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1.
Humic acid, the principal component of soil organic matter, contains the surface active substances peptizable with alkali and non-lixiviable with benzene, ethanol and benzene-ethanol mixture. The surface tension of the decantate of suspension is below that of pure water being a few (< 10) erg cm?2 before peptization, and up to 30 erg cm?2 after peptization. According to the surface tension values of the decantates of suspensions, the soils can be in the following order: non-lixiviated < lixiviated with benzene < lixiviated with ethanol < lixiviated with benzene-ethanol mixture. 相似文献
2.
J. Richter 《植物养料与土壤学杂志》1972,131(3):254-261
Soil-water-potentials depending on temperature The soil-water-potential · of different soils has been measured in dependence of temperature. Between about — 0.2 · 106 and — 0.7 · 106 erg cm?3 (corresponding to a pressure head of 2 resp. 7 m water) all soils show a significant dependence of the soil-water-potential on temperature always in connection with hysteresis phenomena. With soils rich in clay or sand the dependence is most pronounced. At very high suction values (< — 0.7 · 106 erg cm?3) the dependence becomes small. Thus the measurements agree well with psychrometric evaluations of Campbell and Gardner (1971) on the no-temperature-dependence of the soil-water-potential in the range of about — 3 ·106 to — 20 ± 106 erg cm?3. 相似文献
3.
基因组学在作物抗逆性研究中的新进展 总被引:4,自引:0,他引:4
自然环境中各种生物和非生物胁迫是影响作物产量的巨大威胁。随着现代分子生物学的发展,从分子水平研究作物抵御逆境的机理已成为生态农业研究的一个重要任务,分子遗传学与生态学的整合诞生了生态基因组学即用基因组学的技术和手段研究生态学领域的问题。基因组学按其研究内容分为功能基因组学、结构基因组学和比较基因组学,本文从这3方面分别阐述了作物抵抗生物胁迫和非生物胁迫的生态基因组学研究进展,总结了基因组学在植物抗逆性研究中的一些新技术和新手段,特别是基于近几年发展起来的二代深度测序所带来的一系列高通量的检测方法与结果。①功能基因组学包含转录组学、表观遗传学、蛋白组学、相互作用组学、代谢组学和表型组学,本文侧重从植物抗逆的功能基因表达水平上的研究展开,重点探讨了转录组学和表观遗传学在植物抗逆研究的新进展,介绍了一些转录组学和表观遗传学研究技术,如基因芯片技术、RNA测序技术、SAGE、cDNA-AFLP、SSH、亚硫酸盐法、ChIP-Chip、ChIP-seq等;例举了一些转录因子基因家族在植物抗逆反应中的作用,总结其作用共性,结果表明不少抗逆基因受到胁迫后基因转录激活上有一定相关性,大多受激素信号转导途径所调控,很多抗逆途径最终都涉及到ABA信号传导通路并与衰老相关;植物的抗逆性受多个信号通路调控,对同一逆境响应常常需要不同的转录因子共同参与,而同一转录因子也有可能参与2个以上的不同抗逆反应;表观遗传学则指在不改变基因序列前提下,对DNA甲基化修饰、组蛋白翻译后修饰及小RNA介导的信号传导等,有证据表明其存在遗传印记作用。②结构基因组学主要利用QTL定位和DNA测序技术,确定植物基因组的遗传图谱和物理图谱,二代深度测序平台的建立使许多植物的全基因组测序成为可能。迄今为止,已有超过40种植物完成全基因组测序,越来越多的植物全基因组计划正在实施中或预计实施。③比较基因组学是基于功能基因组学和结构基因组学进而比较不同物种或不同群体间的基因组差异和相关性的研究,可分析逆境响应相关基因在进化过程中及在地理位置分布中的作用和意义,也同时为QTL定位及功能基因组学研究提供丰富信息。此外,还简要介绍并列举了一些网络共享作物抗逆的生物信息资源数据库。虽然基因组学在如何正确处理海量数据等问题上还存在瓶颈,但它提供的大量作物抗逆方面的基因组信息已为植物抗逆研究提供了众多线索与依据,为今后改良作物抗逆性的遗传育种工作带来了新启示。 相似文献
4.
长期施磷稻田土壤磷素累积及其潜在环境风险 总被引:8,自引:1,他引:7
应用常规化学分析法和数学统计方法,基于太湖地区13年的长期定位试验,研究长期不同施磷水平下[0(不施磷)、30 kg.hm 2.a 1(低磷)、60 kg.hm 2.a 1(适磷)、90 kg.hm 2.a 1(高磷)]稻麦轮作系统稻田土壤磷素累积规律及磷素流失引发的环境风险。在本试验区土壤环境条件下,可能发生稻田磷素淋溶及径流的土壤耕层(0~15 cm)Olsen-P临界值分别为26.0 mg.kg 1和24.8 mg.kg 1。连续13年适磷、高磷施肥,土壤耕层Olsen-P含量分别达到26.9 mg.kg 1和33.2 mg.kg 1,均高于临界值浓度,且已导致稻田田面水与30 cm渗漏水中总磷浓度显著升高,大大提高了稻田磷素淋溶及径流的风险。低磷施肥土壤Olsen-P长期稳定在(10.1±2.0)mg.kg 1水平,并且每年的稻麦产量与高磷、适磷处理相比并无显著差异,而长期低磷施肥土壤磷的流失风险也较小。因此,在太湖地区稻麦轮作体系下,磷肥不宜以常规适磷水平长期施用,建议以低磷水平(30 kg.hm 2.a 1)长期施用或以适磷水平(60 kg.hm 2.a 1)间歇式施用。 相似文献
5.
《Communications in Soil Science and Plant Analysis》2012,43(1-2):73-87
Abstract A long‐term soil incubation and column nutrient leaching study was conducted to determine nitrogen (N)‐mineralization rates of selected Florida Histosols with drained and intermittent‐flooded conditions. Five surface soils from the Everglades Agricultural Area (EAA) were packed in columns (5‐cm i.d. containing the 0‐ to 15‐cm depth of each soil) and leached with 0.01M CaC12 followed by distilled water every 25 d for 1 yr. Drained columns were treated with a minus‐nitrogen‐phosphorus (NP) solution followed by applying ‐0.97 MPa tension to remove excess solution. Flooded columns received the same minus‐NP solution, but were flooded to a depth of 3 cm. Both treatments were incubated for 25‐d periods, solution sampled, and treatments reapplied. Because flooding conditions could not be maintained during the sampling period, this treatment is referred to as intermittent flooded. The ammonium‐nitrogen (NH4 +‐N) released from drained soils accounted for less than 6% of the total soluble N released from all soils, compared to more than 30% released from flooded soils. There were no differences in the amounts of soluble organic N from drained and intermittent flooded soils. Total soluble N from the surface 15‐cm of drained soils ranged from 217 to 509 kg‐ha‐1yr‐1, with 50 to 67% released as nitrate‐nitrogen (NO3 ‐‐N). In contrast, total soluble N released from flooded soils ranged from 168 to 345 kg‐ha‐1yr‐1, with less than 3% released as NO3 ‐‐N. 相似文献
6.
The water relations of the soils of the Niger-Anambra Floodplains of Southeastern Nigeria were investigated. Steady state infiltration capacities ranged from 56 mm h−1 to 1000 mm h−1. A scheme for grouping the soils into relative infiltration classes was suggested. Saturated hydraulic conductivities of the subsoils were generally less than 0.11 cm h−1. Water retention curves showed gradual water release and an average of 41% saturation water content at 15-bar tension. Calculations indicated available water capacity of up to 29.4 cm of water per metre of soil. The soil water relations were explained by clay texture which had, characteristically, many fine pores. Very little water was lost between saturation and a low tension of, say, 0.01 bar. There were, therefore, few macropores in terms of volume. Suitable crops, as well as soil management practices for the area were suggested on the basis of the soil properties. 相似文献
7.
柴达木盆地弃耕地成因及其土壤盐渍地球化学特征 总被引:7,自引:0,他引:7
柴达木盆地弃耕地土壤pH值一般都在 8左右 ,属于碱性土壤。土壤含盐量较高 ,其全盐量随着土层深度的增大而减少。 0~ 10cm土层中的含盐量最大 ,一般在 1~ 45gkg- 1之间。弃耕地土壤阳离子主要以K 、Na 、Mg2 、Ca2 为主 ,各阴离子在三层土体中的含量为Cl- >SO2 -4>HCO-3 >CO2 -3 。经相关分析表明 ,弃耕地土壤全盐量与Cl- 呈极显著的正相关 (p <0 0 1) ,其次为Mg2 和Ca2 (p <0 0 5) ,而与HCO-3 呈负相关 ;Cl- 与Mg2 和Ca2 呈极显著的正相关 (p <0 0 1) ,与CO2 -3 和SO2 -4呈弱的正相关 ,而与HCO-3 呈负相关 ;从而进一步说明 ,柴达木盆地弃耕地土壤为氯化物盐化土。柴达木盆地弃耕地土壤中有机质含量较少 ,0~ 3 0cm土层中有机质平均含量为 11 46gkg- 1;全氮、全磷的含量极低 ,全钾的含量较为丰富。示范试验结果分析认为 ,柴达木盆地荒漠绿洲土地退化及土壤盐碱化的发生与当地自然条件和人为不合理利用等因素有紧密的联系 相似文献
8.
Jrg Bachmann Gilboa Arye Markus Deurer Susanne&#x;K. Woche Robert Horton Karl‐Heinz Hartge Yona Chen 《植物养料与土壤学杂志》2006,169(6):745-753
Wettability of soil affects a wide variety of processes in soils like infiltration, percolation, preferential flow, and surface runoff. Even though efforts have been made to determine contact angles and surface tension or energy of smooth surfaces, the determination on granular materials like soil particles remains unsolved. One objective of this study was to test the consistency of contact angles (CA) measured with the newly modified and easy‐to‐apply Wilhelmy plate method by using solid particles and liquids with defined variations of surface tension. A second objective was to derive basic physical surface properties for the irregularly shaped and chemically heterogeneous soil particles. Advancing contact angles were determined by using model soils varying in texture from clay to coarse sand to check the impact of grain size on the CA measurements. Varying the solid‐surface tension with dichlorodimethlylsilane treatments provided for pure‐water wetting stages ranging from wettable to extremely hydrophobic. The surface tensions of the liquids were varied from 72 mN m–1 to 25 mN m–1 by using water or water‐ethanol mixtures. The surface tensions of the model soils were determined with the zero degree–contact angle method following Zisman's critical–surface tension concept. Results show that the measured CA varied continuously with the variations of the surface tension of the liquid and the solid phase, respectively. A general interpretation of the results is possible by using the concept of the Equation of State Approach. 相似文献
9.
Effects of charcoal production on soil physical properties in Ghana 总被引:15,自引:0,他引:15
Philip G. Oguntunde Babatunde J. Abiodun Ayodele E. Ajayi Nick van de Giesen 《植物养料与土壤学杂志》2008,171(4):591-596
Charcoal production, widespread in Ghana like in other W African countries, is a major driver of land‐cover change. Effects of charcoal production on soil physical, including hydrological, properties, were studied in the forest–savannah transition zone of Ghana. Core and composite samples from 12 randomly selected sites across the width of Kotokosu watershed were taken from 0–10 cm layer at charcoal‐site soils and adjacent field soils (control). These were used to determine saturated hydraulic conductivity (Ksat), bulk density, total porosity, soil texture, and color. Infiltration rates, surface albedo, and soil‐surface temperature were also measured on both sites. The results showed that the saturated hydraulic conductivity of soils under charcoal kilns increased significantly (p < 0.01) from 6.1 ± 2.0 cm h–1 to 11.4 ± 5.0 cm h–1, resulting to a relative increase of 88%. Soil color became darkened under charcoal kilns with hue, value, and chroma decreasing by 8%, 20%, and 20%, respectively. Bulk density on charcoal‐site soils reduced by 9% compared to adjacent field soils. Total porosity increased from 45.7% on adjacent field soils to 50.6% on earth kilns. Surface albedo reduced by 37% on charcoal‐site soils while soil‐surface temperature increased up to 4°C on average. Higher infiltration rates were measured on charcoal‐site soils, which suggest a possible decrease in overland flow and less erosion on those kiln sites. 相似文献
10.
The saturated hydraulic conductivities (Ksat) of 22 spodic horizons with and without a thin iron pan, were measured in situ with a new technique, using large, carved-out columns, encased in gypsum. Measured infiltration rates and pressure heads above and below the spodic horizons allowed calculation of Ksat, which averaged 8 cm d?1. Flow rates averaged 32 cm d?1, however, due to a hydraulic head gradient across the spodic horizon of 4 cm cm?1. Occurrence of a thin iron pan in the spodic horizon did not affect its Ksat-value. The measured high flow rates exclude the occurrence of perched watertables. Lateral flow of water, forming surface ponds in local depressions, was due to surface runoff, rather than to lateral movement of perched water: surface ponding of water occurred also in soils in which the spodic horizon had been mixed by tillage. 相似文献
11.
G. K. Ganjegunte C. L. Trostle R. J. Braun 《Land Degradation \u0026amp; Development》2011,22(4):410-424
Development of alternative sources through wastewater reuse is important to meet water demands in arid regions. However, effects of wastewater irrigation on soil properties and crop performance must be evaluated before advocating its widespread use. Objectives of this study were to evaluate: (i) effects of prior evaporative disposal of saline‐sodic blowdown water (BW) on soil (fine‐loamy, mixed, and thermic Typic Calciorthods) properties in the disposal area, and (ii) effects of flood irrigation with three water qualities (control, BW 1X, and BW 2X) on soil salinity and alfalfa performance using a greenhouse soil column study (soil collected from same study area as objective (i)). Results indicated that although prior land disposal of BW had increased salinity and sodicity of soil, they were within the tolerance limits of the intended crop, alfalfa. Mass balance calculations indicated measured (15·6 Mg ha−1) and calculated (13·2 Mg ha−1) salt accumulation at the test site used for evaporative disposal were similar. Alfalfa grown using BW under greenhouse conditions produced prime quality hay and biomass yield similar to the control treatment (8·3 g column−1 vs. 10·5 g column−1 in control). Although 3·6 years equivalent of flood irrigation with BW 1X did not result in saline soil (BW 1X irrigated soils EC ranged from 2·2 to 3·5 dS m−1), BW 2X irrigation resulted in saline soils. Sodicities of irrigated soils were greater in fine textured deep soils than coarse textured surface soils (e.g., SAR of 6·1 at 0–5 cm vs. 19·5 mmol1/2 L−1/2 at 30–60 cm in BW 1X), indicating the need for high solubility Ca amendments for long‐term irrigation with BW on fine texture soils within the soil profile. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
12.
水肥减量对日光温室土壤水分状况及番茄产量和品质的影响 总被引:11,自引:2,他引:9
【目的】水肥一体化技术为改变我国长期以来设施栽培蔬菜"大水大肥"的传统管理方式,实现资源节约、环境友好发展提供了硬件物质基础和载体,但我国不同地区农业生产条件差异较大,适合当地土壤、气候、作物和栽培季节等特点的水肥一体化灌溉制度和施肥量相对缺乏。本文在陕西关中地区研究了水肥一体化条件下不同水肥处理对土壤水分状况及秋冬茬番茄养分吸收和产量等的影响,旨在制定适宜当地日光温室栽培番茄的科学合理的灌溉施肥制度。【方法】田间试验设常规水肥处理(CK)、植苗后水肥一体化灌水追肥期水肥分别减量20%(S1)及40%(S2)3个处理,其中常规处理灌水量为当季作物冠层水面蒸发量(100%ET),追肥量为当地农户的平均用量;水肥一体化为膜下滴灌+文丘里施肥系统。采用自动连续数采张力计(英国Skye Data Hog2)测定蔬菜生长期间各处理0—20 cm和20—50 cm土层土壤水势,并建立对应的土壤水分特征曲线,将土壤水势动态变化转换为土壤含水率动态变化;用直径20 cm蒸发皿测定当季番茄冠层的水面蒸发量,分析冠层水面蒸发量与土壤有效贮水量损失的关系;测定了不同水肥处理对番茄根、茎、叶、果实生物量及氮、磷、钾吸收量与产量和品质的影响。【结果】1)不同处理番茄生育期内0—50 cm土壤相对含水率均在75%以上,土壤水分供应充足。常规水肥处理灌水后0—20 cm土壤含水率达到或超过田间持水量,20—50 cm土层均超过田间持水量,表明土壤水分可下渗到50 cm以下,进而发生土壤养分的淋溶问题。追施期水肥减量40%处理的土壤水分大部分处在75%~85%的适宜值范围。2)随灌水量的减少,0—50 cm土壤有效贮水量损失降低,平均为番茄冠层水面蒸发量的65.4%,与追肥期水肥减量40%处理的灌水量相近。3)不同水肥处理番茄干物质累积、养分携出量、番茄产量、品质均无显著性差异,而灌水利用率从常规水肥处理的55.1 kg/m3提高到83.2 kg/m3,差异达极显著水平。【结论】从0—50 cm土壤水分状况、土壤有效贮水量损失及番茄冠层水面蒸发关系看,温室全覆膜滴灌条件下,当地适宜灌溉定额为作物冠层水面蒸发量的65%左右。根据番茄生育期内不同水肥处理对土壤水分状况、番茄养分吸收、产量及品质和灌水利用效率的影响,制定出适宜当地秋冬茬番茄的合理灌溉制度为:全生育期总灌溉定额为1057 m3/hm2,8~12月对应的灌水定额分别为168、169、132、105及50 m3/hm2,8~11月灌水周期分别为20~30 d、8~13 d、8~13 d和20~30d,12月份依天气少量补水或不灌水,1月份无需灌水。 相似文献
13.
钢铁工业区降尘对周边土壤的影响 总被引:5,自引:1,他引:5
分别在南京的两个钢铁厂收集降尘并采集周边表土,并用ICP-AES和磁化率仪分析得到16种元素含量和表土、地面尘的磁化率。结果表明,两个钢铁工业区的大气降尘的年沉降通量分别为190t km-2a-1和407 t km-2a-1,这可能会影响着周边地区土壤的形成;Al、K、Na、Ti、V在降尘中的含量显著低于表土,而Ca,Fe,Zn,Mn,Pb,Cu在降尘中含量要显著高于表土;表土的磁化率除水田外均大于100×10-8m3kg-1,并且地面尘的磁化率要远远高于表土的磁化率。研究表明,钢铁工业区降尘对其周边土壤中污染元素的积累有明显影响,突出地表现在土壤表层重金属含量升高,而磁化率可以很好地表征这种表聚的特点。 相似文献
14.
The study was carried out in sodic lands of Sultanpur District, Uttar Pradesh, India. The barren soils and the soils supporting 3‐, 6‐ and 9‐year‐old plantations of Prosopis juliflora (Swartz) D.C. and Dalbergia sissoo Roxb. Ex. D.C. plantations were examined to assess the rate and extent of changes undergone by physical and chemical properties of the soil. The study brought out that these species indicated the process of soil rehabilitation from the early stages of growth and the extent of rehabilitation increased with the age of the plantation. P. juliflora was found to be more efficient in reclaiming the soil in comparison to D. sissoo. The decline in soil pH and exchangeable sodium percentage (ESP) indicates the desodification and enrichment with organic C, N, P and K indicates improvement in nutrient status of the soil. After 9 years of planting the surface soil was completely desodified as indicated by pH (<8ċ5), ESP (<15) and sodium adsorption ration (<15). A significant increase in organic C, exchangeable Ca2+ and Mg2+ and decrease in exchangeable Na+ reveals that the nutrient status is attaining suitable balance. The physical attributes of the soil also underwent improvement in terms of increase in porosity, water‐holding capacity, field capacity and decline in bulk density. The flocculation of dispersed soil surface and improvement in soil structure was indicated by increased infiltration rate (cm h−1) and soil permeability (cm2). Copyright © 2003 John Wiley & Sons, Ltd. 相似文献
15.
Two sets of column (70 cm)-leaching experiments were carried out by using pyritic marine sediments of Kojima lake (Okayama, Japan) to evaluate the influence of soil microorganisms (SMO), duration of oxidation, intensity of rainfall, and groundwater level on the changes in soil pH and dynamics of associated elements. The soil contained 6.5 g kg-1 pyrite, 43 g kg-1 organic carbon, and had a pH value of 8.0 determined by the sticky point method. The pH of the non-sterile soils (with SMO=set I) showed an acidic range (pH <6.5) after 2 weeks of incubation. A pronounced decrease of the pH (3–4) was detected during the 32-week period of incubation, while a more alkaline range of pH (>8.5) was recorded at the lower depths (40–50 cm) with the passage of time in most of the soils initially sterilized (without SMO=set II). When the water (25±2% air v.) content was about 200%, the pH of the non-sterile soils was less than 6 after 16 weeks of incubation, while for the same water content at 32 weeks after incubation, the pH of the soils was about 1 unit lower than that of the 16 weeks after incubation. However, the pH in sterilized soils was less than 6 after 32 weeks of incubation for a water content of about 150% (40±2% air v.), whereas, at such (40±2% air v.) levels of water or oxygenation, the pH of the soils decreased to about 3 in all the treatments with SMO. Application of rainfall and changes in the groundwater significantly (p≤0.01) enhanced the development of acidity in the top soils (0–15 cm) through leaching losses of Ca2+ and Mg2+, and led to a substantial increase of the amounts of water-extractable Fe3+ and A13+, indicating that the soils may have become permanently acidic through leaching. 相似文献
16.
Since about 25 years, we have measured the unsaturated hydraulic conductivity function and water retention curve with the evaporation method of more than 1500 mineral and organic soils samples. From this data base, 104 representative samples of varying texture and dry bulk density were selected and the temporal dynamics of the basic measured values (mass or water loss, respectively, and tension change over time) was analyzed. With the exception of sand, water loss per time interval was constant in all other mineral and organic soils during the measuring time in the tension range between 0 and about 60 kPa. In sands, the nonlinear water loss over time by evaporation can be described by a quadratic function with high accuracy (r2 > 0.99). For all other soils, a linear function is sufficient (r2 > 0.99). The use of evaporation functions enables extending weighing intervals. This reduces costs for the measuring equipment and increases the effectiveness of the method while maintaining the same quality of unsaturated hydraulic conductivity and water retention functions. It was confirmed that measuring with two tensiometers is sufficient for accurate hydraulic conductivity and water retention function. Reducing evaporation by screening the sample surface helps to decrease hydraulic gradients and keeps tension distributions approximately linear with depth. This is recommended in particular for clayey soils. 相似文献
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Effect of water tension on ethylene production and consumption in montane and lowland soils in Austria 总被引:8,自引:0,他引:8
The trace gas ethylene affects plant growth and atmospheric chemistry and it interferes with soil restoration. In soil ethylene is simultaneously produced and consumed by different microorganisms. The effects of land use and soil moisture conditions on processes leading to an accumulation of ethylene are still unclear. We measured the rates at which montane and lowland soils from Austria produced and consumed ethylene over a range of water tensions and oxygen supply. Complete anaerobiosis (waterlogging, zero tension) favoured ethylene production, whereas ethylene degradation rates were greatest in soils at 30 kPa water tension. Soils from the lowland region of eastern Austria produced ethylene at rates of up to 12 pmol C2H4 g–1 h–1 under anaerobic conditions, and they consumed ethylene at rates reaching 231 pmol C2H4 g–1 h–1, after addition of 20 μl l–1 ethylene. Deciduous forest soils consumed ethylene fastest. Ethylene formed rapidly and was also consumed rapidly in soils rich in humus and total nitrogen. Soils taken from the mountains both produced and consumed ethylene more rapidly than lowland soils did. Production rates reached 146 pmol C2H4 g–1 h–1 under anaerobic conditions. Spruce forest soils produced significantly more ethylene than pastures. Ethylene formation was negatively correlated with soil pH. In montane soils ethylene production was related to the availability of simple carbon sources, expressed by the amount of extractable glucose equivalents. Maximum ethylene degradation amounted to 895 pmol g–1 h–1. Most of the soils were net sinks for ethylene at a water tension of 30 kPa and drier. 相似文献
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Radionuclide fallout during nuclear accidents on the land may impair the atmosphere, contaminate farmland soils and crops, and can even reach the groundwater. Previous research focused on the field distribution of deposited radionuclides in farmland soils, but details of the amounts of radionuclides in the plough layer and the changes in their proportional distribution in the soil profile with time are still inadequate. In this study, a lysimeter experiment was conducted to determine the vertical migration of 137Cs and 60Co in brown and aeolian sandy soils, collected from the farmlands adjoining Shidaowan Nuclear Power Plant(NPP) in eastern China, and to identify the factors influencing their migration depths in soil. At the end of the experiment(800 d), >96% of added 137Cs and 60Co were retained in the top 0–20 cm soil layer of both soils;very little 137Cs or 60Co initially migrated to 20–30 cm, but their amounts at this depth increased with time. The migration depth of 137Cs was greater in the aeolian sandy soil than in the brown soil during 0–577 d, but at the end of the experiment, 137Cs migrated to the same depth(25 cm) in both soils. Three phases on the vertical migration rate(v) of 60Co in the aeolian sandy soil can be identified: an initial rapid movement(0–355 d, v = 219 ± 17 mm year-1), followed by a steady movement(355–577 d, v = 150 ± 24 mm year-1) and a very slow movement(577–800 d, v = 107 ± 7 mm year-1). In contrast, its migration rate in the brown soil(v = 133 ± 17 mm year-1) was steady throughout the 800-d experimental period. The migration of both 137Cs and 60Co in the two soils appears to be regulated by soil clay and silt fractions that provide most of the soil surface area, soil organic carbon(SOC), and soil pH, which were manifested by the solid-liquid distribution coefficient of 137Cs and 60Co. The results of this study suggest that most 137Cs and 60Co remained within the top layer(0–20 cm depth) of farmland soils following a simulated NPP accident, and little reached the subsurface(20–30 cm depth). Fixation of radionuclides onto clay minerals may limit their migration in soil, but some could be laterally distributed by soil erosion and taken up by crops, and migrate into groundwater in a high water table level area after several decades.Remediation measures, therefore, should focus on reducing their impact on the farmland soils, crops, and water. 相似文献