚀营力作用的基础上,归纳总结了三江源地区土壤侵蚀类型与特征,重点研究了冻融侵蚀分布范围和强度、分布规律以及评价指标体系。结果表明：三江源地区各种土壤侵蚀类型中,冻融侵蚀分布范围最广;不同强度的冻融侵蚀空间分布差异显著。     

青藏高原水力侵蚀定量研究进展

青藏高原生态环境脆弱,土壤侵蚀是严重的生态问题.定量监测和评价水力侵蚀是生态建设和水土保持规划的基础.为系统掌握青藏高原水力侵蚀定量研究现状,在查阅大量文献资料的基础上,系统整理了81篇相关文献.发现青藏高原定量评价方法包括基于坡面侵蚀模型、137Cs核素示踪法、径流小区和水文站观测3种类型,但总的来说研究明显不够.坡面侵蚀模型主要有美国修正通用土壤流失方程和中国土壤流失方程2种.基于修正通用土壤流失方程、中国土壤流失方程、137Cs核素示踪法、径流小区监测和水文站观测小流域得到的青藏高原土壤侵蚀模数分别为大于30、1～8、小于10、0～109和2～3 t/(hm2.a).经过分析发现,青藏高原土壤侵蚀定量研究存在4个方面的问题:模型计算中参数的选择存在问题,137Cs核素示踪法方面背景值不确定性太大,径流小区和小流域监测资料奇缺,没有全区评价结果.今后需要加强小区小流域自动化监测、137Cs背景值采样测试和综合评判以及137Cs核素示踪法土壤侵蚀测定.在这两项定量测定的基础上对全青藏高原土壤侵蚀进行定量评价,为水土保持规划和生态文明建设服务.     

坡面侵蚀过程定量研究进展

坡面是土壤侵蚀最基本的地貌单元,定量研究坡面侵蚀能为研究土壤侵蚀规律、确定坡面重点侵蚀部位、建立土壤侵蚀预报模型提供科学依据。总结了溅蚀、片蚀、细沟侵蚀、浅沟侵蚀的定量研究进展,简述了土壤侵蚀模型的研究进展,对目前的其它研究方法进行了评述。     

切沟侵蚀预报研究进展与展望

切沟侵蚀是重要的土壤侵蚀类型,是小流域侵蚀泥沙的主要来源。准确预报切沟侵蚀空间分布及其强度的时空变化,对于优化小流域水土保持措施配置、维持区域粮食产能和保障区域生态安全,具有重要的理论和实践意义。地形临界模型、敏感性评价、切沟形态特征经验关系、侵蚀预报模型和景观演变模型是预测切沟发育部位、评价发育概率或估算切沟侵蚀强度的主要方法。从这些方法的基本思路与原理出发,系统分析了相关研究进展,对比了研究结果的差异并评价了各方法的优缺点。未来研究需聚焦切沟监测方法优化与数据积累、切沟演变过程与数据可比性、预报方法遴选及区域适宜性、经验模型研发与参数区域分异,以及切沟侵蚀机理研究与过程模型研发,从而为促进切沟侵蚀预报研究、阻控切沟侵蚀、保障区域社会经济可持续发展提供技术支撑。     

我国西南山区降雨侵蚀力时空变化趋势研究

降雨是我国西南山区土壤侵蚀的主要动力因素,降雨侵蚀力反映了降雨对土壤侵蚀的潜在能力,研究降雨侵蚀力的时空变化趋势对我国西南山区土壤侵蚀的监测、评估、预报和治理具有重要意义。利用1960—2009年129个气象站逐日降雨量资料,计算出西南山区各气象站逐年降雨侵蚀力。采用趋势系数、气候倾向率和克吕格插值等方法对西南山区降雨侵蚀力50年来的时空变化趋势进行了探讨。结果表明:西南山区降雨侵蚀力空间分布特征与年降水量的空间分布特征一致;西南山区西北部的青藏高原区域降雨侵蚀力年际变化明显,变差系数Cv一般高于0.40;西南山区大部地区降雨侵蚀力呈上升趋势,说明由降雨侵蚀力引起的土壤侵蚀风险在增加,但在成都平原附近降雨侵蚀力在明显下降;降雨侵蚀力变化趋势系数随海拔高度升高而不断增加,在海拔2 500 m以上地区尤为明显,西南山区西北部的高海拔地区海拔高度对降雨侵蚀力增加具有放大效应。     

西南喀斯特区土壤侵蚀研究进展

西南喀斯特区土层浅薄、成土速率低等特点决定了其允许土壤流失量小,土壤一旦流失,极难恢复,土壤侵蚀及其造成的石漠化现象已成为制约该区可持续发展最严重的生态环境问题。文章首先明晰西南喀斯特区土壤侵蚀特征,从坡面、小流域和区域三个尺度上系统概括西南喀斯特区土壤侵蚀的相关研究进展。针对当前喀斯特区土壤侵蚀研究野外径流小区、小流域及区域空间尺度数据缺少和相关研究模型限制性强等不足,建议从不同尺度深入研究喀斯特区土壤侵蚀发生发展规律及时空演化格局,并结合高新遥感、地球物理探测技术及模型,同步监测坡面—小流域—区域土壤流失,对土壤侵蚀进行定量评估,结合不同空间尺度土壤侵蚀特征构建系统性水土保持生态恢复治理模式和监测系统评价体系。      

青海省东部土壤侵蚀特征遥感分析

通过采用美国陆地卫星TM741合成图像和中巴资源卫星CCD数据，分析影响土壤侵蚀主要因子，对青海东部约10．6万km^2的区域进行了水土流失遥感解译，划分出3个侵蚀区、8个侵蚀亚区，总结了该区土壤侵蚀类型和强度的空间分布特征，初步探讨了其发展演化趋势，为进一步水土保持与现状规划提供了依据。     

黄河流域（河南西部）土壤侵蚀环境特征研究

豫西黄河流域是黄河流域土壤侵蚀较强烈的地区之一,严重的水土流失不仅使区内土壤贫瘠、生态环境日益恶化,也是黄河下游泥沙、洪水问题的主要诱因。通过土壤侵蚀地质环境条件及侵蚀形态类型调查研究,分析了豫西黄河流域控制土壤侵蚀的主要地质环境特征。在此基础上,依据不同地质环境特征及侵蚀形态特征,对区内土壤侵蚀类型进行了划分。     

广东省1960～2007年降雨侵蚀力变化趋势分析

降雨侵蚀力反映由降雨引起的土壤侵蚀的潜在能力.本文利用广东省25个站点48年(1960～2007)的日雨量资料计算了各站的降雨侵蚀力,并用Mann-Kendall(M-K)非参数检验和克里格空间插值法分析了降雨侵蚀力的时空变化规律.结果表明:广东省降雨侵蚀力的空间分布呈沿海向内陆逐渐递减的趋势.全省大部分地区的年降雨侵蚀力呈现不明显上升趋势,且存在较明显的年代际和年际变化.降雨侵蚀力的年内分布特征和降雨量分布类似,呈"双峰型",主要集中在4～9月的雨季.对于季节序列,冬季、春季和夏季大部分地区的降雨侵蚀力有不同程度的上升,秋季全省几乎所有地区呈下降趋势.汛期的降雨侵蚀力变化特征与年降雨侵蚀力相似.     

漓江流域水土流失特征及其侵蚀影响因子典型分析

选择漓江流域及其典型岩溶小流域为研究对象,通过遥感数据综合分析和地面路线验证调查与定点监测相结合的方法,对漓江流域岩溶区和非岩溶区的水土流失特征进行了研究,并重点分析岩溶区内典型小流域——寨底小流域侵蚀影响因子对水土流失的影响。研究结果表明:漓江流域水土流失以中度和轻度等级为主,约占流域面积的29.9%;流域内岩溶区与非岩溶区的水土流失表现出一定的差异性,岩溶区以中度、极强烈和轻度等级水土流失为主,水土流失面积约占岩溶面积的53%;非岩溶区中度和轻度等级水土流失分别占非岩溶区面积的12.4%和10.4%。高程、坡度、植被覆盖、土地利用等因子对岩溶小流域土壤侵蚀面积和侵蚀量比例的影响表现出明显的差异性和独特性,这四种影响因子中的高程(300,500] m,坡度[15°,25°]、植被覆盖度≤20%、土地利用为工矿用地等对岩溶小流域土壤侵蚀的影响最大,是寨底岩溶小流域水土流失治理中应重点考虑的因素。      

Scale effects of eroded sediment transport in Wujiang River Basin,Guizhou Province,China

In recent years, research on spatial scale and scale transformation of eroded sediment transport has become a forefront field in current soil erosion research, but there are very few studies on the scale effect problem in Karst regions of China. Here we quantitatively extracted five main factors influencing soil erosion, namely rainfall erosivity, soil erodibility, vegetative cover and management, soil and water conservation, and slope length and steepness. Regression relations were built between these factors and also the sediment transport modulus and drainage area, so as to initially analyze and discuss scale effects on sediment transport in the Wujiang River Basin (WRB). The size and extent of soil erosion influencing factors in the WRB were gauged from: Advanced Spaceborne Thermal Emission and Reflection Radiometer Global Digital Elevation Model (ASTER GDEM), precipitation data, land use, soil type and Normalized Difference Vegetation Index (NDVI) data from Global Inventory Modeling and Mapping Studies (GIMMS) or Advanced Very High Resolution Radiometer (AVHRR), and observed data from hydrometric stations. We find that scaling effects exist between the sediment transport modulus and the drainage area. Scaling effects are expressed after logarithmic transformation by a quadratic function regression relationship where the sediment transport modulus increases before decreasing, alongside changes in the drainage area. Among the five factors influencing soil erosion, slope length and steepness increases first and then decreases, alongside changes in the drainage area, and are the main factors determining the relationship between sediment transport modulus and drainage area. To eliminate the influence of scale effects on our results, we mapped the sediment yield modulus of the entire WRB, adopting a 1 000 km2 standard area with a smaller fitting error for all sub-basins, and using the common Kriging interpolation method.     

黄土高原土壤侵蚀(水蚀)多尺度过程与水土保持研究进展

从产生土壤侵蚀机理出发, 分别阐述了黄土高原地区的坡面、 沟谷、 小流域、 流域尺度上的土壤侵蚀(水蚀)研究现状与取得的进展.结合平凉城南侧泾河一级支沟的纸坊沟小流域治理实践和调查, 总结黄土高原地区水土流失治理和水保措施实施的经验及其存在的不足. 建议未来的研究向着"规划性"、 "综合性"、 "量化尺度性"、 "弱化尺度性"模型的研究方向发展, 这对提高地区水土保持质量、 改善水土流失治理现状、 实现水保效益最大化目标具有重要意义.     

径流驱动土壤分离过程的影响因素及机制研究进展

土壤侵蚀包括土壤分离、泥沙输移和泥沙沉积3个子过程,研究这些过程发生、发展的水力、地形、土壤及地表特性等临界条件及各过程间相互影响、相互制约的机制,是建立土壤侵蚀过程模型继而准确预报土壤侵蚀的基础。为加强对径流驱动土壤分离过程的认识,推动土壤侵蚀过程与机理的研究,从径流水动力学特性、土壤特性、近地表特性、土壤分离过程的时空变异特性等方面对径流驱动的土壤分离过程影响因素及机制进行了总结和梳理,在此基础上,从土壤分离过程研究的时空尺度、土壤分离过程的动力学机制、细沟发育及其形态特征、网络结构对土壤分离过程的影响机制、土壤分离与泥沙输移的耦合机制、土壤分离测定方法与标准、土壤侵蚀阻力参数获取与预报等方面,展望了该领域有待深化的问题及今后的发展方向。     

遥感与GIS支持下的南桐矿区水土流失评价与区划

以重庆市南桐矿区为研究对象,运用遥感和GIS技术获取对水土流失影响较大的植被覆盖度、地形坡度、土地利用类型等信息并进行空间叠加分析,计算了水土流失类型及面积。研究结果表明,南桐矿区水土流失面积262.91km2,侵蚀模数2281t/(km2?a),水土流失强度以轻度和中度为主,其中轻度流失132.37km2,中度流失108.95km2。根据区域地貌类型以及水土流失特征,将研究区水土流失划分为盆边低山丘陵中强度流失区、北部坪状低山中轻度流失区和盆边中山轻度流失区三个类型区,盆边低山丘陵中强度流失区以中度流失为主;北部坪状低山中轻度流失区以轻度流失为主;盆边中山轻度流失区虽然以轻度流失为主,但微度流失也占有相当部分的比重。      

Advances in Researches of the Effects of Grassland Vegetation on Soil Erosion in Loess Plateau

Soil erosion is a serious global environmental problem which limits the survival and development of human beings. In our country, due to the special physical geography and socio-economic conditions, soil erosion intensity is great, which is particularly prominent in Loess Plateau region. Therefore, preventing and controlling soil erosion, as well as reducing soil erosion in Loess Plateau have become the key to solving environmental problems in the region. Soil erosion on Loess Plateau is serious, and grassland vegetation has good effects on soil and water conservation, which can improve ecological environment well. After the implementation of the project about returning farmland to grassland on Loess Plateau, the ecological benefits mainly focused on soil and water conservation benefits, soil improvement benefits, water conservation benefits and species diversity benefits, etc. Grassland vegetation has an irreplaceable role in the construction of the ecological environment on Loess Plateau. Therefore, the role of grassland in preventing soil erosion has received more and more attention. Scholars have done lots of research involved in the relationship between grassland coverage and soil erosion, impacts of grassland on hydrodynamic parameters, effects of grassland on soil properties, reduction effects of grassland on runoff and sediment, and soil erosion process on grassland slope. However, there is little research on erosion effect induced by grassland cover. This paper mainly pointed out the following questions: First, grassland cover is influenced by many factors, but the relationship with soil erosion from the dynamic mechanism is rarely discussed; Second, there is no well-developed theory of overland flow erosion at present, which limits the study of hydrodynamic parameters on grassland slope; Third, establishment of mathematical model between grassland cover and soil resistance can accelerate the quantitative analysis of grassland influence on erosion; Fourth, comprehensive analysis of influencing factors on water reduction and sediment reduction effect on grassland are insufficient; Fifth, there are not many mechanisms to analyze the erosion process of grassland slope by using the hydrodynamic characteristics of slope; sixth, research results on grassland-induced erosion are mainly focused on leading to soil dry layer and we should continue to strengthen in the future. This paper summarized the previous results, and supplemented some studies about erosion caused by grassland, then pointed out the existing problems in current research and the areas that need to be strengthened in the future, aiming at reducing soil erosion on the Loess Plateau.     

Using GIS-based distributed soil loss modeling and morphometric analysis to prioritize watershed for soil conservation in Bago river basin of Lower Myanmar

Bago River is an important river in Myanmar. Although shorter than other rivers, it has its own river system, and people along the river rely heavily on it for their daily lives. The upper part of the watershed has changed rapidly from closed forest to open forest land in the 1990s. Since the recent degradation of the forest environment, annual flooding has become worse during the rainy season in Bago City. This paper aims at determining soil conservation prioritization of watershed based on soil loss due to erosion and morphometric analysis in the Bago Watershed by integrating remote sensing and geographic information system (GIS) techniques. In this study, soil erosion of the Bago watershed was determined using the Universal Soil Loss Equation. Such factormaps as rainfall, soil erodibility, slope length gradient, and crop management were compiled as input parameters for the modeling; and the soil loss from 26 sub-watersheds were estimated. Then, the soil erosion maps of the Bago watershed for 2005 were developed. The resulting Soil Loss Tolerance Map could be utilized in developing watershed management planning, forestry management planning, etc.     

Progresses and Prospects of the Research on Soil Erosion in Karst Area of Southwest China*

The karst area of Southwest China is suffering from serious ecological and environmental problems due to soil erosion while the research on soil erosion is not sufficient. Primary achievement was systematically reviewed in this paper in three aspects: erosion characteristics, current researches about erosion on different spatial scales, and key scientific problems. Based on the review, the authors figured out the shortcomings of the existing studies and pointed out the directions on erosion study in southwest China karst region. The results showed that: ① Due to the existence of a dual structure in karst environment including ground and underground erosion, the process of runoff and sediment production on slope scale and confluence and sediment transportation processes on catchment scale were more complex under the unique geological and hydrological backgrounds; ② At present, most researches about erosion mechanism in karst area focus on slope scale and some achievements on quantitative evaluation of erosion factors have been made. Continuous data with high quality about relationship between water and sediment on catchment scale is limited. When data is scarce, river sediment data can be used as an effective way to study soil erosion intensity and spatial-temporal variation in karst area; ③ It is more reasonable to use 50 t/(km²·a) as the grading standard of soil loss tolerance than the previous grading standard of soil erosion intensity. Given the complex relationship between rocky desertification and soil erosion, more quantitative studies about the effects of rocky desertification on soil erosion are still necessary. There are different viewpoints on soil leakage definitions, leakage mechanism and leakage ratios, and new breakthroughs could be achieved by combining different methods and matching multi-scales. In conclusion, in order to further reveal soil erosion laws and establish and revise available regional soil erosion forecasting models for Southwest China karst areas, synchronous test and monitoring on slope, watershed, and channel spatial scales are urgently needed. The results can provide theoretical and technical support for promoting soil and water conservation work for the karst area of Southwest China.     

从土壤侵蚀角度诠释泥沙连通性

泥沙连通性是近10年来国际上的研究热点,从土壤侵蚀角度准确理解泥沙连通性至关重要。泥沙连通性表征流域内不同地貌或景观单元间的泥沙级联关系,受气候、地质地貌、流域特性、地形条件、土壤属性、植被特性、水文过程、土壤侵蚀以及人类社会活动及其时空变化的综合影响,泥沙连通性具有明显的时空变异特征。研究泥沙连通性的方法包括野外调查法、图论法、指标法和模型模拟法,不同方法的理论基础、数据要求、实施过程与结果存在一定差异,连通性指数目前应用最为广泛,但该指数更多强调结构连通性。亟需加强泥沙连通性概念与物理含义、影响因素及其动力机制、研究方法与指标体系等方面研究,明确泥沙连通性与水文连通性、土壤侵蚀和泥沙输移比的关系,分析水土保持措施对泥沙连通性的影响及其动力机制。