黄土坡面不同侵蚀带侵蚀产沙关系及其机理

黄土梁峁坡面土壤侵蚀具有明显的垂直分带性,不同侵蚀带具有各自的侵蚀产沙特点,且彼此相互影响,坡面侵蚀产沙分配受降雨强度和降雨能量的制约,随着雨强和降雨能量的增加,坡面侵蚀产沙量的最大部位由细沟侵蚀带向浅沟侵蚀带过渡,坡面侵蚀产沙强度变化的本抽为侵蚀方式的演变,坡面复合侵蚀带的径流模数明显小于对应的单一侵蚀带径流模数,而其侵蚀模数则明显大于对应的单一侵蚀带侵蚀模数,溅蚀片蚀带的来水来沙可吏细沟侵蚀带     

金衢盆地丘陵荒山土地退化评价及其时空分异特征——以兰溪市上华试验区为例

本文根据联合国土地退化和土地荒漠化定义，结合研究区特点，提出以植被覆盖度、侵蚀地貌形态和地面组成物质作为丘陵荒山土地退化程度的评价指标，既反映了植被的退化和土地表面形态的退化，又反映了土壤的退化。以此为基础，进而通过两期航空相片的解译，完成了研究区５０年代和８０年代丘陵荒山土地退化程度的模糊数学半定量评价和制图。分析表明，不同等级退化土地约占全区土地总面积的３６％，其中严重和剧烈退化的土地约占５％；退化土地的分布具有明显的坡位分异性和地域分异性；区内严重和剧烈退化的“劣地”早在解放以前即已存在，其形成历史可以追溯至明清时期，５０年代到８０年代土地退化的发展主要表现为微度退化土地的明显减少及中度和轻度退化土地的增加。     

太行山中段山地坡面发育模式

受地质构造、地层产状和岩性的共同影响,太行山中段山地地貌演化过程中,坡面发育模式产生了明显的分异:以华北准地台的吕梁期不整合面为界,基底层坡面发育以Davis模式为主,沟谷发育为垂直下切,地貌体垂直尺度小于水平尺度,地貌营力以流水为主,坡面侵蚀占主导地位,地表侵蚀强度低山区大于丘陵区,丘陵区大于台地区;盖层坡面发育以Penck模式为主,沟谷发育方式为横向侧切,地貌体垂直尺度远大于水平尺度,地貌营力重力占主导地位,侵蚀方式以崩塌为主。在晚第三纪以来的地貌演化过程中,陡崖平均后退速率为1.35mm/a。     

金衢盆地的天陵荒山土地退化评价及其时空分异特征：以兰溪市上华…

文根据联合国土地退化和土地荒漠化定义，结合研究区特点，提出以植被覆盖度、侵蚀地貌形太民和地面组成物质作为丘陵荒山地地退化程度的评价指标，既反映了植被的退化和土表面形态的退化，又反映了土壤的退化。     

中国东部亚热带丘陵山地土地退化评价指标体系研究*

中国东部亚热带地区流水侵蚀所引起土地退化的形成,是由其生态环境自身的脆弱性决定的。土地退化不仅表现为土壤退化,还表现为植被退化和土地状况恶化,其发展过程是植被退化-土壤退化-地表状况恶化过程多重循环的结果。据此,提出了中国东部亚热带丘陵山地土地退化评价指标。     

黄土坡面片蚀过程稳定含沙量及其影响因素

黄土高原地区坡面土壤侵蚀具有明显的垂直分带性,溅蚀片蚀带是坡面侵蚀的最上方地带,研究片蚀过程含沙量变化有助于阐明坡面侵蚀规律。本文采用人工模拟降雨试验方法研究了黄土坡面片蚀稳定含沙量及其影响因素;试验处理包括2种质地的黄土(塿土和黑垆土),2个雨强(90和120 mm/h)和4个坡度(10°、15°、20°和25°)。结果表明：在不同质地黄土、降雨强度和坡度条件下,水流含沙量均呈现先减小后平稳的规律;稳定含沙量与土壤颗粒体积分形维数、降雨强度和坡度呈幂函数关系,稳定含沙量随土壤颗粒体积分形维数的增大而减小,随降雨强度和坡度的增大而增大,影响程度依次为土壤颗粒体积分形维数、降雨强度和坡度;所分析的水动力学指标中单位水流功率与稳定含沙量关系最密切,降雨强度对稳定含沙量的影响大于单位水流功率。     

坡面流与坡面侵蚀动力过程研究的最新进展*

在回顾了坡面流及坡面侵蚀过程研究的简史与现状的基础之上,全面总结了坡面流形成机理及其模式、坡面流水动力学特性、坡面侵蚀动力过程及其侵蚀产沙模型诸方面研究的最新进展,并对坡面流各要素分析及坡面小侵蚀陡坎的形成等进行了一些探讨。最后,提出了坡面流及坡面侵蚀过程研究中存在的主要问题及未来展望。     

高纬度山地的坡面过程

本文主要对高纬地区,如斯堪的纳维亚、斯匹次卑尔根、格陵兰和北极地区的北美部分的坡面过程及其所产生的地形,进行了地貌形态的研究。在此,我们主要强调对坡面过程及其所产生的地形的现代过程的观察和观测,以及在漫长的历史时期,如自更新世大冰盖退缩以来的整个全新世期间,对地貌比较分析这两方面的研究。     

沙盖黄土丘陵坡地土壤理化特性随地形变化规律研究

在陕西神木县与内蒙古东胜市交界的饮马泉小流域,选择有代表性的坡面进行地形剖面和土壤层垂直方向的系统采样。每个样品进行了粒级、土壤质量含水量、土壤有机质测试。经数据的分析模拟,得以下结论:①土壤粒级构成和物理性粘粒含量特征,可以指示研究区土壤的沙化程度和演化趋向,其具有向西北更干旱粗化方向过渡的倾向。②土壤水分随地貌部位的变化规律比较明显,在峁坡顶部和上部,垂向上具有自上而下增加的趋势,而在峁坡下部和坡脚却正好相反。不论何种地貌部位都存在一个相近的土壤蒸发、渗漏、持水能力相对的平衡深度。③土壤的物理性粘粒含量与土壤的水肥关系密切,物理性粘粒含量相对高的土壤剖面,土壤的水肥组合效果较好。④土壤水肥质地的组合效果,丘陵顶部的最差,依次过渡到坡脚的组合效果最好。其进一步表明,地貌因素在土壤形成后的一系列熟化、退化、被侵蚀和沙化的演化过程中,地貌仍起着至关重要的作用。     

南海周边海岸带开发利用空间分异

基于不透水面提取技术、分段分带法和不平等度指数,分析了2010年南海周边海岸带开发利用格局的岸段分异性和沿岸地带性特征及其与海岸地貌、地理区位之间的关系。研究表明:1南海周边海岸带开发利用空间分异明显,新加坡、中国开发强度较高,柬埔寨、印度尼西亚开发强度较低。2南海周边海岸带土地开发强度呈现空间聚集状态,形成了以中国珠江三角洲、泰国湄南河三角洲、马六甲海峡、文莱、菲律宾马尼拉湾为中心的高聚集地区。3海岸带土地开发强度因海岸区位、海岸地貌差异呈现地带性特征,近岸带开发强度高于远岸带,河口岸开发强度高于其他岸段。     

Land degradation in the subtropical hilly andmountain regions of South China

1BackgroundSoutilChinaistilemostdevelopedandmostdenselypopulatedpaltofChina--oneofthecounts'smostimportantgrainproducingareas.ItissitUatedintropicalandsubtropicalhumidzones.andannualdownfallringesfrom950nuninthenorthto1700nuninthesouth.Landdegradahoncausedbywatererosionisne\'ertllelessveryseverehere,secondonlytotheLoessPlateau.SeverewatererosioncausesgreatlossofsoilandnutrienLdrashcreduchoninbiologicalandeconolnjcproduchvityandheaVygUllingoflandulhmatelyleadingtodesert-linelandscape,so-cal…     

Changes in intensity of wind erosion at different stages of degradation development in grasslands of Inner Mongolia, China

Overgrazing by increasing numbers of livestock in the Horqin Sandy Land of Inner Mongolia, China, has led to extensive degradation of the region's sandy steppes. Degraded grasslands are generally classified into four main types: fixed (least degradation), semi-fixed (light degradation), semi-shifting (moderate degradation) and shifting (severe degradation) sandy lands, representing four stages of degradation development. An experiment was conducted in the Horqin Sandy Land to investigate changes in intensity of wind erosion at different stages of degradation development in sandy grasslands and determine the extent to which surface wind erosion was affected by surface-related soil and vegetation factors through their effects on surface roughness length and wind regimes. Daily wind erosion rate was monitored at four sites of degraded grassland over an erosive period from 1 April to 10 June in 2001. Soil and vegetation properties for these sites were also measured twice: one in mid-April prior to the establishment of vegetation and again in mid-June after the establishment of vegetation. Relationships between surface roughness length and soil and vegetation variables were examined at each of the two stages of vegetation development. This study shows striking differences in the intensity of surface wind erosion among sites. The daily wind erosion rate in the fixed sandy land was, on average, only about 1/5 of the rate in the semi-fixed sandy land, 1/14 of the rate in the semi-shifting sandy land and 1/47 of the rate in the shifting sandy land suggesting a much higher resistance of the fixed sandy land to wind erosion compared to other sites. Differences in rate of wind erosion between sites were attributed to between-site differences in soil and vegetation properties that exerted significant effects on wind regimes by altering surface roughness length. At the pre-establishment stage of vegetation, surface roughness length was determined by a combination of litter amount on the ground, soil surface hardness and soil moisture content, with litter amount explaining the greatest proportion of the variation. At the post-establishment stage of vegetation, the development of the surface roughness effects was mainly governed by vegetation characteristics (vegetation cover in particular), while the effects of soil surface hardness and soil moisture on surface roughness length are likely to be masked by vegetation effects. The findings suggest that better management practices of restoring vegetation in degraded grasslands are required to reduce soil erosion losses and achieve a sustainable livestock production in the Horqin Sandy Land, an ecologically fragile sandy land ecosystem.     

Runoff and Soil Erosion on Slope Cropland: A Review

Soil erosion has become a serious environmental problem worldwide, and slope land is the main source of soil erosion. As a primary cover of slope land, crops have an important influence on the occurrence and development of runoff and soil erosion on slope land. This paper reviews the current understanding of runoff and soil erosion on slope cropland. Crops mainly impact splash detachment, slope runoff, and sediment yield. In this review paper, the effects of crop growth and rainfall on the splash detachment rate and the spatial distribution of splash detachment are summarized. Crop growth has a significant impact on runoff and sediment yield. Rainfall intensity and slope gradient can influence the level of erosive energy that causes soil erosion. Furthermore, other factors such as antecedent soil water content, soil properties, soil surface physical crust, and soil surface roughness can affect soil anti-erodibility. The varying effects of different crops and with different influence mechanisms on runoff and soil erosion, as well as changes in their ability to influence erosion under different external conditions should all remain focal points of future research. The effect of crop vegetation on runoff and soil erosion on slope land is a very important factor in understanding large-scale soil erosion systems, and in-depth study of this topic is highly significant for both theory and practice.     

基于文献分析的土地退化评价指标研究

中英文献综合统计,土地退化评价应用频次较高的指标有植被盖度、坡度、经济收入水平、有机质含量和土地利用类型等;土壤侵蚀应用频次较高的有植被因子、坡度、地貌类型、有机质含量和土地利用类型等;沙化有植被覆盖度、沙地占地率、土地利用类型、有机质含量、人口数量等。土地退化、土壤侵蚀和沙化遥感监测指标也集中在植被盖度、坡度、土地利用类型等指标。     

Patterns of rock fragment cover generated by tillage erosion

Intensively cultivated areas in the upper part of the Guadalentin catchment (southeast Spain) show a systematic spatial pattern of surface rock fragment cover (R_c). The objective of this paper is to quantify and to explain this spatial rock fragment cover pattern. Therefore, a map of an intensively cultivated area of 5 km² was digitised, and for each pixel total topographic curvature was calculated. Next, rock fragment cover was determined photographically at 35 sites with a range of total slope curvatures. A linear relation between total curvature and rock fragment cover was found, except for narrow concavities. It was hypothesised that this pattern can be explained by a significant net downslope movement of rock fragments and fine earth by tillage. The displacement distances of rock fragments by tillage with a duckfoot chisel were measured by monitoring the displacement of tracers (painted rock fragments and aluminium cubes) on 5 sites having different slopes. The rare of tillage erosion for one tillage pass with a duckfoot chisel, expressed by the diffusion constant (k), equals 282 kg/m for up and downslope tillage and only 139 kg/m for contour tillage. Nomograms indicate that mean denudation rates in almond groves due to tillage erosion (3 to 5 tillage passes per year) can easily amount to 1.5–2.6 mm/year for contour tillage and up to 3.6–5.9 mm/year for up- and downslope tillage for a field, 50 m long and having a slope of 20%. These figures are at least one order of magnitude larger than reported denudation rates caused by water erosion in similar environments. Hence tillage erosion contributes significantly to land degradation. The downslope soil flux induced by tillage not only causes considerable denudation on topographic convexities (hill tops and spurs) and upper field boundaries but also an important sediment accumulation in topographic concavities (hollows and valley bottoms) and at lower field boundaries. Kinetic sieving (i.e. the upward migration of rock fragments) by the tines of the duckfoot chisel also concentrates the largest rock fragments in the topsoil in such a way that a rock fragment mulch develops in narrow valleys and at the foot of the slopes. These results clearly indicate that tillage erosion is the main process responsible for the observed rock fragment cover pattern in the study area. Since the study area is representative for many parts of southern Spain where almond groves have expanded since 1970, the results have a wider application. They show to what extent intensive tillage of steep slopes has contributed to the increase in soil degradation, to changes in hillslope morphology (i.e. strong denudation of convexities, development of lynchets and rapid infilling of narrow valley bottoms) and to the development of rock fragment cover patterns which control the spatial variability of the hydrological and water erosion response within such landscapes.     

Erosion-reducing cover in semi-arid shrubland

Vegetation and small features of ground cover are known to affect erosion, but the areal extent of small features is rarely studied because they are difficult to estimate for large areas. We studied the variation in components of cover, with 67 sites representing the regional variation of vegetation and topography, in northwestern México. Surface-level cover, mostly by litter and gravel, was skewed to higher values than canopy cover, and only about one third of inter-plant points had bare soil. However, litter mass was not closely related to the spatial measure of ground cover. Drip height for intercepted precipitation was always <0.5 m and most obstructions were branches, not leaves. Soil roughness increased with slope gradient, suggesting it resulted from erosion. Neither land form (elevation, exposure and slope) nor species associations were strong factors in determining cover. However, the height of the vegetation was a good predictor of surface cover, drip height and canopy cover. Applied to erosion with the RUSLE model, this ground study estimated cover was better by more than an order of magnitude compared to a remote perception index. The dynamics of cover at surface level in arid and semi-arid shrublands warrants more attention.     

两种典型荒漠植被区土壤微生物量碳的季节变化及影响因素分析

选取干旱区准噶尔盆地南缘梭梭和柽柳两类典型荒漠植被区的4种不同地表类型（冠层下、枯枝落叶层、地衣结皮覆盖区、裸地）,对其从6～10月份的土壤微生物量碳季节变化进行动态监测,并在此基础上进行了土壤微生物量碳与各影响因子之间关系的分析,旨在揭示干旱区土壤微生物量碳季节动态变化特征及其主要影响因子。结果表明：两类典型荒漠植被区的土壤微生物量碳均呈现明显的季节变化,但变化趋势并不一致。其中梭梭植被区4种地表类型下的土壤微生物量碳均在8月达到峰值;柽柳植被区冠层下土壤微生物量碳也在8月份达到最大值,但其他3种地表类型下的土壤微生物量碳却在8月降到最低值。通过土壤微生物量碳的影响因子分析表明两类不同植被区土壤微生物量碳与有机碳、全氮均为（P<0.05）正相关,此外,梭梭植被区与土壤湿度存在正相关,而柽柳植被区则与土壤总含盐量呈显著负相关,表明两类荒漠植被区土壤微生物对影响因子的响应并不完全相同。     

RUNOFF PRODUCTION AND EROSION PROCESSES ON A DEHESA IN WESTERN SPAIN*

ABSTRACT. Runoff generation and soil erosion were investigated at the Guadalperalón experimental watershed (western Spain), within the land‐use system known as dehesa, or open, managed evergreen forests. Season and type of surface were found to control runoff and soil‐loss rates. Five soil units were selected as representative of surface types found in the study area: hillslope grass, bottom grass, tree cover, sheep trails, and shrub cover. Measurements were made in various conditions with simulated rainfall to gain an idea of the annual variation in runoff and soil loss. Important seasonal differences were noted due to surface cover and moisture content of soil, but erosion rates were determined primarily by runoff. Surfaces covered with grass and shrubs always showed less erosion; surfaces covered with holm oaks showed higher runoff rates, due to the hydrophobic character of the soils. Concentrations of runoff sediment during the simulations confirmed that erosion rates at the study site depended directly on the sediment available on the soil surface.