基于TETIS模型的黑土区乌裕尔河流域径流与侵蚀产沙模拟研究

为科学地认识中国东北黑土区流域土壤侵蚀特征,探讨TETIS模型在该区的适用性,本文以乌裕尔河流域为例,利用1971-1987年日径流与泥沙实测数据对TETIS模型进行了校正与验证,进而分析了流域土壤侵蚀强度特征及其与坡度、土地利用方式的关系。研究结果表明：TETIS模型在乌裕尔河流域适用性好,日径流与日输沙量的纳什效率系数在0.52~0.70之间,决定系数在0.60~0.71之间,体积误差均不超过15%。流域平均侵蚀模数为397.2 t/(km²·a),流域以微度和轻度侵蚀为主,约90%的产沙来自于坡面。平均土壤侵蚀模数随坡度的增大而增大,流域侵蚀量主要来自于0°~5°坡面。不同土地利用方式具不同的土壤侵蚀模数,耕地土壤侵蚀模数最大,达556.3 t/(km²·a)。坡度较大的耕地和植被覆盖度较低的区域是水土流失治理的重点。研究表明,TETIS模型在黑土区模拟土壤侵蚀产沙应用前景好,可为研究区制定水土保持措施提供科学依据。     

陕北地区退耕还林还草工程土壤保护效应的时空特征

This paper looks at the Green for Grain Project in northern Shaanxi Province.Based on remote sensing monitoring data,this study analyzes the locations of arable land in northern Shaanxi in the years 2000,2010 and 2013 as well as spatio-temporal changes over that period,and then incorporates data on the distribution of terraced fields to improve the input parameters of a RUSLE model and simulate and generate raster data on soil erosion for northern Shaanxi at different stages with a accuracy verification.Finally,combined with the dataset of farmland change,compared and analyzed the characteristics of soil erosion change in the converted farmland to forest(grassland)and the unconverted farmland in northern Shaanxi,so as to determine the project’s impact on soil erosion over time across the region.The results show that between 2000 and 2010,the soil erosion modulus of repurposed farmland in northern Shaanxi decreased 22.7 t/ha,equivalent to 47.08%of the soil erosion modulus of repurposed farmland in 2000.In the same period,the soil erosion modulus of non-repurposed farmland fell 10.99 t/ha,equivalent to 28.6%of the soil erosion modulus of non-repurposed farmland in 2000.The soil erosion modulus for all types of land in northern Shaanxi decreased by an average of 14.51 t/ha between 2000 and 2010,equivalent to 41.87%of the soil erosion modulus for the entire region in 2000.This suggests that the Green for Grain Project effectively reduced the soil erosion modulus,thus helping to protect the soil.In particular,arable land that was turned into forest and grassland reduced erosion most noticeably and contributed most to soil conservation.Nevertheless,in the period 2010 to 2013,which was a period of consolidation of the Green for Grain Project,the soil erosion modulus and change in volume of soil erosion in northern Shaanxi were significantly lower than in the previous decade.     

Exploring the potential of perennial crops in reducing soil erosion: A GIS-based scenario analysis in southern Tuscany,Italy

Preserving soils is a major challenge in ensuring sustainable agriculture for the future. Soil erosion by water is a critical issue in the Mediterranean regions and usually occurs when high-erosive precipitation is in temporal association with poor vegetation cover and density. Modelling soil erosion risks over large spatial scales suffers from the scarcity of accurate information on land cover, rainfall erosivity and their intra-annual dynamics. We estimated the soil erosion risk on arable land in a Mediterranean area (Grosseto Province, southern Tuscany, Italy) and investigated its potential reduction as a response to the change in intra-annual distribution of land cover due to the increase of perennial forage crops. A GIS-based (R)USLE model was employed and a scenario analysis was performed by setting criteria for raising the performance of perennial forage crops. Statistical data on agricultural crops provided an insight into current intra-annual land cover dynamics. Rainfall erosivity was computed on the basis of 22-year hourly precipitation data. The model was used to: i) quantify the potential soil losses of arable land in the study area, ii) identify those areas highly affected by erosion risks iii) explore the potential for soil conservation of perennial crops, thereby enabling appropriate preventive measures to be identified. The erosion rates, averaged over an area of about 140’000 ha, are estimated to 33.42 Mg ha⁻¹ y⁻¹. More than 59% of the study area was subjected to soil losses higher than 11 Mg ha⁻¹ y⁻¹ (from moderate to severe erosion) and the highest rates are estimated for steep inland areas. Arable land with severe soil erosion rates (higher than 33 Mg ha⁻¹ y⁻¹) represent about 35% of the whole study area. The risk of soil loss by water erosion in the study area is estimated to be reduced on average by 36% if perennial crops are increased in terms of 35% of the total arable land. The soil erosion data produced compared well with the published local and regional data. This study thus provides useful preliminary information for landscape planning authorities and can be used as a decision support tool in quantifying the implications of management policies.     

土地利用/覆盖变化对地表蚀积过程的影响——来自137Cs示踪的证据

 土地利用/覆盖变化不仅影响地表137Cs总量的再分配，而且显著影响土壤137Cs剖面分布。坝上地区各类土地利用/覆盖条件下137Cs总量的再分配，显示该区总体处于风蚀环境，其中农田和撂荒地是风蚀最严重的土地利用类型；137Cs剖面分布则指示了土地利用/覆盖变化过程中的土壤风蚀/堆积过程的转换，蚀积过程的转换证实了风蚀重灾区退耕还林还草，特别是退耕还草，对控制土壤风蚀、改善生态环境的重要意义。分析还认为，利用137Cs示踪方法计算土壤风蚀/堆积速率时，应格外注意样地的土地利用/覆盖变化过程。     

National policy and management responses to the hazard of coastal erosion in Britain and the United States

Since national governments have become actively involved in environmental planning, and coastal management in particular, collective and individual responses to coastal erosion hazards have become increasingly influenced by public policy. This paper analyses and compares coastal erosion management policies in Britain and the United States. Both countries experience similar problems of population concentration along unstable coastlines, and yet they have developed quite different approaches to their solution.Coastal erosion management in Britain is dominated by the Coast Protection Act of 1949, which provides for a coherent and centrally organized approach, but is biased towards engineering responses, to the relative exclusion of alternative management techniques. In contrast, the United States has developed an elaborate framework for coastal erosion management. Traditional engineering responses continue under the auspices of the Corps of Engineers, but coastal zone management legislation has introduced a new philosophy into public policy whereby nonstructural measures are preferred. However, the US approach suffers from inconsistent implementation and the influence of private landowners, who favour cheap and often ineffective structural responses.Based on a comparison of the strengths and weaknesses of each system, a model for the development of coastal erosion management policies is proposed. In particular, the model emphasizes the need to consider all possible alternative solutions, giving priority to those which respect the geomorphological nature of coastal erosion. It is suggested that coastal erosion management should become an integral part of the planning process, promoting community needs over individual requirements and favouring the use of non-structural measures and appropriate land-use controls.     

Rates of sheet and rill erosion in Germany — A meta-analysis

Knowledge of erosion rates under real conditions is of great concern regarding sustainability of landuse and off-site effects on water bodies and settlements. Experimentally derived rates of sheet and rill erosion are often biased by experimental settings, which deviate considerably from typical landuse, by short measuring periods and by small spatial extensions, which do not account for the pronounced spatio-temporal variability of erosion events. We compiled data from 27 studies covering 1076 plot years to account for this variability. Modelling was used to correct for deficiencies in the experimental settings, which overrepresented arable land and used steeper and shorter slopes as well as higher erosivity than typically found in reality. For example, the average slope gradient was 5.9° for all arable plot experiments while it is only 2.6° on total arable land in Germany. The expected soil loss by sheet and rill erosion in Germany after taking real slopes, landuse and erosivity into account averaged 2.7 t ha^− 1 yr^− 1. Annual crops contributed the largest proportion (90%) but hops despite its negligible contribution to landuse (0.06%) still contribute 1.0% due to its extraordinary rapid erosion, which was even faster than the measured bare fallow soil loss standardized to otherwise identical conditions. Bare fallow soil loss, which is often used as baseline, was 80 t ha^− 1 yr^− 1 when standardized to 5.1° slope gradient, 200 m flow path length, and average German erosivity.     

风力侵蚀对无定河流域产沙作用定量分析

本文利用无定河的水文泥沙观测日值资料和该流域内及周围气象站气象观测月值资料,通过流域的水沙关系与各年风蚀气候因子,估计了风力作用对无定河流域产沙的贡献量。结果揭示出:在风沙区,由于水力的搬运作用仍然决定了流域输沙量的大小,所以风力作用产生的输沙模数很小,在总输沙量中只占约1/4;风力作用增加输沙量比例最大的地区是穿过风沙区和丘陵沟壑区交界区,既有活跃的风沙活动又有强烈的黄土水蚀,风力和水力形成强耦合侵蚀搬运作用的干流上游,占输沙量的1/3以上;位于靠近风沙区并有片沙分布的黄土丘陵沟壑区的流域,风蚀产沙占流域输沙量的比例约为1/10;在黄土丘陵沟壑区,相对强烈的水力侵蚀,风力作用对产沙影响较小。整个无定河流域风力作用产生的输沙量包括入河风沙、降尘以及风力与水力的耦合侵蚀搬运作用可能增加的泥沙,接近流域总输沙量的1/6。     

黑土侵蚀速率及其对土壤质量的影响

利用¹³⁷Cs示踪法,研究了东北黑土耕作土壤的流失厚度和速率,探讨了水土流失对土壤机械组成、有机质、土壤水分、容重及其N、P含量的影响。结果表明:研究区侵蚀坡面¹³⁷Cs的分布深度在0～25cm,¹³⁷Cs的活度在1246.05±85.90～1499.45±101.73Bq/m²,侵蚀厚度可达0.316～0.433mm/a,侵蚀强度3033.6～3940.3t/km²·a,已属于中度侵蚀水平。水土流失造成土壤质地粗化,从坡顶向坡底,耕层土壤有机质增加、容重变化不大,含水量增加,土壤养分的“贫化”现象明显。     

黄上丘陵林地土壤侵蚀与土壤性质变化

The serious soil erosion caused the fragile eco-environment in the Loess Plateau. In modern soil erosion of the Loess Plateau, the man-made accelerated erosion was the dominant erosion pattern (Tang etal., 1993a; 1993b). There are many kinds of human activities to accelerate erosion, of which the most influential activities are to destroy forest and grass, even to destroy vegetation. Reclamation at the expense of destruction of forestland and grassland artificially could increase soil erosio…     

基于土壤理化性质估计土壤水分特征曲线Van Genuchten模型参数

在东北黑土区采集了不同侵蚀强度黑土土样,测定其土壤水分、机械组成、有机质和容重等指标,利用Rosetta模型估计了Van Genuchten模型的参数,并将估算土壤水分与实测土壤水分对比,评价了选择不同土壤理化性质指标的模拟精度,及该方法对东北黑土的适宜性。结果表明：选择4个或6个土壤性质指标,尺度参数（α）和形状参数（n）的差异较大,采用6指标时,α增大,n减小。修正VG模型参数m与n的关系后,模型拟合精度明显提高,其中6指标的计算结果好于4指标,但拟合值偏大,需进一步较正。Rosetta模型适用于砂粒含量小于46%,粘粒含量大于28%的东北黑土。     

Capacity of soil loss control in the Loess Plateau based on soil erosion control degree

The capacity of soil and water conservation measures, defined as the maximum quantity of suitable soil and water conservation measures contained in a region, were determined for the Loess Plateau based on zones suitable for establishing terraced fields, forestland and grassland with the support of geographic information system (GIS) software. The minimum possible soil erosion modulus and actual soil erosion modulus in 2010 were calculated using the revised universal soil loss equation (RUSLE), and the ratio of the minimum possible soil erosion modulus under the capacity of soil and water conservation measures to the actual soil erosion modulus was defined as the soil erosion control degree. The control potential of soil erosion and water loss in the Loess Plateau was studied using this concept. Results showed that the actual soil erosion modulus was 3355 t?km^-2?a^-1, the minimum possible soil erosion modulus was 1921 t?km^-2?a^-1, and the soil erosion control degree was 0.57 (medium level) in the Loess Plateau in 2010. In terms of zoning, the control degree was relatively high in the river valley-plain area, soil-rocky mountainous area, and windy-sandy area, but relatively low in the soil-rocky hilly-forested area, hilly-gully area and plateau-gully area. The rate of erosion areas with a soil erosion modulus of less than 1000 t?km^-2?a^-1 increased from 50.48% to 57.71%, forest and grass coverage rose from 56.74% to 69.15%, rate of terraced fields increased from 4.36% to 19.03%, and per capita grain available rose from 418 kg?a^-1 to 459 kg?a^-1 under the capacity of soil and water conservation measures compared with actual conditions. These research results are of some guiding significance for soil and water loss control in the Loess Plateau.     

黄土丘陵林地土壤侵蚀与土壤性质变化

以黄土丘陵子午岭土壤侵蚀和生态环境观测站1989~1998年的观测资料为基础,研究分析了林地开垦10年内土壤侵蚀与生态环境变化的相互效应关系。分析指出:林地开垦人为改变侵蚀环境,引起的人为加速侵蚀速率为自然侵蚀速率的1000倍以上;以单位降雨侵蚀力引起的侵蚀量作为衡量指标,指出林地开垦地土壤侵蚀强度随侵蚀年限增长呈递增加剧趋势;通过分析土壤物理力学性质表明,林地开垦侵蚀10年土壤粘粒和物理性粘粒比林地分别减少2.74%和3.01%,土壤向粗骨化趋势发展,>0.25 mm水稳性团粒含量减少58.7%,土壤容重增大,抗剪强度下降,抵抗径流冲刷能力减弱,造成土壤侵蚀更易发生;应用相关分析表明,>0.25 mm水稳性团粒含量的改变对土壤侵蚀强度影响最大,其偏相关系数为0.9728,其次是土壤的粗粉粒和抗剪强度,偏相关系数分别为0.8879和0.6020;分析>0.25 mm水稳性团粒含量和抗剪强度与土壤侵蚀强度关系表明,林地开垦后侵蚀1年和侵蚀7年为土壤侵蚀加剧的转折年限,说明退化的侵蚀土壤和退化的生态环境加剧了土壤侵蚀的发生和发展。     

Soil erosion in China based on the 2000 national remote sensing survey

This paper discussed the spatial distribution of soil erosion in China at the end of the 20th century based on the second national soil erosion survey. The result indicated soil erosion is still the prime environmental problem in China. Soil erosion mainly occurs in the western regions of China, and the slight erosion type, ion the whole, exerts the greatest impact on soil erosion pattern. The distribution of water erosion shows the impact of landforms: slight water erosion mainly in mountainous and hilly areas, and half of violent water erosion on the loess landforms. Farmland, forestland and grassland are the major land use types of slight hydraulic erosion distribution, while the serious hydraulic erosion and slight wind erosion mainly occur on grassland. Thus, the conservation of the grassland is the key to either hydraulic and wind erosion control. The huangmian soil (a major type of cultivated soil developed from loess mother material) is the one facing the most serious threat from soil erosion in Chinas soil resources. Further discussion on the soil erosion distribution still needs more research on the method and relevant data analysis.     

Soil erosion in China based on the 2000 national remote sensing survey

This paper discussed the spatial distribution of soil erosion in China at the end of the 20th century based on the second national soil erosion survey. The result indicated soil erosion is still the prime environmental problem in China. Soil erosion mainly occurs in the western regions of China, and the slight erosion type, ion the whole, exerts the greatest impact on soil erosion pattern. The distribution of water erosion shows the impact of landforms: slight water erosion mainly in mountainous and hilly areas, and half of violent water erosion on the loess landforms. Farmland, forestland and grassland are the major land use types of slight hydraulic erosion distribution, while the serious hydraulic erosion and slight wind erosion mainly occur on grassland. Thus, the conservation of the grassland is the key to either hydraulic and wind erosion control. The huangmian soil (a major type of cultivated soil developed from loess mother material) is the one facing the most serious threat from soil erosion in Chinas soil resources. Further discussion on the soil erosion distribution still needs more research on the method and relevant data analysis.     

IMPACTS OF DIFFERENT TYPES OF LAND USE ON PROCESSES OF SOIL AND WATER LOSS OVER PURPLE SOIL SLOPELAND

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东北黑土水土流失特点

东北黑土区是中国的主要粮食生产基地。黑土水土流失和肥力退化一直是东北农业持续发展必须面对的问题。文章以黑土为对象,分析了水土流失的方式和特点。黑土流失面积虽大,但侵蚀的土壤物质大部分没有进入河道,而是在黑土景观的低洼部位堆积下来,形成侵蚀和堆积共存的土壤物质再分布景观特征。合理的农业管理措施,如等高耕作和保护性耕作可以在很大程度上控制黑土侵蚀,保持和恢复黑土肥力。     

基于土壤侵蚀控制度的黄土高原水土流失治理潜力研究

以整个黄土高原为研究对象,首先将水土保持措施容量定义为某一区域能容纳的最大适宜水土保持措施量。根据梯田、林地和草地的适宜布设区域,在地理信息系统（GIS）软件的支持下,确定了黄土高原的水土保持措施容量。使用修正通用土壤流失方程（RUSLE）,计算了最小可能土壤侵蚀模数和2010年现状土壤侵蚀模数,并将水土保持措施容量下的最小可能土壤侵蚀模数与现状土壤侵蚀模数之比定义为土壤侵蚀控制度。随后使用土壤侵蚀控制度,对黄土高原水土流失治理潜力进行了研究。结果显示：黄土高原2010年现状土壤侵蚀模数为3355 t·km^-2·a^-1,最小可能土壤侵蚀模数为1921 t·km^-2·a^-1,土壤侵蚀控制度为0.57,属于中等水平。相比于现状条件,在水土保持措施容量条件下,微度侵蚀区比例从50.48%提高至57.71%,林草覆盖率从56.74%增加至69.15%,梯田所占比例由4.36%增加到19.03%,人均粮食产量可从418 kg·a^-1提高至459 kg·a^-1。研究成果对于黄土高原生态文明建设具有一定的指导意义。     

中国区域土壤水蚀碳量空间分布及其时间动态

本文利用三次全国土壤侵蚀遥感普查数据和第二次土壤普查土壤有机碳和无机碳密度数据,分析了我国土壤水蚀碳量的空间分布及其时间动态。研究结果表明：我国土壤水蚀碳量为74.61Tg C y^-1,其中有机碳量51.49Tg C y^-1,无机碳量23.12Tg C y^-1。在七大水土流失区中,水蚀有机碳量最多的是西南岩溶区,占总水蚀有机碳量的26.48%;水蚀无机碳量最多的是黄土高原区,占总水蚀无机碳量的67.62%。前者以中度水蚀为主,后者以极强度和强度水蚀为主。80年代中期至90年代中期,我国土壤水蚀碳量共减少了11.66Tg C y^-1,以有机碳迁移量减少为主,占总减少量的81.93%;90年代中期至21世纪初,土壤水蚀碳量依然呈下降趋势,共减少了1.65Tg C y^-1,其中,有机碳迁移量减少了1.514Tg C y^-1,无机碳迁移量减少了0.134Tg C y^-1。     

土壤侵蚀治理范式与生态学理论的耦合关系

目前土壤侵蚀已经成为全球普遍关注的环境问题, 土壤侵蚀治理范式是近年水土保持研 究中的一个热点。本文探讨了“范式”在科学研究中的变迁过程以及对土壤侵蚀防治的重要意义, 并且讨论了土壤侵蚀防治范式与生态学范式之间的耦合关系, 指出生态学思想对土壤侵蚀科学 的发展有重要的借鉴作用, 强调在进行土壤侵蚀研究过程中必须考虑生态因子。土壤侵蚀过程和 生态过程是相互渗透在一起, 它们之间所表现的是相辅相成的耦合关系, 生态学中的自然均衡思 想、系统非平衡态理论、等级缀块动态理论都深刻的影响着土壤侵蚀科学的发展并且都得到不同 程度的应用。在土壤侵蚀研究过程中必须重视生态环境平衡思想。     

应用EUROSEM模型对三峡库区陡坡地水力侵蚀的模拟研究

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