中国黄土高原丘陵沟壑区天然降雨下不同土地利用方式的水土流失效应（英文）

The Loess Plateau,which is located in the arid and semi-arid areas of China,experiences significant soil erosion due to intense human activities and soil erodibility.It is necessary to explore and identify the land-use types or land-use patterns that can control soil erosion and achieve certain agricultural production capabilities.This study established runoff plots with two slope gradients(5°and 15°) in north of Yan'an,one area of the Loess Plateau,with 3 single land-use types(cultivated land,CL;switchgrass,SG;and abandoned land,AL) and 2 composite land-use types(CL-SG and CL-AL).Prom 2006 to 2012,we continuously monitored the rainfall characteristics,runoff depth,soil loss,vegetation coverage,and soil physical properties.The results indicated a general trend in the number of runoff and soil loss events for the 5 land-use types:CL = CL-SG CL-AL SG AL.The general trend for runoff depth,soil loss,their magnitudes of variation,and the slopes of rainfall-runoff regression equation was CL CL-SG CL-AL SG AL,whereas the rainfall threshold for runoff generation exhibited the opposite trend.Results of nonparametric test regarding runoff depth/EI_(30) and soil loss/EI_(30),where EI_(30) is the product of rainfall kinetic energy and the maximum rainfall intensity over 30 min,and the runoff depth-soil loss relationship regression indicated that the effect of CL-AL was similar to that of SG;SG was similar to AL;and CL-AL,SG,and AL were superior to CL with regard to soil and water conservation.Runoff depth and soil loss significantly increased as the slope gradient increased.Runoff depth and soil loss were significantly correlated with the soil particle size composition and bulk density,respectively.The strongest significant correlations were found between runoff depth and vegetation coverage as well as between soil loss and vegetation coverage,which showed that vegetation coverage was the primary factor controlling soil erosion.Therefore,the composite land-use type CL-AL and the artificial grassland(SG) are appropriate options because both soil conservation and a certain degree of agricultural production are necessary in the study area.     

北约旦地区降水侵蚀因子的近似估算研究

Despite being in arid and semi-arid areas, erosion is largely a result of infrequent but heavy rainfall events; therefore, rainfall erosivity data can be used as an indicator of potential erosion risks. The purpose of this study was to investigate the spatial distribution of annual rainfall erosivity in North Jordan. A simplified procedure was used to correlate erosivity factor R values in both the universal soil loss equation (USLE) and the revised universal soil loss equation (RUSLE) with annual rainfall amount or modified Fournier index (F_mod). Pluviometric data recorded at 18 weather stations covering North Jordan were used to predict R values. The annual values of erosivity ranged between 86-779 MJ mm ha^-1 h^-1 year^-1. The northwest regions of Jordan showed the highest annual erosivity values, while the northeastern regions showed the lowest annual erosivity values.     

不同土壤管理措施下基于水蚀过程的含沙量变异及其驱动

In order to prevent soil erosion in southern China, a study was performed to determine the drivers of sediment concentration variation using simulated rainfall and four soil management systems under field condition. Four soil management systems, i. e., forest and grass coverage (FG), forest coverage with disturbed soil surface (FD), contour tillage (CT) and downslope tillage (DT), were exposed to two rainfall intensities (40 and 54 mm h^-1) using a portable rainfall simulator. The drivers of sediment concentration variation were determined by the variations of runoff rate and sediment concentration as well as their relationships. The effects of the four soil management systems in preventing water and soil losses were compared using runoff rates and sediment concentrations at steady state. At runoff initial stage, sediment concentration variation was mainly driven by rainfall and management. The degree of sediment concentration variation driven by flow varied with different soil management systems. Three best relationships between runoff rate and sediment concentration were identified, i. e., reciprocal (CT), quadratic (FG and FD) and exponential (DT). At steady state, runoff rates of the four soil management systems varied slightly, whereas their sediment concentrations varied greatly. FG and CT were recommended as the best soil management systems for preventing water and soil losses.     

坡地开垦的径流泥沙响应

Land use and land cover change is a key driver of environmental change. To investigate the runoff and erosion responses to frequent land use change on the steep lands in the Three Gorges area, China, a rainfall simulation experiment was conducted in plots randomly selected at a Sloping Land Conversion Program site with three soil surface conditions: existing vegetation cover, vegetation removal, and freshly hoed. Simulated rainfall was applied at intensities of 60 (low), 90 (medium), and 120 mm h 1 (high) in each plot. The results indicated that vegetation removal and hoeing significantly changed runoff generation. The proportion of subsurface runoff in the total runoff decreased from 30.3% to 6.2% after vegetation removal. In the hoed plots, the subsurface runoff comprised 29.1% of the total runoff under low-intensity rainfall simulation and the proportion rapidly decreased with increasing rainfall intensity. Vegetation removal and tillage also significantly increased soil erosion. The average soil erosion rates from the vegetation removal and hoed plots were 3.0 and 10.2 times larger than that in the existing vegetation cover plots, respectively. These identified that both the runoff generation mechanism and soil erosion changed as a consequence of altering land use on steep lands. Thus, conservation practices with maximum vegetation cover and minimum tillage should be used to reduce surface runoff and soil erosion on steep lands.     

淹水稻田氮的损失

A field microplot experiment was conducted during the tillering stage of paddy rice to investigate nitrogen(N) Iosses from flooded rice fields following fertilizer application. After application of ammonium bicarbonate, most of nitrogen in the flood water was present as NH₄-N and its concentration varied widely with time. Concentrations of both NO₃-N and NO₂-N in the floodwater were low due to the weakened nitrification. Under flooded anaerobic reducing conditions, soil solution concentrations of NO₃-N and NH₄-N were nothigh, ranging from 0.6 mg L^-1 to 4.8 mg L^-1, and decreased with soil depth. However, the ground water wasstill contaminated with NO₃-N and NH₄-N. Rainfall simulation tests showed that the N losses via runoff inrice fields were closely related to the time intervals between fertilizer applications and rainfall events. Whena large rain fell for a short period after fertilizer application, the N losses via runoff could be large, which could have a considerable effect on surface water quality. Both irrigation and N fertilizer application must be controlled and managed with great care to minimize N losses via runoff from agricultural land.     

三种植被类型植物根系对崇明岛海岸带稳定性的影响

Coastal erosion is currently a major problem along the southern coast of Chongming Island, Shanghai. To enhance the erosion protection ability of coastal shelterbelts, two woody tree species, Taxodium ascendens and Salix babylonica, were planted separately into Phragmites australis + Scirpus mariqueter communities in 2006. Two years later, we investigated whether either of these experiments reduced erosion and increased stability in the native herbaceous plant community. We also examined soil stability and root length density under T. ascendens added, S. babylonica added and native herbaceous vegetation conditions along an intertidal gradient from the soil surface to a depth of 40 cm in each experiment, thus to determine the capacity of T. ascendens and S. babylonica to contribute to shoreline stabilization. Topsoil under the native vegetation had greater stability at the middle and higher intertidal zones because its soil stability index and root length density were significantly higher than in the T. ascendens or S. babylonica planted communities. The effect of T. ascendens on soil stability was not generally better than that of the native vegetation. Only at the 20-30 cm soil depth of the middle intertidal zone and in the 10-20 cm layer of the higher intertidal zone the soil stability index and root length densities under the T. ascendens added condition were significantly higher (P < 0.05) than those of the native vegetation. The S. babylonica planted soil had greater stability in the deeper soil layer than the soil under either the native vegetation or the T. ascendens added condition, and its soil stability index and root length density were significant higher (P < 0.05) than those of other vegetation conditions at the 30-40 cm soil depth for the lower intertidal zone and at the 20-40 cm layer for middle and higher intertidal zones.     

灌溉水质与灌溉沟坡度对华北土壤径流和侵蚀的影响

Irrigation-induced soil erosion seriously affects the sustainability of irrigated agriculture. The effects of irrigation water quality and furrow gradient on runoff and soil loss were studied under simulated furrow irrigation in laboratory using a soil collected from an experimental station of China Agricultural University, North China. The experimental treatments were different combinations of irrigation water salt concentrations of 5, 10, 20, and 30 mmol_c L^-1, sodium adsorption ratios (SAR) of 0.5, 5.0, and 10.0 (mmol_c L^-1)^0.5, and furrow gradients of 1%, 3%, and 5%, with distilled water for irrigation at 3 furrow gradients as controls. The experimental data indicated that total runoff amount, sediment concentration in runoff, and total soil loss amount generally decreased with increasing salt concentration in irrigation water but increased with its sodicity and furrow gradient. The effects of water quality and furrow gradient on soil loss were greater than those on runoff, and the increase of furrow gradient decreased the influence of water quality on soil loss. When the salt concentration increased from 5 to 30 mmol_c L^-1 at SAR of 10.0 (mmol_c L^-1)^0.5, total runoff amount, sediment concentration, and total soil loss amount decreased by 3.89%, 52.1%, and 53.92%, and 10.57%, 38.86%, and 42.03% at the furrow gradients of 1% and 5%, respectively. However, they respectively increased by 3.37%, 45.34%, and 55.36%, and 3.86%, 10.77%, and 13.91% when SAR increased from 0.5 to 10.0 (mmol_c L^-1)^0.5 at the salt concentration of 5 mmol_c L^-1. Irrigation water quality and furrow gradient should be comprehensively considered in the planning and management of furrow irrigation practices to decrease soil loss and improve water utilization efficiency.     

中国滇池流域土地利用方式对土壤侵蚀和养分状况的影响

Soil erosion and loss of soil nutrients have been a crucial environment threat in Southwest China. The land use and its impact on soil qualities continue to be highlighted. The present study was conducted to compare soil erosion under four land use types(i.e.,forestland, abandoned farmland, tillage, and grassland) and their effects on soil organic carbon(SOC), total nitrogen(TN) and total phosphorus(TP) in the Shuanglong catchment of the Dianchi Lake watershed, China. There were large variations in the erosion rate and the nutrient distributions across the four land use types. The erosion rates estimated by137 Cs averaged 2 133 t km-2year-1under tillage and abandoned farmland over the erosion rate of non-cultivated sites, and the grasslands showed a net deposition. For all sites, the nutrient contents basically decreased with the soil depth. Compared with tillage and abandoned farmland, grassland had the highest SOC and TN contents within 0–40 cm soil layer, followed by forestland. The significant correlations between137 Cs, SOC and TN were observed. The nutrient loss caused by erosion in tillage was the highest. These results suggested that grassland and forestland would be beneficial for SOC and TN sequestration over a long-term period because of their ability to reduce the loss of nutrients by soil erosion. Our study demonstrated that reduction of nutrient loss in the red soil area could be made through well-managed vegetation restoration measures.     

Soil Erosion as A ffected by Polyacrylamide Application Under Simulated Furrow Irrigation with Saline Water

The reduction of soil and water losses under furrow irrigation with saline water is important to environmental protection and agricultural production.The objective of this study was to determine the effect of polyacrylamide(PAM)application on soil infiltration and erosion under simulated furrow irrigation with saline water.Polyacrylamide was applied by dissolving it in irrigation water at the rates of 1.5,7.5,and 15.0 mg L^-1 or spreading it as a powder on soil surface at the rates of 0.3,1.5,3.0,and 6.0 g m^-2,respectively.The effectrolyte concentration of tested irrigation water was 10 and 30 mmolc L^-1 and its sodium adsorption ratio(SAR)was 0.5,10.0,and 20.0(mmol_c L^-1)_0.5.Distilled water was used as a control for irrigation water quality.Results indicated that the effectrolyte concentration and SAR generally did not significantly affect soil and water losses after PAM application.Infiltration rate and total infiltration volume decreased with the increase of PAM application rate.Polyacrylamide application in both methods significantly reduced soil erosion,but PAM application rate did not significantly affect it.The solution PAM application was more effective in controlling soil erosion than the powdered PAM application,but the former exerted a greater adverse influence on soil infiltration than the latter.Under the same total amounts,the powdered PAM application resulted in a 38.2%-139.6% greater infiltration volume but a soil mass loss of 1.3-3.4 times greater than the solution PAM application.     

西班牙东南部旱作橄榄树果园水土保持措施: 植物带对土壤水分的动态影响

Sloping and mountainous olive production systems are widespread, occupying large parts of the Mediterranean landscape prone to water erosion. Soil erosion, runoff, and soil water content patterns over a three-year period were monitored in erosion plots on a mountainside with rainfed olive (Olea europaea cv. Picual) trees under: 1) non-tillage with barley strips of 4 m width (BS); 2) non-tillage with native vegetation strips of 4 m width (NVS); and 3) non-tillage without plant strips (NT). The erosion plots, located in Lanjaron (Granada, south-eastern Spain), on a 30% slope, were 192 m² in area. For assessing soil water dynamics in real-time and near-continuous soil water content measurements, multisensor capacitance probes were installed in the middle of plant strips and beneath the olive tree at five soil depths (10, 20, 30, 50, and 100 cm). The highest erosion and runoff rates were measured under NT, with a mean of 17.3 Mg ha^-1 year^-1 and 140.0 mm year^-1, respectively, over the entire study period. The BS and NVS with respect to the NT reduced erosion by 71% and 59% and runoff by 95% and 94%, respectively. In general, greater available soil water content was found under BS than NVS and NT, especially beneath the olive tree canopies. These results supported the recommendation of non-tillage with barley strips in order to reduce erosion and to preserve soil water for trees in traditional mountainous olive-producing areas, where orchards cover vast tracts of land.     

基于Landsat 8 OLI影像的延河流域土壤线提取及其应用研究

[目的]以延河流域为研究区,利用自动提取算法建立典型黄土的土壤线方程,为土壤调节植被指数的计算提供基本参数。[方法]基于Landsat 8OLI遥感影像,采用自动提取算法获取土壤线参数;分析归一化植被指数NDVI,土壤调节植被指数PVI,TSAVI,ATSAVI与实测盖度的相关性,探讨所构建的土壤线方程在黄土高原地区植被指数提取中的适用性。[结果]通过自动算法与常规方法对比发现两者偏差较小,且自动提取算法具有较高的精度和稳定性;各植被指数与实测盖度的相关性大小为:PVINDVITSAVIATSAVI,PVI为延河流域植被盖度反演的最优植被指数,NDVI次之,TSAVI与ATSAVI较差;与NDVI指数相比,PVI指数能够较好地抵抗土壤噪声的影响,对不同植被类型的敏感性较高,更适用于植被覆盖度较低的黄土高原。[结论]自动提取算法对延河流域土壤线的提取较为适用,所得参数适合于计算土壤调节植被指数。     

延安研究区主要自然植被类型土壤水分特征初探

系统地研究延安研究区的天然植被土壤水分对于认识植被建设的环境具有重要意义,研究结果表明水分条件可以保证植被的正向演替和群落的稳定,虽然在天然植被中也存在土壤低含水层(土壤干层) ,但这是一种正常的自然现象,而且,对植被的自然更新、演替和形成稳定群落没有根本性的影响。文中给出了延安研究区主要植物群落类型土壤水分的适宜范围     

湘中紫色丘陵区不同植被类型根际与非根际土壤理化特征

[目的]探索湘中紫色丘陵区不同植被类型根际与非根际土壤的理化特征,为湘中地区生态修复提供理论依据。[方法]以典型抽样方法调查湘中丘陵区草丛(G)、草灌(GS)、灌木(S)和乔灌(AS)4种典型植被,研究其根际与非根际土壤理化性质的差异,通过典型相关分析揭示根际与非根际土壤理化指标间的耦合关系。[结果]研究区草丛和灌木根际土壤中细砂粒(0.25~0.05mm)含量分别显著(p0.05)低于乔灌63.84%和76.97%;粉粒(0.02~0.002mm)含量表现为草和灌木分别显著高于乔灌的38.48%和37.66%。根际土壤0.25~0.05mm微团聚体含量均表现为乔灌高于其他植被,0.02~0.002mm微团聚体含量均表现为灌木高于其他植被。草灌与灌木非根际土壤有机质含量显著(p0.05)低于根际土壤148.05%和121.92%,灌木和草灌根际土壤有机质含量显著(p0.05)高于乔灌土壤84.28%和92.08%;草灌根际土壤全氮含量显著(p0.05)高于非根际土壤83.33%,草灌根际土壤碱解氮含量显著(p0.05)高于乔灌土壤200.83%;不同植被类型根际/非根际土壤磷含量差异不明显,总体来看,同一植被根际土壤全磷含量低于非根际土壤,而有效磷表现为乔灌最低;乔灌根际土壤速效钾含量分别显著(p0.05)低于草丛和草灌土壤125.15%和137.71%,除草灌外,其余植被类型根际土壤全钾含量均低于非根际土壤。典范相关分析表明土壤有机质和全量养分含量,2~1,1~0.5,0.25~0.05mm土粒含量,2~1,1~0.5mm团聚体3组理化性状间相互关系密切。[结论]改善土壤理化性质,促进湘中丘陵地区生态恢复,应注重协调土壤养分、颗粒组成及团聚体之间的耦合关系。     

河沟流域土壤水分空间变化及植被分布与生物量研究

 以河沟流域土壤含水量测定和植被调查为基础,综合分析了不同地貌与土地利用类型的土壤水分空间变化,以及植被群落、植物种分布和生物量的变化。认为:黄土残塬从塬中、塬坡、沟坡到沟底,土壤水分呈有规律的变化,从塬中到沟坡中上部,土壤含水量呈递减趋势,坡麓及沟底土壤含水量则最高,而阴坡土壤含水量明显高于阳坡;农耕地土壤含水量高于草地,林地含水量最低;植被分布和生物量,与土壤水分的空间分布有着密切的关系,基本呈正相关;植物对不同地貌部位的适应性不同,从而决定了植物分布与生长。通过综合分析,提出不同地貌部位植物的适应性评价表,为人工恢复植被的植物种选择提供参考,为流域治理和水土保持提供科学依据。     

土壤种子库研究进展

在浏览国内外大量文献的基础上,从土壤种子库研究意义、国内外研究现状和目前研究的热点问题等方面论述土壤种子库的研究进展。针对目前土壤种子库研究的热点问题,主要从土壤种子库的分类、种子质量和种子休眠之间的关系、种子库的水平分布及种子库与地上植被的关系等方面进行讨论,指出其在遗传结构和扩散等研究内容及方法方面所存在的问题,并提出了相应的建议。     

不同植被和土壤类型下土壤水分剖面的分异

为研究不同土壤类型下土壤水分的垂直分布特征及变异情况,在位于黄土高原水蚀风湿交错带的六道沟小流域选取坝淤土、黄绵土和风沙土3种土壤类型为研究对象,测定了0-600cm土壤水分含量,利用经典统计学方法进行分析。结果表明：坝淤土土壤水分剖面呈有规律的波动型变化,黄绵土剖面土壤水分基本呈微弱的波动型变化,风沙土土壤水分剖面变化类型属于降低型;植被覆盖为柠条或小叶杨时,不同土壤类型对0-100cm间土壤水分含量影响不明显,而对100-600cm土壤水分含量影响显著（P〈0.05）;柠条覆盖下0-600cm平均土壤水分均呈现：黄绵土〉坝淤土〉风沙土,小叶杨覆盖下0-600cm平均土壤水分均呈现：风沙土〉坝淤土〉黄绵土;对3种土壤类型而言,同一土壤类型下植被类型的不同主要对深层土壤水分的垂直分布产生影响,总体上,农地和草地下的土壤水分状况好于灌木和乔木。这对于指导干旱区农业生产以及植被恢复中水分的合理调控具有积极的意义。     

基于组分区分的南方红壤丘陵土壤呼吸对植被类型转换的响应

土壤呼吸是陆地生态系统碳循环的重要环节之一。长时期的水土保持生态建设导致南方红壤丘陵区植被类型转换非常普遍。探讨植被转换对土壤呼吸及其关键组分的影响,不仅对深入了解土壤呼吸与碳循环的内在机制有着重要的理论价值,还可以为科学评价水土保持生态建设在应对气候变化方面的作用提供科学依据。依托江西水土保持生态科技园对侵蚀退化裸地及其恢复承建后的百喜草地、柑橘果园和湿地松人工林进行了一年尺度的土壤呼吸速率监测。结果表明,土壤呼吸速率月变化呈夏高冬低的曲线模式,最大值出现在8月份或9月份,最小值出现在1月份,植被转换没有改变土壤呼吸的季节变化模式。土壤呼吸速率的季节变化主要受浅层土壤温度的控制,与土壤含水率没有显著关系,5 cm深度土壤温度能解释总呼吸速率和异养呼吸速率季节变异的83.3%和86.0%。随着植被类型由裸地向草地、果园和林地转换,土壤呼吸的温度敏感性系数Q10值由1.86增大到2.20、2.72和2.75,即土壤呼吸对土壤温度的变化越来越敏感。异养呼吸占土壤总呼吸的比例呈现出单峰曲线模式,平均达到72.3%,且随土壤呼吸速率的增大而增大。南方红壤丘陵区侵蚀裸地向人工草地、果园和湿地松人工林转换的过程中土壤呼吸速率有所增强,草地与裸地之间土壤总呼吸速率存在显著性差异,草地与裸地、草地与林地之间土壤异养呼吸速率差异显著。在区域或生态系统尺度上,植被类型是土壤呼吸的重要影响因子。     

Soils and Native Vegetation in a Hilly and Mountainous Area in Central Greece

Soils and native vegetation were investigated in 24 sites in the hilly and mountainous province of Elassona, central Greece. Most soils consist of coarse alluvial material that originated from the weathering of hard limestone or schist. Mostly are acidic, and the coarse texture enhances the leaching of exchangeable cations. Mean soil organic matter is greater than values recorded in the lowlands. Low content of available phosphorous (P) was observed in certain soils, and this may be attributed either to P fixation in the clay minerals or to parent material. Copper (Cu) content was low in 11 samples, and the content of exchangeable calcium (Ca⁺⁺) was lower than the critical level in two thirds of samples. Similarly, low values were recorded for exchangeable magnesium (Mg⁺⁺) and potassium (K⁺). Results from annual plants have shown low nitrogen (N) content and partial deficiency in Ca, K, and Mg, which reflects the particular soil and climatic conditions. Furthermore, in certain samples Cu, manganese (Mn), and zinc (Zn) were found at deficiency levels. Samples from perennial plants were selected from sites where vegetation was degraded. Results revealed nitrogen (N), Mn, and Cu deficiency, and the values for micronutrients iron (Fe), Zn, and boron (B) were greater than critical levels. Practices and measures are suggested to improve soils and to restore the degraded vegetation, such as application of lime material in the acidic soil for correction of pH, rational water management, cultivation of crops with low water requirements, banning of overgrazing in areas vulnerable to erosion, winter cover of slopes with pasture and fodder crops, establishment of permanent shrubs, reforestation of certain hilly and mountainous areas, and training of farmers. Findings of this study can assist local authorities in managing natural resources in a more rational and sustainable manner. Establishment of pasturelands in combination with rational grazing management should be of high priority to sustain livestock production.     

盐咸化输油管堤土壤侵蚀的防治研究

穿越荒原上的输油管堤，多为盐碱化的光堤或少草堤，每年雨季管堤的土壤大量流失。成为管道正常运营的重要问题之一。通过室内外实验观测，分析了盐咸化光堤的形成和土壤侵蚀的机理，提出了轻中度盐碱化管堤恢复植被的方法，分析了严重盐碱化光堤采用水泥砌的可行性 工程造价不到浆砌石护砌的可行性；其工程造价不到浆砌石护砌的1／5。为盐碱化管堤的防护，提供了新的途径。     

北京大兴区人工植被恢复过程土壤水分——物理特性变化研究

以北京大兴地区4种人工林为研究对象,分析测定了林地0～100 cm土层土壤水分、土壤机械组成、土壤容重和孔隙等指标。结果表明,随着林分年龄的增长,土壤水分——物理特性得到改善。具体表现为,①土壤含水量增加,土壤水分状况改善程度大小与树种有关。②土壤机械组成中粉沙和黏粒的含量增多,中粗砂含量降低。③土壤容重值减小,土壤总孔隙度增大。