黑土区土壤侵蚀的REE示踪法研究

应用定位小区段面法实验和稀土元素示踪剂检测,选择吉林省长春市净月开发区和永吉县的两块黑土实验小区进行土壤侵蚀过程研究,探讨了稳定性稀土元素示踪法应用于黑土区土壤侵蚀、沉积、分布和发生过程研究的可能性,并计算出坡面不同部位的侵蚀量与相对侵蚀量,较好地描述降雨对坡面的侵蚀过程。实验表明,坡面的土壤侵蚀率随降雨时间而加大;7°~12°坡面的最大土壤侵蚀量出现在坡面中部和下部(为Nd、Sm和Eu所标记的坡段)。降雨时间和地形坡度大小影响土壤颗粒运动的速度和方向,是土壤侵蚀发生的主要因素。     

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。     

137Cs示踪法研究青藏高原草甸土的土壤侵蚀

运用137Cs示踪法对青藏高原高寒草甸典型的两个小流域的土壤侵蚀进行了研究,结果表明:高寒草甸植被区的土壤137Cs在土壤剖面中呈指数型分布,分布深度一般在20cm左右;坡顶部由于风蚀、冻融侵蚀和水蚀较强,致使侵蚀强于下部,除坡顶部外其他坡位侵蚀强度都符合坡上部<坡中部<坡下部的规律;高寒草甸植被覆盖度与土壤侵蚀强度呈显著的负相关关系(p<0.01),土壤平均侵蚀模数随植被覆盖度的增加呈线性降低的趋势,相关系数R2达到0.997以上。高寒草甸退化程度越高,土壤侵蚀越强。退化较强的草甸区的平均侵蚀模数是退化较弱区的2.23倍,最大侵蚀模数可达2960.22t/(km2.a)。     

紫色土坡地侵蚀产沙过程的~7Be法初探

利用环境放射性核素示踪技术研究土壤侵蚀是传统土壤侵蚀监测技术的重要补充手段。宇宙成因核素7Be具有半衰期短和在表土分布浅等特点,能够用于指示短时间尺度的坡面侵蚀堆积过程。采用7Be技术与泥沙颗粒分析相结合,定量判读了模拟降雨下紫色土坡面侵蚀过程演变。结果表明,对于20°坡面,7Be法指示的坡面侵蚀方式转折点与侵蚀泥沙颗粒变化得到的结果基本一致。7Be在表征侵蚀过程演变时具有独特的优势,可以将坡面片蚀发育过程随降雨时间的变化明显地识别出来。这对防治坡面侵蚀,特别是细沟侵蚀的发生具有重要意义。     

土壤和风化壳的宇成核素研究

简要介绍了土壤和风化壳剖面中宇成核素的收支情况和累积, 并通过几个实例介绍了国外和境外一些土壤和风化壳的宇成核素研究情况： 土壤和风化壳的年龄和表面侵蚀速率, 坡地土壤的生成速率和蠕滑速率, 土壤面的地貌演化过程, 以及一些土壤侵蚀事件研究。土壤和风化壳的宇成核素研究多数都要在一些假设条件下进行, 因而受到很大限制。不过尽管如此, 仍不妨碍进行土壤和风化壳宇成核素研究的尝试性工作。只是应该注意, 进行这类工作时首先要对研究地区的地质过程有清楚了解, 并尽可能与相关资料进行对比, 以期对结果给予合理的解释。     

土壤可蚀性动态变化规律研究

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。     

长江上游紫色土坡耕地土壤侵蚀~(137)Cs示踪法研究

运用1 37Cs示踪法对长江上游“长治”水土保持工程重点治理区的云贵高原区、川中丘陵区和三峡库区 8块紫色土坡耕地土壤侵蚀速率研究结果表明 ,影响紫色土坡耕地平均侵蚀速率的主要因子为坡度、坡长、降雨量和土壤粒度组成 ,四个研究区土壤平均侵蚀速率介于 75 8t km2 ·a- 1 ～ 985 4t km2 ·a- 1 ,计算值与长江上游类似地区径流试验场观测值基本一致。     

用雨量和雨强计算次降雨侵蚀力

降雨侵蚀力反映由降雨引起土壤侵蚀的潜在能力 ,是定量预报土壤流失的重要因子。降雨动能与最大 30min雨强的乘积EI30 是最常用的降雨侵蚀力指标 ,但计算复杂 ,且资料难以获得。本文从利用易获取的气象资料计算降雨侵蚀力出发 ,通过对全国 13个代表性小区侵蚀资料和 12个气象站降雨资料的分析 ,确定我国降雨侵蚀力指标为雨量和最大 10min雨强的乘积PI10 ,其精度与常用的侵蚀力指标EI30 相当。为方便对比分析并统一单位 ,进一步建立了指标PI10 与EI30 的转换关系 :(EI30 ) =0 1773(PI10 )。这样可充分利用覆盖全国的气象站整编资料 ,计算全国降雨侵蚀力 ,为水土保持规划服务     

~(137)Cs示踪法土壤侵蚀量估算的本底值问题

137Cs示踪法因能快速、相对简便地估算土壤侵蚀量而在土壤侵蚀定量研究中得到广泛应用。本底值获取是137Cs示踪法的关键和基础。在具有空间异质性多因素综合作用下,本底值呈现高度的空间异质性。针对本底值空间变异性,从气候气象要素、地形、土壤属性、土地利用/覆被四个方面阐明各因素与本底值空间变异的作用机理。分析了当前137Cs示踪法应用中在本底值获取时参考点存在性及选点的准确性、单个或几个本底值对研究区本底值的代表性和参考点采样设计。提出划分侵蚀测定单元、建立多本底值体系和进行地形校正解决当前137Cs示踪法中本底值存在问题的对策。侵蚀测定计算单元的划分原则和方法、根据已有参考点的137Cs本底值推算各单元137Cs本底值的技术方法、定量化研究各因素对137Cs的作用是今后需要深入的工作。     

白云岩喀斯特侵蚀坡地的~(137)Cs法研究

在黔南峰丛洼地区林间白云岩坡地应用137Cs法研究土壤侵蚀。4个坡面采样样方的137Cs面积浓度都低于137Cs本底值浓度;表土样137Cs浓度随着坡长增加而增大,全样137Cs面积浓度的顺坡变化呈逐步下降趋势;应用137Cs农耕地侵蚀模型计算获得样点土壤侵蚀量后,加以坡长加权平均计算获得的坡长权重土壤位移量为2.045 t/(km2·a)。同时在坡脚的土壤分层剖面中的137Cs浓度峰值在土壤次表层出现,随着深度增加呈指数递减变化,属于未受耕作扰动的无侵蚀非农耕地,但表层含有相对低浓度137Cs是坡面侵蚀泥沙的搬运堆积结果,估算距1963年以来侵蚀泥沙年平均堆积厚度为0.0682~0.1364 cm/a。坡地土壤侵蚀速率远小于以往贵州喀斯特地区典型喀斯特小流域和坡地的观测结果,但坡脚泥沙堆积速率远大于坡地土壤侵蚀速率。表明季节性暴雨、坡面降雨汇流和耕作侵蚀等侵蚀作用使喀斯特坡地土壤颗粒出现微距离位移,长期则在坡脚出现显著的侵蚀泥沙堆积。     

Wind erosion in the central Ebro Basin under changing land use management. Field experiments with a portable wind tunnel

The agricultural landscape in the semi-arid central Ebro Basin is changing from dry farming towards land abandonment. This study aims to describe quantitatively the influence of this land use change onto wind erosion susceptibility in this region. Additionally, the effects of tillage operations on wind erosion rates were evaluated. A portable wind tunnel was used to assess the relative sediment loss rates at three test sites near Zaragoza. Three different land use systems varying in crust disturbance level were investigated – (1) fallow land with undisturbed physical soil crusts, (2) simulated sheep trampling and (3) conventional tillage (dry farming).The results show that simulations on undisturbed crusted soils produce little soil loss. Consequently, wind erosion can be considered as negligible on these surfaces. Simulated sheep trampling during wind tunnel test runs produce 10 times higher sediment losses than simulations on undisturbed crusted soils. Highest sediment losses (50 times) were observed from rolled surfaces. Because of the ongoing extensification process, the distributions of physical soil crusts will most probably further increase. According to the results, this would lead to a reduction of wind erosion susceptibility in the central Ebro Basin depending on intensity and time of sheep pasturing and tillage.     

Assessment of Soil Erodibility in Taleghan Drainage Basin,Iran, Using Multivariate Statistics

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.     

Modeling spatial and temporal change of soil erosion based on multi-temporal remotely sensed data

In order to monitor the pattern, distribution, and trend of land use/cover change (LUCC) and its impacts on soil erosion, it is highly appropriate to adopt Remote Sensing (RS) data and Geographic Information System (GIS) to analyze, assess, simulate, and predict the spatial and temporal evolution dynamics. In this paper, multi-temporal Landsat TM/ETM+ remotely sensed data are used to generate land cover maps by image classification, and the Cellular Automata Markov (CA_Markov) model is employed to simulate the evolution and trend of landscape pattern change. Furthermore, the Revised Universal Soil Loss Equation (RUSLE) is used to evaluate the situation of soil erosion in the case study mining area. The trend of soil erosion is analyzed according to total/average amount of soil erosion, and the rainfall (R), cover management (C), and support practice (P) factors in RUSLE relevant to soil erosion are determined. The change trends of soil erosion and the relationship between land cover types and soil erosion amount are analyzed. The results demonstrate that the CA_Markov model is suitable to simulate and predict LUCC trends with good efficiency and accuracy, and RUSLE can calculate the total soil erosion effectively. In the study area, there was minimal erosion grade and this is expected to continue to decline in the next few years, according to our prediction results.     

The consequences of land-cover changes on soil erosion distribution in Slovakia

Soil erosion is a complex process determined by mutual interaction of numerous factors. The aim of erosion research at regional scales is a general evaluation of the landscape susceptibility to soil erosion by water, taking into account the main factors influencing this process. One of the key factors influencing the susceptibility of a region to soil erosion is land cover. Natural as well as human-induced changes of landscape may result in both the diminishment and acceleration of soil erosion. Recent studies of land-cover changes indicate that during the last decade more than 4.11% of Slovak territory has changed. The objective of this study is to assess the influence of land-cover and crop rotation changes over the 1990–2000 period on the intensity and spatial pattern of soil erosion in Slovakia. The assessment is based on principles defined in the Universal Soil Loss Equation (USLE) modified for application at regional scale and the use of the CORINE land cover (CLC) databases for 1990 and 2000. The C factor for arable land has been refined using statistical data on the mean crop rotation and the acreage of particular agricultural crops in the districts of Slovakia. The L factor has been calculated using sample areas with parcels identified by LANDSAT TM data. The results indicate that the land-cover and crop rotation changes had a significant influence on soil erosion pattern predominately in the hilly and mountainous parts of Slovakia. The pattern of soil erosion changes exhibits high spatial variation with overall slightly decreased soil erosion risks. These changes are associated with ongoing land ownership changes, changing structure of crops, deforestation and afforestation.     

WaTEM/SEDEM模型及其应用研究进展与展望

土壤侵蚀产沙模型是开展水土保持研究的重要工具。土壤侵蚀物理模型除能够模拟和预测土壤侵蚀沉积的空间分布外,其可移植性功能较强,因此得到了很多研究者的青睐,但大多数物理模型运行时需要的参数较多,因而限制了模型应用和推广。本文介绍了比利时鲁汶大学研发的分布式土壤侵蚀模型WaTEM/SEDEM（Waterand Tillage Erosion Model and Sediment Delivery Model）模型,分别从WaTEM/SEDEM 模型的产生、结构、国内外应用进行了系统阐述,并在已有的应用研究基础上,总结了该模型的优缺点,展望其应用前景。     

多流域降雨和土地利用格局对土壤侵蚀影响的比较分析——以陕北黄土丘陵沟壑区为例

土壤侵蚀是制约黄土高原可持续发展的瓶颈因素,为分析不同面积流域降雨和土地利用格局对土壤侵蚀影响的变化趋势,本文基于土壤侵蚀评价指数,发展了降雨和土地利用格局对土壤侵蚀影响的表征方法,探讨了多流域降雨和土地利用格局对土壤侵蚀的影响。结果表明：① 2006-2012年,研究区降雨侵蚀力因子R总体上呈现上升的趋势,植被覆盖与管理因子C呈现下降趋势;② 随流域面积的增加,研究区内降雨格局对土壤侵蚀的影响逐渐降低,而土地利用格局对土壤侵蚀的影响变大;③ 在流域面积较小时,降雨格局对土壤侵蚀的影响要大于土地利用格局对土壤侵蚀的影响,而在流域面积较大时,土地利用格局对土壤侵蚀的影响大于降雨格局对土壤侵蚀的影响;④ 随着流域面积的增加,研究区的林地比例有所下降,陡坡植被覆盖类型趋于单一,这是在流域面积增大时土地利用格局对土壤侵蚀影响增加的主要原因。同时,流域面积较小时,降雨对土壤侵蚀的影响较大,但随着流域面积的增加,松软的土壤性质和沟壑纵横的地形增大了发生重力侵蚀的可能性,土壤和地形对土壤侵蚀的影响增大。     

区域土壤侵蚀演化风险分析——以泾河流域为例

土壤侵蚀演化风险是在一定的空间范围内土壤侵蚀风险的时间变化关系,是发生土壤侵蚀可能性的动态演变过程,其对于评价不同时空尺度水土保持措施的合理性及其效益意义重大。以位于黄土高原中部的泾河流域为例,基于1986年、1995年和2000年的三期土地利用类型空间数据,利用GIS技术和信息熵理论,结合美国通用土壤流失方程（Uni...     

Runoff and soil erosion on cultivated rainfed terraces in the Middle Hills of Nepal

The paper presents runoff and soil erosion measurements from plots on outward-sloping rainfed agricultural terraces in the Likhu Khola drainage basin, Middle Hills, Nepal, for the pre-monsoon and monsoon periods of 1992 and 1993. Runoff coefficients ranged from 5% to over 50%, depending on the nature of the rainfall event and the characteristics of the terrace. Total rainfall amount provided the highest level of explanation for the variation in runoff. Soil losses ranged from 2.7 to 8.2 t ha^–1 for 1993 and up to 12.9 t ha^–1 for 1992. The higher losses were associated with red, finer-grained soils. The majority of these rates are lower than the rates of soil loss that have been commonly perceived for the Middle Hills of the Himalaya. However, they are broadly similar to rates obtained from the few other studies that have examined runoff and erosion under traditional rainfed cultivation. The results suggest that a re-evaluation of the degree of land degradation in such areas may be necessary. Relationships between soil loss and rainfall characteristics were highly variable but were improved considerably when vegetation cover was included. This indicates that the maintenance of some form of ground cover is advisable if runoff and erosion are to be minimized.     

内蒙古浑善达克沙地南缘 137Cs、 210Pbex复合示踪研究

土壤风蚀是导致土地退化、荒漠化以及大气扬尘、风沙天气的重要原因。内蒙古浑善达克沙地南缘是国家主体功能区规划确定的“两屏三带”的重要部分,科学估算本地区土壤风蚀强度及其变化,是地区生态安全和生态建设成效评估的重要内容。选择浑善达克沙地南缘的正蓝旗为研究区,运用 ¹³⁷Cs、 ²¹⁰Pb_ex复合示踪技术,对研究区土壤侵蚀速率及其变化进行了分析。结果表明：① 研究区内 ¹³⁷Cs本底值为2123.5±163.94 Bq·m ^-2, ²¹⁰Pb_ex本底值为8112±1787.62 Bq·m ^-2。② 基于 ¹³⁷Cs同位素示踪分析,研究区侵蚀模数为-483.99~740.31 t·km ^-2·a ^-1;基于 ²¹⁰Pb_ex同位素示踪分析,研究区侵蚀模数为-441.53~797.98 t·km ^-2·a ^-1。③ 与20世纪20-70年代相比,20世纪70年代以来土壤侵蚀与堆积速率明显降低,研究区风沙活动明显减弱,区域生态环境质量得到改善。综合 ¹³⁷Cs和 ²¹⁰Pb_ex的多同位素复合示踪技术在干旱、半干旱地区土壤侵蚀研究中具有较大的潜力。     

Using 137Cs and 210Pbex to investigate the soil erosion and accumulation moduli on the southern margin of the Hunshandake Sandy Land in Inner Mongolia

Wind-driven soil erosion results in land degradation, desertification, atmospheric dust, and sandstorms. The Hunshandake Sandy Land, an important part of the Two Barriers and Three Belts project, plays important roles in preventing desert and sandy land expansion and in maintaining local sustainability. Hence, assessing soil erosion and soil accumulation moduli and analyzing the dynamic changes are valuable. In this paper, Zhenglan Banner, located on the southern margin of the Hunshandake Sandy Land, was selected as the study area. The soil erosion and accumulation moduli were estimated using the ¹³⁷Cs and ²¹⁰Pb_ex composite tracing technique, and the dynamics of soil erosion and soil accumulation were analyzed during two periods. The results are as follows: (1) the regional ¹³⁷Cs reference inventory was 2123.5±163.94 Bq/m ², and the regional ²¹⁰Pb_ex reference inventory was 8112±1787.62 Bq/m ². (2) Based on the ¹³⁷Cs isotope tracing analysis, the erosion moduli ranged from -483.99 to 740.31 t·km ^-2·a ^-1. Based on the ²¹⁰Pb_ex isotope tracing analysis, the erosion moduli ranged from -441.53 to 797.98 t·km ^-2·a ^-1. (3) Compared with the earliest 50 years, the subsequent 50 years exhibited lower soil erosion moduli and accumulation moduli. Therefore, the activities of local sand dunes weakened, and the quality of the local ecological environment improved. The multi-isotope composite tracing technique combining the tracers ¹³⁷Cs and ²¹⁰Pb_ex has potential for similar soil erosion studies in arid or semiarid regions around the world.