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1.
华北地区微咸水应用对土壤水力传导性能的影响   总被引:1,自引:1,他引:0  
由于淡水资源短缺,中国华北地区微咸地下水灌溉面积逐年增多。该文通过室内土柱淋洗试验,研究了灌溉水盐分浓度和钠吸附比(SAR)对华北地区非碱土(可交换钠百分比ESP0)和碱土(ESP30)饱和水力传导性能的影响。灌溉水盐浓度分别为2.5、10和25mmolc/L,SAR分别为0、10和30(mmolc/L)0.5。去离子(盐浓度0)作为对照处理。试验包括2个土壤碱度、9个灌溉水质组合和1个去离子水处理,共20个试验处理。试验结果显示,非碱土和碱土对微咸水应用的反应机理以及反应程度不同。当黏粒弥散程度较弱时,上部土壤的饱和水力传导度显著大于下层土壤;反之,则各层土壤的水力传导度均较小。在试验水质条件下,非碱土的平均饱和水力传导度的变化范围为0.75~13.25cm/h,而碱土的变化范围为0.06~6.50cm/h。碱土的稳定饱和水力传导度随着灌溉水盐浓度的增加或/和SAR的减小而增大,但在非碱土中稳定饱和水力传导度的变化规律与此基本相反。试验结果对合理应用微咸水灌溉非碱土和碱土具有指导意义。  相似文献   

2.
Lysimeter experiments were conducted with sandy‐clay‐loam soil to study the efficiency of two amendments in reclaiming saline‐sodic soil using moderately saline and SAR (sodium‐adsorption ratio) irrigation water. Gypsum obtained from industrial phosphate by‐products and reagent grade Ca chloride were applied to packed soil columns and irrigated with moderately saline (ECe = 2.16 dS m–1), moderate‐SAR water (SAR = 4.8). Gypsum was mixed with soil prior to irrigation at application rates of 5, 10, 15, 20, 25, and 32 Mg ha–1, and Ca chloride was dissolved directly in leaching water at application rates of 4.25, 8.5, 12.75, 17.0, and 21.25 Mg ha–1, respectively. The highest application rate in both amendments resulted in 96% reduction of total Na in soil. The hydraulic conductivity (HC) of soils receiving gypsum increased in all treatments. The highest HC value of 6.8 mm h–1 was obtained in the highest application rate (32 Mg ha–1), whereas the lowest value of 5.2 mm h–1 was observed with the control treatment. Both amendments were efficient in reducing soil salinity and sodicity (exchangeable‐sodium percentage, ESP); however, Ca chloride was more effective than gypsum as a reclaiming material. Exchangeable Na and soluble salts were reduced with gypsum application by 82% and 96%, and by 86% and 93% with Ca chloride application, respectively. Exchangeable Ca increased with increasing amendment rate. Results of this study revealed that sodium was removed during cation‐exchange reactions mostly when the SAR of effluent water was at maximum with subsequent passage of 3 to 4 pore volumes. Gypsum efficiently reduced soil ESP, soil EC, leaching water, and costs, therefore, an application rate of 20 Mg ha–1 of gypsum with 3 to 4 pore volumes of leaching water is recommended for reclaiming the studied soil.  相似文献   

3.
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   

4.
Abstract

Trickle irrigation was evaluated in 2 seasons on sour cherry, plum, peach, and apple. Rates of water applied were 0, 1.9, 3.8, and 7.6 liters per hour (LPH) in 1975, and 0, 3.8, 7.6, and 15.2 LPH in 1976. Peach yields were increased both years. Apple yields were increased in 1976. Leaf content of Na, Ca, Mg, Mn, and Al in sour cherry; P, Cu, B, and Al in peach; and P, Na, Fe, Cu, and Al in plum was increased by irrigation.  相似文献   

5.
Abstract

Sodic water and spring water percolated through clay, clay loam, and sandy loam (SL) soils with exchangeable sodium percentages (ESPs) of 0, 10, 30, and 50. Reduction in saturated hydraulic conductivity and water stable aggregates recorded at higher ESPs. At ESP ≈30, application of sodic and spring water to clay soil (C) reduced saturated hydraulic conductivity from 1.2 to 3 mm hr?1, whereas in SL soil, the values were 2.8 and 6.2 mm hr?1, respectively. Results indicated that at any ESP and water source, the highest free swelling obtained was in the C soil. This study has practical importance to the management of irrigation water quality with respect to soil deterioration.  相似文献   

6.
Irrigation with treated wastewater (TWW) may affect soil structure and stability and the characteristics of dissolved organic matter (DOM) of the soil solution. The objectives of our study were (i) to evaluate the impact of TWW irrigation, as compared with fresh water (FW) irrigation, on aggregate stability and saturated hydraulic conductivity (indices of soil structure stability) and (ii) to determine whether these indices can be associated with the chromophoric indicators of water‐extractable DOM in TWW‐ and FW‐irrigated soils. We studied aggregate stability and soil hydraulic conductivity (HC) of four different soil types irrigated with either TWW (for at least 5 years) or FW. The results were linked to earlier published data on the concentration scores of fluorescent chromophoric DOM components (obtained from excitation‐emission matrices of flouorescence coupled with parallel factor analysis), dissolved organic carbon (DOC) concentration and absorbance at 254 nm (Abs254). These were all obtained from water extracts of the same soils as those used in the current study. Irrigation with TWW decreased aggregate stability, in comparison to irrigation with FW, in the sandy clay and clay soils, while in the loamy sand TWW increased aggregate stability. The apparent steady state HCs in the TWW‐irrigated samples in the loamy sand, sandy clay and clay soils were similar to, or significantly less than, those obtained in the FW‐irrigated samples. In the sandy loam the opposite trend was noted. Results of principal component and classification analyses showed that the aggregate stability indices were directly associated with soil organic matter and DOM attributes in the coarse‐textured soils, while in the fine‐textured soils inverse associations were noted. Only in the fine‐textured soils were the HC attributes associated (directly) with some of the DOM characteristics. Our results suggest that structural indices of fine‐textured soils are more sensitive than those of coarse‐textured soils to the composition of water extractable DOM.  相似文献   

7.
Abstract

Influence of long‐term sodic‐water (SW) irrigation with or without gypsum and organic amendments [green manure (GM), farmyard manure (FYM), and rice straw (RS)] on soil properties and nitrogen (N) mineralization kinetics was studied after 12 years of rice–wheat cropping in a sandy loam soil in northwest India. Long‐term SW irrigation increased soil pH, exchangeable sodium percentage (ESP), and sodium adsorption ratio (SAR) and decreased organic carbon (OC) and total N content. On the other hand, application of gypsum and organic amendments resulted in significant improvement in all these soil properties. Mineralization of soil N ranged from 54 to 111 mg N kg?1 soil in different treatments. Irrigation with SW depressed N mineralization. In SW‐irrigated plots, two flushes of N mineralization were observed; the first during 0 to 7 d and the second after 28 d. Amending SW irrigated plots with GM and FYM enhanced mineralization of soil N. Gypsum application along with SW irrigation reduced cumulative N mineralization at 56 days in RS‐amended plots but increased it under GM‐treated, FYM‐treated, or unamended plots. Nitrogen mineralization potential (No) ranged from 62 to 543 mg N kg?1 soil. In the first‐order zero‐order model (FOZO), the easily decomposable fraction ranged from 5.4 to 42 mg N kg?1 soil. Compared to the first‐order single compartment model, the FOZO model could better explain the variations in N mineralization in different treatments. Variations in No were influenced more by changes in pH, SAR, and ESP induced by long‐term SW irrigations and amendments rather than by soil OC.  相似文献   

8.
再生水灌溉对典型土壤盐分和离子浓度的影响   总被引:13,自引:2,他引:11  
为推动再生水安全灌溉,避免土壤盐渍化。该文研究了不同再生水灌溉年限对土壤盐分的影响。结果表明,不同再生水灌溉年限对各层土壤电导率、pH值无显著影响,而钠吸附比有所增加,但仍在适宜范围内。再生水灌溉后土壤中Na+、Mg2+、K+和Cl-含量总体呈现增加趋势,但在0~40 cm层位增加不显著,40~80 cm存在增加明显,土壤盐分在降水淋溶作用下具有向根系活动层以下迁移的趋势,华北地区气候条件下再生水灌溉引起耕层土壤盐分显著累积的风险较低。  相似文献   

9.
Abstract

Langbeinite is a soluble potassium‐magnesium sulfate mineral (K2SO42MgSO4) found as an evaporite in many regions of the world. Langbeinite was used as a reclaiming material in a fine textured (clay loam) saline sodic soil (Grabe Series). This amendment can be dissolved and directly into the irrigation water, displacing sodium (Na) quickly with minimal water use. This amendment was superior over gypsum as a reclaiming material for a saline sodic soil in batch, column, and greenhouse studies. Langbeinite required 50% less irrigation water than gypsum to displace and leach exchangeable Na from soils. Langbeinite improved the infiltration rates of saline sodic soils, but not as effectively as gypsum. Significant increases in germination percent dry matter production mass of lima bean (Phaseolus lunatus L.) plants were observed when using langbeinite over the gypsum soil amendment.  相似文献   

10.
Abstract

Heavy‐metal concentration in underground and surface water, soil, and crop plants growing in farmers' fields near the industrial city of Ludhiana, Punjab, India, that receive irrigation with water contaminated with sewer and untreated industrial effluents was studied. The concentrations of lead (Pb), chromium (Cr), cadmium (Cd), and nickel (Ni) in sewage‐contaminated water were 18, 80, 88, and 210 times higher than in shallow handpump water, and 21, 133, 700, and 2200 times higher than in deep tube‐well water, respectively. The concentrations of Cd and Ni in shallow handpump underground water were significantly higher than in deep tube‐well underground water. The concentrations of Pb, Cr, Cd, and Ni in deep tube‐well water were 0.017, 0.003, 0.0002, and 0.0002 mg L?1, respectively. Soils irrigated with sewage‐contaminated water had higher electrical conductivity, cation exchange capacity, organic carbon (C), and clay content but had lower pH and calcium carbonate content compared to soils irrigated with deep underground water. The concentrations of diethylenetriamine pentaacetic acid (DTPA)–extractable Pb, Cr, Cd, and Ni in soils irrigated with sewage‐contaminated water were 1.8, 35.5, 3.6, and 14.3 times higher, and total concentrations of these heavy metals were 1.5, 3.0, 3.7, and 2.2 times higher than that in soils irrigated with deep underground water. The mean concentrations of Pb, Cr, Cd, and Ni in crop plants growing on soils irrigated with sewage‐contaminated water were 4.88, 4.20, 0.29, and 3.99 mg kg?1, which were 1.2, 2.1, 8.7, and 1.9 times higher than in plants irrigated with deep tube‐well water, respectively. The amounts of potentially toxic metals were significantly and positively correlated with cation exchange capacity and organic C content and negatively correlated with soil pH. In conclusion, long‐term accumulation of toxic metals in soils and their uptake by crop plants has a high potential for phytotoxicity as well as for entering into the food chain. The findings also suggest contamination of underground shallow drinking water through leaching of some highly mobile metals.  相似文献   

11.
调亏灌溉对滴灌成龄香梨果树生长及果实产量的影响   总被引:11,自引:4,他引:7  
调亏灌溉对果树节水、提高果实产量和品质具有一定效果。2009-2010年,在新疆库尔勒巴州农业科学研究所进行试验,研究滴灌调亏时间及土壤水分亏缺程度对树龄24a的成龄库尔勒香梨果树生长及产量的影响。果实细胞分裂期、果实缓慢膨大期、果实细胞分裂期至缓慢膨大期,分别进行中度土壤水分亏缺与重度土壤水分亏缺灌溉。中度土壤水分亏缺的灌水量为美国A级蒸发皿蒸发量(Ep)的60%,重度土壤水分亏缺的灌水量为Ep的40%。其它时段灌水量与对照相同,为Ep的80%;对照处理整个生育期灌水量均为Ep的80%。灌溉周期为7d。结果表明,前2个生长阶段的调亏灌溉均抑制了香梨树的营养生长,提高了香梨果实产量和灌溉水利用效率。各调亏处理的夏季修剪量比对照减小了8.4%~43.2%。2a内,细胞分裂期重度调亏处理,产量分别比对照增加了15.5%和19.2%,较对照节水9.7%和8.1%;果实缓慢膨大期中度调亏处理,产量分别比对照增加了14.0%和18.0%,较对照节水13.2%和11.3%;果实细胞分裂期及果实缓慢膨大期的重度调亏处理,产量分别比对照减少了15.4%和13.2%,较对照节水34.7%和28.4%。调亏灌溉对香梨果实品质无显著影响。结果对成龄库尔勒香梨灌溉管理具有指导意义。  相似文献   

12.
水质和体积质量对碱土饱和导水率和盐分淋洗的影响   总被引:4,自引:1,他引:3  
迟春明  王志春 《土壤》2009,41(6):992-997
以松嫩平原典型碱土为研宄对象,采用承压水、潜水及蒸馏水模拟的雨水3种水源,分别在6种体积质量(容重)下测定了土壤饱和导水率和淋洗液的电导率及pH,分析了水质和体积质量对碱土饱和导水率和盐分淋洗的影响以及饱和导水率与淋洗液电导率和pH值间的关系.结果表明:碱土饱和导水率随测定用水电导率的增加而升高;采用承压水和潜水测定时,碱土饱和导水率随土壤体积质量的增加而降低;采用蒸馏水测定时,饱和导水率在1.08~1.33 g/cm~3体积质量范围内均为0.11mm/d,而当体积质量>1.42g/cm~3时,饱和导水率均为0 mm/d;淋洗液的电导率和pH值随着测定用水电导率的逐渐增加而不断降低;采用潜水和承压水测定时,淋洗液的电导率和pH值随体积质量的增加而升高,用蒸馏水测定时,淋洗液的电导率和pH值不随体积质量的变化而改变;淋洗液电导率和pH均随饱和导水率增加而降低,且二者与饱和导水率均呈指数关系,碱土饱和导水率越高其盐分淋洗效果越好.  相似文献   

13.
The utilization of treated paper mill effluents for irrigation offers many benefits such as conservation of water resources, conversion of barren land into irrigated area, addition of nutrients to the soil and plant and above all the reduction of pollution of inland water bodies. However, the utility of this effluent irrigation programme depends mainly on farmers' acceptability, adoption and management of the scheme. Knowledge about the farmers' perception is thus very much imperative for further advocacy of the effluent irrigation programme. The determinants of farmers' perception of treated paper mill effluent irrigation is a pre‐requisite for the formulation of better programmes and strategies for the support of an unobstructed adoption and for the long‐term sustainability of effluent irrigation schemes. The present study was conducted to assess the farmers' perception and the determinants that influence the adoption of treated paper mill effluent irrigation by interviewing a random sample of 120 farmers, using a well‐structured interview schedule in paper mill effluent irrigated area in Tamil Nadu in India. The study revealed that there exists positive significant correlation between the perception and the characteristics of the farmers viz. educational status, farm size, annual income, mass media exposure, innovativeness and risk orientation. The response analysis of the perception revealed that treated paper mill effluent as alternative assured supply of irrigation water, conversion of elevated dry lands to irrigated land, changing of cropping pattern to sugarcane, increase in socioeconomic status of the farmers, incentives and technical inputs by the paper mill authorities and above all farmers' participation in planning, implementation and management of the effluent irrigation schemes influenced the farmers to form positive perception. Copyright © 2010 John Wiley & Sons, Ltd.  相似文献   

14.
Where Vertisols are used for the mechanised production of irrigated cotton, the main pre-planting tillage options are ‘direct listing’ (a ‘controlled traffic-reduced tillage’ treatment with retained ridges), deep ripping (0.45 m deep) and chisel ploughing (0.25 m deep). An experiment was established, on a commercial scale under furrow irrigation, to compare the effects of these treatments on the physical properties (aeration, strength and water content) of a frequently irrigated Vertisol over 3 years. The growth and profitability of three cotton crops and one wheat crop were monitored during this period. The soil was well structured when the experiment commenced. Soil measurements showed that whilst the deep ripped treatment had lower resistance to penetration than the direct listed treatment, it provided a less favourable environment for root growth than the direct listed soil due to prolonged waterlogging after irrigation. An excess of water entered the ripped profile under the prevailing irrigation regime. All treatments had a sodic subsoil that was poorly drained. The chisel ploughed treatment generally behaved in a fashion that was intermediate between the direct listed and deep ripped treatments. The direct listed treatment resulted in higher cotton lint yields and lower land preparation costs, in comparison with deep ripping. Profitability increases were of the order of 11% when the lint value was 1.78 Australian dollars kg−1. The deep ripped soil had more stored water than the other treatments throughout each irrigation cycle, but this potential advantage could not be expressed in terms of better crop yield and improved water use efficiency. A supplementary experiment is needed to evaluate the three tillage options where irrigation water is applied less frequently.  相似文献   

15.
污水灌溉对土壤浸提液元素浓度变化影响的田间试验研究   总被引:5,自引:1,他引:4  
土壤化学元素的变化趋势关系到污水灌溉农业的可持续性。该文通过田间试验,研究了冬小麦和夏玉米轮作条件下2种灌溉水质和3种灌水量对土壤浸提液元素浓度变化的影响。试验结果表明:在自然降雨条件下,大水量污灌增加土壤盐分而中、小水量污灌则降低土壤盐分。试验用污水不会导致土壤的次生碱化。土壤中的Ca、Mg、Fe和Zn含量在试验期间增加而P、Mn、Cu、Cd和Ni减小。大水量污灌增加土壤中的Na和B含量而小水量污灌则降低其含量;K的变化趋势与其相反。污灌可补充土壤中的作物营养元素K和P,但降低污水灌水定额可有效抑制盐分、B和Zn在土壤以及重金属元素在作物中的累积。  相似文献   

16.
In order to utilize the wasted saline-sodic soils under shallow groundwater condition,a 3-year field study was carried in a field cropped with Lycium barbarum L.and irrigated by drip irrigation with saline groundwater under the water table depth of 30-40 cm in the northern Yinchuan Plain,China.Effects of cropping duration (one,two,and three years) on soil salinity,soil solution composition,and pH in three adjacent plots were investigated in 2008.Results showed that a high irrigation frequency maintained high soil water potential and subsequently facilitated infiltration and downward movement of water and salt in the crop root zone.Salt accumulated on the edges of the ridges,and soil saturated-paste electrical conductivity (ECe) was higher in the edge.Concentrations of Na+,Ca2+,Mg2+,Cl-,and SO42- in the soil increased with the soil depth as did the ECe,while HCO3- and pH had a relative uniform distribution in soil profile.As planting year increased,the ECe and soil salts in the field had a decreasing tendency,while in the root zone they decreased immediately after irrigation and then remained relatively stable in the following growing seasons.HCO3- and pH had little change with the planting year.Results suggested that the application of drip irrigation with saline water could ameliorate saline-sodic soil and provide a relatively feasible soil environment for the growth of salt-tolerant plant Lycium barbarum L.under the saline-sodic soils with shallow groundwater.  相似文献   

17.
咸淡水交替灌溉下土壤盐分再分布规律的室内实验研究   总被引:5,自引:1,他引:4  
咸水灌溉是解决目前淡水资源短缺的重要途径。为寻求合理的咸水农田灌溉方法,进行了不同矿化度和不同灌水模式的室内土柱咸淡水交替灌溉模拟试验,分析了咸淡水交替灌溉条件下土壤溶液电导率(EC)值和钠吸附比(SAR)的变化规律。结果表明:两种灌水模式下,灌水结束时土壤溶液EC值在22.5 cm处达到最高,且4 g/L>2 g/L,且与试验初期相比,土壤溶液EC值明显提高,土柱整体积盐明显。灌水模式对土壤溶液EC值的影响大于矿化度;两种灌水模式不同矿化度处理的SAR值变化规律基本一致。  相似文献   

18.
Irrigation with saline–sodic water causes sodic conditions in the soil which reduces soil productivity. We evaluated the changes in a number of important indices related to soil structural stability when treated wastewater (TWW), albeit with higher loads of organic matter and suspended solids, was used instead of more saline–sodic irrigation water, under different degrees of aggregate slaking. We studied soil saturated hydraulic conductivity (HC) using disturbed samples packed in columns, and soil infiltration rate, runoff and erosion under simulated rainfall. Aggregate slaking was manipulated by wetting the samples prior to all tests at either a slow (1–2 mm h− 1) or a fast (50 mm h− 1) rate. Samples of a calcareous silty clay (Typic Calciorthids) from the Bet She'an Valley, Israel, were taken from plots irrigated for three years with either TWW, saline–sodic Jordan River water (JRW), or moderately saline–sodic spring water (SPW), and also from a non-cultivated area (control). With little or no aggregate slaking (use of slow wetting), higher HC values and lower amounts of total runoff and soil loss were measured compared to when more severe aggregate slaking was induced (use of fast wetting). The HC values for the TWW treatment were similar to, or lower than, those for the control and significantly higher than those for the JRW treatment. For the runoff and soil loss data, differences among the water quality treatments were, generally, more pronounced when aggregate slaking was substantially reduced, and were related to soil sodicity. Under the latter condition, runoff and soil loss from the TWW treatment were comparable with those from the control and significantly lower than those from the JRW treatment. Our results suggested that replacing saline–sodic irrigation water with TWW could have favorable effects on soil structural stability, especially under conditions where aggregate slaking can be reduced (e.g., in regions with low to moderate rain intensities; and/or use of low intensity irrigation systems).  相似文献   

19.
The SALTIRSOIL model predicts soil salinity, sodicity and alkalinity in irrigated land using basic information on soil, climate, crop, irrigation management and water quality. It extends the concept of the WATSUIT model to include irrigation and crop management practices, advances in the calculation of evapotranspiration and new algorithms for the water stress coefficient and calculation of electrical conductivity. SALTIRSOIL calculates the soil water balance and soil solution concentration over the year. A second module, SALSOLCHEM, calculates the inorganic ion composition of the soil solution at equilibrium with soil calcite and gypsum at the soil’s CO2 partial pressure. Results from comparing predicted and experimentally determined concentrations, observations and predictions of pH, alkalinity and calcium concentration in calcite‐saturated solutions agree to the second significant figure; in gypsum‐saturated solutions the standard difference between observations and predictions is <3% in absolute values. The algorithms in SALTIRSOIL have been verified and SALSOLCHEM validated for the reliable calculation of soil salinity, sodicity and alkalinity at water saturation in well‐drained irrigated lands. In simulations for horticultural crops in southeast Spain, soil solution concentration factors at water saturation, quotients of electrical conductivity (EC25) at saturation to electrical conductivity in the irrigation water, and quotients of sodium adsorption ratio (SAR) are very similar to average measured values for the area.  相似文献   

20.
Abstract

Salinity and sodicity effects on manganese (Mn) sorption in a mixed sodium‐calcium (Na‐Ca) soil system were studied. Soil samples were taken at 0–30 cm depth from Vertisols (El‐Hosh and El‐Suleimi) and Aridisols (El‐Laota) at three sites in Gezira scheme (Sudan). No Mn was applied to these soils. Prior to analysis the soils were equilibrated with NaCl‐CaCL2 mixed salt solutions to attain SAR values at different salt concentrations. The results indicated that saline soils sorbed less Mn and had higher equilibrium Mn concentrations. Sodic soils retained more Mn but had low equilibrium concentrations. Sodicity had a pronounced effect only on increasing Mn retention at higher SAR values. Salinity tended to alleviate sodicity effects on Mn retention, but soluble salts that increased soil pH decreased Mn concentration.  相似文献   

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