黄土高原典型流域土壤侵蚀对退耕还林土地利用变化的响应

黄土高原土壤侵蚀严重,为此中国从1999年起实施了大规模的退耕还林工程。为了分析退耕还林土地利用变化对土壤侵蚀的影响,该研究以黄土高原清水河流域为研究区域,将2000—2020年流域退耕还林工程的实施依据主要措施的不同划分为4个阶段,应用RUSLE（revised universal soil loss equation）模型分析土壤侵蚀强度的变化特征,采用情景模拟方法提出一个区分土地利用变化和降雨变化对土壤侵蚀影响程度的算法,判别土地利用变化对土壤侵蚀的影响程度,将土地利用变化分解为土地利用转换和改造2种形式,在剔除降雨变化影响的基础上分析土地利用变化对土壤侵蚀的影响过程。结果表明：1）2000、2005、2011、2014和2020年流域平均侵蚀模数分别为36.21、41.02、24.93、23.72和8.24 t/(hm²·a),土壤侵蚀强度明显下降;土地利用变化和降雨变化对土壤侵蚀的阶段平均影响程度分别为75.23%和24.77%,土地利用变化在流域土壤侵蚀的变化中起了主导作用。2）流域土地利用转换区侵蚀强度的变化直接受转换过程中地类类别变更及所实施主要相关措施差异的影响,改造区侵蚀强度的变化直接受改造过程中所实施主要相关措施的影响。剔除降雨变化的影响后：改造区的阶段平均起始侵蚀模数较转换区高43.47%,其水土流失综合治理的难度总体上大于转换区;转换区侵蚀模数的阶段平均下降量较改造区高50.80%,改造区侵蚀量的阶段合计减少量占流域阶段合计减少量的71.16%,土地利用转换在降低其实施地区土壤侵蚀强度方面发挥了重要作用,而土地利用改造因实施面积较大在减少流域土壤侵蚀总量方面发挥了重要作用。3）剔除降雨变化的影响后,草地侵蚀量的阶段合计变化量占流域阶段合计变化量的70.51%,且草地阶段合计变化量中改造区占67.41%,其变化特别是其改造对流域土壤侵蚀的影响最大。该研究在分析土地利用变化对土壤侵蚀的影响程度和过程方面作了一些尝试,研究结果可为黄土高原退耕还林成果巩固及高质量发展有效措施的制定提供科学依据。     

煤炭工业小型矿井水土流失影响指数研究

为提高煤炭工业小型矿井水土流失影响指数的可靠性,选取21个小型煤矿项目,按单位产能水土流失影响因子值分析得出小型煤矿项目影响因子极值参数和水土流失影响指数。并对不同建设性质煤矿的影响指数进行分析,提出相应的水土保持防治措施与建议,为小型煤矿水土流失防治以及水土保持方案的编制提供了参考。     

C and N dynamics of a range of biogas slurries as a function of application rate and soil texture: a laboratory experiment

Digestates vary in composition and studies regarding their impact on C and N dynamics in soils are scarce. The objective was to analyse the C and N dynamics of digestates originating from various substrates applied to a sandy Cambisol and a silty Anthrosol. In three laboratory experiments (4–6 weeks), the effects of digestate properties, N rate and water content were tested. Averaged over both soils, 21% of the C supplied was emitted as CO₂. Potential NH₃ emissions during the first week ranged between 6% and 12% of NH₄⁺ present in the digestates. The emission factors in the sandy Cambisol were on average 1.2 and 2 times higher for CO₂ and potential NH₃, respectively, compared to the silty Anthrosol. Similarly, net nitrogen mineralization in the sandy Cambisol was approximately twice the N mineralized in the silty Anthrosol. Net nitrification was not influenced by soil texture or different digestates, but increased with increasing application rates and had highest values at 75% of water holding capacity. Our results indicate that the type of substrate input for anaerobic digestion influences the properties of the digestate and therefore the dynamics of C and N. However, soil texture can affect these dynamics markedly.     

Impact of maize straw biochar and tied-ridge-furrow rainwater harvesting on soil erosion and soil quality in a semiarid region

In dryland areas, integrating biochar soil amendment with in situ rainwater harvesting systems may decrease soil erosion, improve soil quality, and increase crop productivity and yield. This study was conducted to investigate the effect of maize straw biochar amendment and ridge-furrow rainwater harvesting systems on run-off, sediment yield and the physico-chemical properties of a Calcic Cambisol soil in semiarid areas. The experiment was conducted on alfalfa (Medicago sativa) production land at the Anjiagou Catchment experimental station in Gansu province, China. The experimental layout was a split-plot design with three replications. Biochar was applied at a rate of 0 and 30 t ha⁻¹, respectively. The tillage treatments were flat planting, open-ridging, and tied-ridging (TR). Overall, the integration of maize straw biochar with TR decreased soil bulk density at 0–40 cm depth. Biochar application reduced run-off by 37.8% and soil loss by 55.5% during alfalfa-growing seasons compared to the control. In general, biochar addition increased soil total potassium, but the same effect was not observed for soil pH, total nitrogen, total phosphorus, and available phosphorus. These findings demonstrate the potential of integrating maize straw biochar and tillage systems to reduce soil erosion and improve soil quality for rainfed crop production in semiarid areas. Further studies on the effect of biochar-tillage system interaction are warranted to improve soil conditions for plant growth and increase crop yield in dryland areas.     

用人工模拟降雨研究亚热带坡耕地土壤的沟蚀和沟间侵蚀

用人工模拟降雨研究亚热带地区粘淀湿润富铁土和铝质湿润淋溶土的坡耕地土壤沟蚀和沟间侵蚀。研究结果表明，类似于当地花生、山芋垄作的沟垄，在无外来径流影响下土壤沟蚀与沟间侵蚀程度相当，土壤沟侵蚀率与土坡自身特性和外来径流量大小关系密切，相同的外来径流量对不同类型土壤的沟侵蚀率的影响程度也不同。同时利用ＷＥＰＰ中的土壤可蚀性关系式计算出上述两种土壤的沟间可蚀性气值分别为０．１６４６和０．１３６２（１０－６ｋｇ ｓｍ－４）。     

Compaction of a Eutric Cambisol under heavy wheel traffic in Switzerland:: Field data and a critical state soil mechanics model approach

Subsoil compaction has become a problem of world-wide concern, especially under highly mechanised agricultural practices. Severe structural degradation impedes plant growth. Therefore, compaction must be limited to layers which can be structurally reclaimed with reasonable effort by tillage. The purpose of this study was to investigate the impact of a single pass with a sugar beet harvester on the soil properties of an unploughed Eutric Cambisol. In autumn 1998 and 1999 field measurements and laboratory testing were carried out in Frauenfeld, Switzerland. The wheel loads were 107 kN in 1998 and 108 kN in 1999. Changes of bulk density, total porosity, macroporosity and pre-consolidation pressure show that compaction effects were restricted to the topsoil (0–0.25 m depth). Below 0.25 m depth no changes were measured. The compaction beneath the tyre was modelled with a two phase finite element model in the framework of critical state soil mechanics. The model predicts the degree and depth of compaction of an Eutric Cambisol caused by a single pass in Switzerland. Modelled data and field results agree quite well.     

土壤侵蚀与水土保持科学重点研究领域与问题

进入新世纪,我国土壤侵蚀与水土保持科学研究迎来了新的发展机遇和挑战。在分析我国土壤侵蚀与水土保持学科研究的社会需求、科学需求及其特殊性的基础上,指出了我国土壤侵蚀与水土保持科学研究中存在的主要问题,提出了该领域亟待解决的前沿科学问题,如土壤侵蚀过程与机理,土壤侵蚀预报模型,水土保持措施防蚀机理及其适用性,流域生态过程和水土保持措施配置,大尺度土壤侵蚀与水土保持的格局及其变化规律,土壤侵蚀与水土保持环境效应评价,土壤侵蚀研究新技术与方法等。     

北方生态脆弱区土壤侵蚀敏感性空间分异

榆林是我国北方农牧交错带典型的生态脆弱区,土壤侵蚀严重制约着榆林地区人类生存和社会经济的可持续发展。以通用土壤流失方程为理论基础,选取自然因素(包括降雨、地形和土壤因子)和人为参数(包括生物措施、农业措施和社会经济措施因子)构建评估指标体系。在完成单因子敏感性评价的基础上,利用GIS空间叠加分析功能,对榆林市土壤侵蚀敏感性空间分异特征进行了综合研究。结果表明:研究区土壤侵蚀敏感性以中敏感为主,低敏感和高敏感次之,不敏感仅有零星分布。空间上土壤侵蚀敏感性程度呈南部黄土沟壑区向北部风沙草滩区递减趋势,高敏感区主要集中在靖边、定边两县南端,东部黄河沿岸以及南六县的部分地区。修正后的土壤侵蚀敏感性评价结果与前人研究的土壤侵蚀分布规律趋于一致,充分说明人类活动对土壤侵蚀也产生了极大影响。因此,急需转变不合理的土地利用方式,加强水土流失治理和植被恢复,针对不同敏感区实施分区管理,有效控制研究区能源开发建设对土壤侵蚀潜在发生的影响程度。     

基于GIS和CSLE的陕西省土壤侵蚀定量评价方法研究

通过对陕西省土壤侵蚀的定量评估,探索省域尺度上土壤侵蚀定量评价制图方法,以期为第四次全国土壤侵蚀普查提供技术支撑.利用陕西省日降雨数据、土壤类型图、土地利用图、DEM、植被覆盖图,选择CSLE模型.在ArcGIS平台上计算研究区2006年土壤侵蚀量,并与水利部标准评价结果进行对比分析.探索了坡度坡长变换对土壤侵蚀的影响.定量化的评价结果能较好的反映气候,土壤及水保措施对土壤侵蚀的影响,比水利部标准评价结果更能反映实际侵蚀.坡度坡长变换后对土壤侵蚀有明显影响.在GIS支持下,通过土壤侵蚀模型进行定量评价,可高效、客观反映土壤侵蚀情况及其主要影响因子,对区域治理和有关决策有极其重要参考价值.为了准确真实的反映土壤侵蚀程度,必须进行坡度坡长变换.     

Study on a soil erosion sampling survey in the Pan-Third Pole region based on higher-resolution images

Soil erosion is one of the most severe global environmental problems, and soil erosion surveys are the scientific basis for planning soil conservation and ecological development. To improve soil erosion sampling survey methods and accurately and rapidly estimate the actual rates of soil erosion, a Pan-Third Pole region was taken as an example to study a methodology of soil erosion sampling survey based on high-spatial-resolution remote sensing images. The sampling units were designed using a stratified variable probability systematic sampling method. The spatiotemporal characteristics of soil erosion and conservation were taken into account, and finer-resolution freely available and accessible images in Google Earth were used. Through the visual interpretation of the free high-resolution remote sensing images, detailed information on land use and soil conservation measures was obtained. Then, combined with the regional soil erosion factor data products, such as rainfall-runoff erosivity factor (R), soil erodibility factor (K), and slope length and steepness factor (LS), the soil loss rates of some sampling units were calculated. The results show that, based on these high-resolution remote sensing images, the land use and soil conservation measures of the sampling units can be quickly and accurately extracted. The interpretation accuracy in 4 typical cross sections was more than 80%, and sampling accuracy, described by histogram similarity in 11 large sampling sites, show that the landuse of sampling uints can represent the structural characteristics of regional land use. Based on the interpretation of data from the sample survey and the regional soil erosion factor data products, the calculation of the soil erosion rate can be completed quickly. The calculation results can reflect the actual conditions of soil erosion better than the potential soil erosion rates calculated by using the coarse-resolution remote sensing method.     

区域土壤侵蚀遥感抽样调查方法

土壤侵蚀是全球性环境问题,土壤侵蚀调查是水土保持规划和生态文明建设的科学基础。为了完善土壤侵蚀抽样调查方法,快速、精准地估算土壤侵蚀实际速率,对基于高分辨率遥感影像进行目视解译,提取高精度土地利用和水土保持措施信息的方法进行了研究。基于现代地理信息科学,充分利用虚拟地球及其提供的公开高分辨率遥感数据资源,考虑土壤侵蚀及其治理的时空特征,采用分层不等概系统空间抽样方法布设抽样单元,通过对公开高分辨率遥感影像的目视解译,完成泛第三极地区土地利用和水保措施的遥感抽样调查。研究实现了2万个抽样调查单元的解译,提取了土地利用和水土保持措施信息;基于CSLE模型完成了典型抽样调查单元的土壤流失速率计算,并对解译结果进行了精度和实用性分析。结果表明:基于公开高分辨率遥感影像、利用分层不等概系统空间抽样方法,可快速提取土地利用和水土保持措施信息,完成区域土壤侵蚀抽样调查。     

红壤丘陵区坡长对作物覆盖坡耕地土壤侵蚀的影响

坡长对坡耕地土壤侵蚀的影响随雨强的不同而变化,为解决南方红壤丘陵区坡耕地水土流失问题,该文采用野外人工模拟降雨的方法,研究了南方红壤丘陵区作物覆盖坡耕地上不同雨强下坡长对其土壤侵蚀的影响,并探讨了侵蚀增强的临界雨强和设置水土保持措施的合理坡长,结果表明:产沙量随坡长延长整体呈增大趋势,但存在一定的波动,二者的关系可用幂函数(决定系数0.84)表示。坡长延长相同长度时,产沙量不呈比例增加,但每隔4 m产沙量增量有减少的趋势,且径流侵蚀产生的泥沙中主要为粒径0.002~0.02 mm的粉粒及粒径0.002 mm的黏粒,加剧了耕地土壤粗化,因此,可每隔4 m设置水土保持措施,有效减少坡耕地水土流失。坡面径流侵蚀产沙量随着雨强的增大而增加,坡长越长,产沙量随雨强增加速度越快,二者呈幂函数关系(决定系数0.76),60 mm/h是红壤丘陵区侵蚀增强的临界雨强;雨强、坡长与产沙量均呈正相关关系,且雨强对坡耕地产沙量的影响较坡长大。对不同雨强下坡长对作物覆盖坡耕地土壤侵蚀的影响研究,可以为南方红壤丘陵区坡耕地水土流失的治理提供一定的理论依据。     

Participatory soil and water conservation planning using a financial analysis tool in the West Usambara highlands of Tanzania

Despite decades of soil and water conservation (SWC) efforts in Tanzania, the adoption of the recommended SWC measures by farmers is minimal. In the past, SWC plans did not incorporate farmers' knowledge, and the economics of SWC was not given much attention at the planning stage. This research evaluated the applicability of two tools for participatory soil erosion mapping using farmers' indicators of soil erosion and financial analysis of SWC measures at the planning stage. The two tools were evaluated in Kwalei catchment in the West Usambara highlands, Tanzania. The participatory soil erosion‐mapping tool uses farmers' indicators of soil erosion to identify, classify and map soil erosion at the catchment level. The financial analysis tool involves farmers in a stepwise analysis of the costs and benefits of SWC measures before the implementation. The erosion‐mapping tool increased farmers' awareness on the severity of soil erosion problems, and they realised the need for SWC plans at both field and catchment scales. With the financial analysis tool farmers participated in the cost and benefits analysis and were able to select SWC options that were feasible under their socio‐economic situation. The two tools were able to demonstrate that farmers' participation in SWC planning increases the acceptance of SWC measures because they solve problems that are perceived by themselves. The financial analysis tool demonstrated how farmers could make selection of SWC measures that are feasible under their biophysical and economic condition if they are informed about the costs and benefits. Copyright © 2006 John Wiley & Sons, Ltd.     

Evaluation of two soil conditioners for limiting post‐fire erosion as part of a soil conservation strategy

Soil conservation is a major concern for catchments affected by forest fires. The lack of vegetation cover and the development of soil water repellency increase the risk of topsoil erosion. This paper evaluates two soil conditioners (a wetting agent and a polyvinyl acetate) for limiting overland flow and erosion in inter‐rill areas. Unburned and burned soil samples were treated with one or both soil conditioners. The effects of these treatments on run‐off, water retention, erosion and plant growth were assessed using laboratory rainfall simulations. Polyvinyl acetate had little impact on water retention but was effective in reducing soil loss. The surfactant had little impact on water run‐off or soil loss but substantially improved water retention and plant biomass production. Application of soil conditioners on post‐fire areas could be a valuable technique in a soil conservation strategy. To maximize their benefits, soil conditioners could be applied with seeding using hydroseeding techniques and be limited to particular areas, such as paths and roadsides. Laboratory results indicate that field testing should also be carried out.     

The impact of sowing density of small grains on rill and ephemeral gully erosion in concentrated flow zones

Despite the fact that soil erosion by water causes considerable on-site and off-site problems, farmers in Europe are reluctant to adopt prevention and control measures when such measures require additional labour and material inputs. This paper documents the impact of multiple sowing of small grains on concentrated flow erosion rates and grain production for a winter triticale field (X Triticosecale Wittmack ex. A. Camus) in the Belgian loess belt. Multiple sowing refers to drilling more than once in zones of concentrated flow erosion in order to increase the total root mass in this zone. Multiple sowing strongly altered the morphology of erosion channels and reduced soil loss significantly. Statistical analysis confirmed that differences in channel dimensions could be explained by the seedling density. Doubling the root mass in the topsoil by multiple sowing, resulted on average in a reduction of soil loss by 42% for the whole growing season. For the winter period, soil loss reduction, mainly attributed to the triticale roots, amounted even to 53%, showing the tremendous impact of seedling roots on soil erosion by concentrated overland flow in the early stages of vegetation growth. Furthermore, total grain yield in the multiple drilled zones was not significantly smaller compared to the conventionally drilled parts of the field. Grain size of cereals was slightly smaller. The results of this case study indicate that double sowing in concentrated overland flow zones may be a viable soil erosion control technique.     

民勤绿洲不同耕作方式农田表层土壤风蚀规律的风洞模拟研究

[目的]比较分析不同耕作方式下农田表层土壤防风蚀机理和效果,为区域社会经济和生态环境建设提供科学依据。[方法]利用室内风洞及相关配套设备对甘肃民勤绿洲区的免耕、少耕、秋翻和深松农田表层土壤进行风蚀测试,计算风蚀速率及输沙率,研究其风沙运动规律,分析各种耕作农田表层土壤防风蚀情况。[结果]耕作措施对土壤风蚀速率的影响与风速大小相关,风速较小时,不同耕作方式对风速的影响差异不显著,而当风速大于14 m/s后不同耕作农田表层土壤风蚀速率开始出现较明显差异;少耕、秋翻、深松等耕作方式对农田表层土壤风蚀速率和输沙率的影响差异不明显;免耕耕作方式下农田表层土壤风蚀速率和输沙率最低,风速越高,差距越大;风速、耕作以及两者交互作用对农田表层土壤风蚀速率和输沙率有极显著影响。[结论]免耕耕作能有效抵抗农田表层土壤的风蚀,大幅度减少输沙率,表现出极佳的抗风蚀效果。     

The nature of soil erosion and possible conservation strategies in Ntabelanga area,Eastern Cape Province,South Africa

Soil erosion is a major land degradation problem in South Africa (SA) that has economic, social and environmental implications due to both on-site and off-site effects. High rates of soil erosion by water are causing rapid sedimentation of water bodies, ultimately leading to water crisis in SA. Lots of financial and human resources are channelled towards controlling of soil erosion but unfortunately with little success. The level of soil erosion in a particular area is governed by the site properties. Therefore, it is inappropriate to generalize data on soil erosion at a large-scale spatial context. The literature on soil erosion in SA classifies Eastern Cape Province as a high-erosion-potential area using data collected at a large-scale spatial context. Collecting soil erosion data at a large spatial scale ignores site-specific properties that could influence soil erosion and has resulted in failure of many traditional soil erosion control measures applied in the province. Moreover, scientific principles underlying the processes and mechanisms of soil erosion in highly erodible soils are missing in SA. This review was to find effective soil erosion control measures by having an insight on what happens during soil erosion and how soil erosion occurs in Ntabelanga. The literature suggested that erosion in Ntabelanga could be influenced by both the erosivity and erodibility factors though the erodibility factors being more influential. Soil permeability contrast between the horizons could be influencing the rate and nature of soil erosion. To mitigate the impact of soil erosion in Ntabelanga, efforts should aim to improve the vertical flow capacity in the B horizon. Clay spreading, clay delving, addition of gypsum, deep ploughing and mulching could aid the water permeability problems of the subsurface horizons. However for effective soil management and control option, detailed studies of specific site properties are needed. The generated information can assist in formulating soil erosion policies and erosion control strategies in the Ntabelanga area and SA at large.     

基于137Cs的青藏高原高寒草甸土壤侵蚀及碳流失估算

[目的] 定量分析青藏高原高寒草甸土壤侵蚀状况及其伴随的碳流失,为全面评估土壤侵蚀影响,实施有效水土保持措施提供参考。[方法] 结合¹³⁷Cs示踪技术与前人研究,对青藏高原高寒草甸土壤的整体侵蚀水平及其土壤有机碳流失进行了估算。[结果] 未受人为扰动的高寒草甸土壤自上而下表现出3个层次(A,B和C层)的理化性质特征,其¹³⁷Cs分布遵循显著指数递减模式。目前,高原草甸土壤年均侵蚀模数约为77~230 t/km²,推测其每年直接导致的土壤有机碳损失量平均不低于4.86 t/km²。[结论] 青藏高原高寒草甸土壤侵蚀水平整体较弱,但因土壤侵蚀流失的有机碳不容忽视。在未来气候变化背景下,升温导致的土壤湿度下降对植被生长的限制,以及人类活动的影响,较大可能成为诱使青藏高原草甸土壤退化和有机碳流失的潜在因素。     

黄土区大型露天矿排土场水力侵蚀计算与防治

以黄土区安太堡露天矿未复垦排土场为对象,研究未复垦排土场平台水力侵蚀(沟蚀)状况,通过实地外业采样和内业数据处理,结合数据统计分析平台,计算出了研究区内的沟蚀量分布情况,并分析了平台汇水面、土壤容重、坡度与沟蚀模数的关系,估算研究区水力侵蚀造成的直接经济损失,提出排土场平台复垦和水土流失防治措施。结果表明:(1)研究区水力侵蚀严重,总体沟蚀模数相当于自然地貌土壤侵蚀模数的6.8倍,其中平台汇水面对沟蚀模数的影响巨大;(2)排土场平台表层土壤压实,40cm以内土层压实最为严重,深层土壤土质较疏松;(3)排土场平台坡度和坡长在一定程度上可以反映出土壤侵蚀的高低,在水土流失防治措施中应予考虑。在平台复垦和土壤侵蚀防治中应采用减少平台汇水面积、增大地表水入渗能力和提高植被覆盖度的措施为主,本研究成果可为排土场复垦和水土流失防治提供参考。     

匈牙利半湿润气候地区田间尺度下土壤侵蚀引起的土壤有机碳再分布

Soil organic carbon(SOC) has primary importance in terms of soil physics, soil fertility and even of climate change control. One hundred soil samples were taken from an intensively cultivated Cambisol to quantify SOC redistribution triggered by soil erosion under a subhumid climate, by the simultaneous application of diffuse reflectance(240–1 900 nm) and traditional physico-chemical methods.The representative sample points were collected from the solum along the slopes at the depth of 20–300 cm with a mean SOC content of 12 g kg~(-1). Hierarchical cluster analyses were performed based on the determined SOC results. The spatial pattern of the groups created were similar, and even though the classifications were not the same, diffuse reflectance had proven to be a suitable method for soil/sediment classification even within a given arable field. Both organic and inorganic carbon distributions were found to be a proper tool for estimations of past soil erosion processes. The SOC enrichment was found on two sedimentary spots with different geomorphological positions. Soil organic matter composition also differed between the two spots due to selective deposition of the delivered organic matter. The components with low-molecular-weight reached the bottom of the slope where they could leach into the profile, while the more polymerised organic matter compositions were delivered and deposited even before on a higher segment of the slope in an aggregated form. This spatial difference appeared below the uppermost tilled soil layer as well, referring the lower efficiency of conventional ploughing tillage in soil spatial homogenisation.