共查询到20条相似文献,搜索用时 156 毫秒
1.
内蒙古腰坝绿洲的土壤盐渍化特征 总被引:2,自引:0,他引:2
[目的]研究内蒙古阿拉善左旗腰坝绿洲土壤盐渍化特征及土壤盐分离子分布规律,为研究区农业生产发展及生态环境保护计策提出合理依据。[方法]通过在野外考察、GPS定点、样品采集和处理并借助Excel和SPSS软件,运用统计学方法研究了该区土壤盐离子含量、总碱度与土壤离子含量之间的关系、土壤含盐量以及盐离子间的相关性。[结果]灌区土壤pH值平均值为8.13,为碱性土,土壤盐分含量较高,其中0—10cm土壤盐离子含量最高,平均值达到4.49%。阳离子主要是Ca2+和K++Na+,阴离子主要是SO2-4Cl-HCO-3,CO2-3含量微小。0—10cm土层和10—60cm土层中SO2-4与Ca2+均有极显著正相关,相关性均大于0.95,因子分析中SO2-4与Ca2+,Cl-和K++Na+发生"聚类"现象。[结论]灌区盐渍化土主要为硫酸盐渍土,其次为氯化盐渍土,该盐渍土危害植被生长。 相似文献
2.
苏打盐渍土地区芦苇地土壤盐分离子空间变异与群落关系研究 总被引:4,自引:3,他引:4
对松嫩平原西部苏打盐渍土地区芦苇小区土壤盐分离子和植被群落进行了分析,结果表明土壤盐分离子空间变异显著,四种阳离子(Na+、K+、Ca2+、Mg2+)变异系数为0.60~1.22,四种阴离子(HCO3-、CO32-、C l-、SO42-)变异系数为0.35~1.41。离子中,Na+在阳离子中含量最高,HCO3-在阴离子中含量最高。群落间比较,碱茅+芦苇群落八大离子浓度均大于芦苇群落(p<0.05)。且土壤电导率、pH,以及株高、生物量、覆盖度也高于芦苇群落(p<0.01),因此随着土壤电导率、离子浓度的增加,芦苇小区土壤碱化程度加重,植被生长指标减小,植被群落也由芦苇群落向含有碱地植被的碱茅+芦苇群落过渡。 相似文献
3.
苏北典型新围垦海涂农田盐碱障碍因子特征分析 总被引:3,自引:2,他引:1
通过对苏北典型新围垦海涂农田(围垦于2005年,种植于2007年)盐碱障碍因子分析发现,农田土壤处于脱盐碱化阶段,其盐分均值为1.78 g/kg,属轻度偏中度盐渍化,但其变幅大,空间变异性强,盐分大值呈斑块状分布于田块中.同时,其pH高,均值达9.83,碱化特征明显.海涂围垦农田土壤盐分与pH的剖面分布均较均匀,垂直变异性弱.离子分析结果显示,海涂围垦农田土壤盐分以NaCl为主,除K+外,土壤可溶性离子按其与盐分和pH的关系大致可以分为两类,一类为Cl-、SO42-、Ca2+、Mg2+、Na+,分别与土壤含盐量呈显著正相关;另一类为CO32-、HCO3-,分别与pH值具有极显著的正相关关系;且同类离子之间互呈显著正相关,而两类离子相互之间呈显著负相关或极弱正相关.K+既与土壤含盐量和pH呈极显著正相关,同时也与除SO42-和Ca2+外的所有离子呈正相关.结合研究区气候特征,在消减新围垦海涂农田土壤盐碱障碍因子的过程中应积极改善土壤的物理性质以增强盐分的淋洗,并重点防止土壤的碱化过程. 相似文献
4.
不同溶质及矿化度对土壤溶液盐离子的影响 总被引:1,自引:0,他引:1
中国西北旱区水源短缺已成为农业生产的重要限制因素,如何科学有效地利用微咸水资源对于提高灌区水资源利用效率和保障粮食安全生产具有十分重要的意义。该研究以甘肃省秦安县果园粉砂质黏壤土为研究对象,基于土壤水分特征曲线的测定方法,采用蒸馏水(CK)和不同矿化度(1, 3, 5, 10 g/L)的NaCl、Na2SO4两种类型的盐溶液对土壤饱和浸泡8~12 h后离心,收集不同转速下的释水溶液,研究不同吸力(pF分别为1.0,1.49,2.01,2.71,3.49,4.09)条件下土壤释水溶液盐分离子的组成。结果表明:不同矿化度的NaCl和Na2SO4对释水溶液电导率、HCO3-、Cl-、SO42-、Ca2+、Mg2+、Na+的影响差异均达极显著(p0.01)或显著水平(p0.05)。相同矿化度的NaCl和Na2SO4在土壤释水过程中对不同盐分离子的影响不同。同为1g/L的NaCl和Na2SO4,NaCl中的Cl-置换土壤中HCO3-的能力要强于Na2SO4中的SO42-。在土壤水吸力(pF)小于2.01时,高矿化度(3 g/L)的NaCl对于土壤溶液中Ca2+的解离具有促进作用,且促进能力随着矿化度的增大而增大;在土壤水吸力(pF)大于2.01时,加入溶液中的Cl-和SO42-均具有抑制土壤中HCO3-的解离,加入溶液中的Cl-具有抑制土壤中SO42-的解离,加入溶液中的SO42-具有抑制土壤溶液中Cl-的解离,低矿化度(1 g/L)的NaCl对于土壤溶液中Ca2+的解离具有抑制作用。不同矿化度的NaCl和Na2SO4,对土壤溶液中Mg2+的解离具有促进作用。因此,从微咸水利用于盐渍化土壤改良的角度来看,对于苏打型盐土,可尝试用含Cl-和SO42-的盐水灌溉;对于硫酸盐型盐土,可尝试用含Cl-的盐水灌溉;对于氯化物型盐土,可尝试用含SO42-的盐水灌溉。 相似文献
5.
我国主要菜区耕层土壤盐分总量及离子组成 总被引:12,自引:3,他引:9
【目的】评价全国主要菜区温室、 大棚和露地菜田土壤盐分及离子组成状况,为土壤次生盐渍化防治、 蔬菜合理施肥和土壤可持续利用提供一定的理论依据。【方法】在我国北方3个区域(东北、 华北、 西北地区)和南方4个区域(华中、 西南、 华东、 华南地区)主要蔬菜种植区不同栽培方式典型菜田耕层土壤展开调查,共采集501个土壤样品,分析了盐分总量及其离子组成。【结果】 1)全国主要菜区设施(温室和大棚)菜田土壤盐分总量及其各离子含量(NO-3、 SO2-4、 Cl-、 Na+、 K+、 Ca2+、 Mg2+)均显著高于露地菜田土壤,盐分总量平均高69.3%,离子组成增加幅度在36.2%~170.0%之间。2)设施菜田土壤次生盐渍化的土样数比例显著高于露地菜田土壤,但设施菜田土壤盐化程度总体上较轻,居于轻度盐化水平的比例占38.2%,处于中度盐化以上水平的比例仅占4.7%。 3)设施菜田土壤盐分总量及主要盐分离子(NO-3、 SO2-4和Ca2+)含量积累总体上随种植年限的延长呈先增后降并趋于平缓的变化趋势,在连续种植5~6年时达到高峰期,之后因采取的各种管理措施而有所降低,但仍显著高于露地菜田土壤。 4)设施菜田土壤盐分离子组成以NO-3和SO2-4为主,其次是Ca2+,分别占盐分总量的27.9%、 26.9%和15.3%。露地菜田土壤主要盐分离子组成总体上是SO2- 4 NO- 3 Ca2+、 HCO-3,分别平均占盐分总量的29.0%、 21.1%、 16.1%和14.1%,但西北地区露地菜田土壤盐分离子组成以HCO-3为主,其次是SO2-4、 NO-3和Ca2+。【结论】设施菜田土壤次生盐渍化的土样数比例虽然显著高于露地菜田土壤,但土壤盐化程度总体上较轻,盐分离子主要是NO-3、 SO2- 4和Ca2+,NO-3、 SO2-4含量大于Ca2+含量; 露地菜田主要盐分离子是SO2-4、 NO- 3、 Ca2+和HCO-3,含量为SO2- 4 NO- 3 Ca2+、 HCO-3。 相似文献
6.
《水土保持学报》2014,(3)
通过对新疆典型灌区5块(1998地块、2002地块、2004地块、2006地块和2008地块)不同膜下滴灌应用年限农田进行连续4年的定点监测,每块地每月分别在膜内毛管处、棉花窄行中点、膜外两膜中点3个位置取样测试从地表向下0-60cm深处土样的盐分及离子含量,揭示长期膜下滴灌农田根区土壤盐分演变趋势。结果表明,在现行灌溉制度条件下,根区土壤盐分平均值、最大值、盐分方差和标准差均随膜下滴灌应用年限延长呈降低趋势,根区盐分平均值与膜下滴灌应用年限符合Allometric1指数函数模型,滴灌应用1~3年,相对荒地脱盐率可达85%左右,滴灌应用3~10年盐分降低趋势明显,滴灌10~15年相对荒地脱盐率稳定在95%左右。根区土壤盐分中Na+与Cl-2种离子含量随膜下滴灌年限延长而降低趋势明显,滴灌5年以后降低缓慢,年均含量低于0.15g/kg,脱盐率稳定在80%~90%之间,滴灌8~15年相对稳定;根区盐分离子组分中主要是Na+与Cl-,随滴灌应用年限延长而降低,其次是Ca2+、SO2-4、Mg2+3种离子,其他离子含量随滴灌应用年限延长无明显变化特征。根区盐分及离子降低的主要原因在于当地的灌溉制度,坚持现行的灌水制度虽然有利于膜下滴灌长期可持续应用,但应适当减少花铃后期及吐絮期的灌水定额以节约水资源。 相似文献
7.
新疆伊犁察南灌区土壤盐分特征 总被引:2,自引:0,他引:2
以察南灌区土壤为研究对象,对不同含盐量土壤进行盐化程度分级,并对该地区土壤盐分特征进行相关分析和主成分分析,以及对土壤盐分因子区域影响因素进行探讨。结果表明:察南灌区以碱性土壤为主,HCO_3~–是影响该灌区土壤p H最强的因子;对灌区0~100 cm土体土壤的分析表明,灌区盐化土面积约为总灌溉面积的1/4,盐渍化风险较大;相关性分析显示,HCO–3、Cl~–、SO_4~(2-)、Ca~(2~+)、Mg~(2~+)、Na~+、K~+为盐分主要组成离子,总盐分与各离子之间均呈正相关关系,与总盐分相关性最强的阴离子为SO_4~(2-),相关性最强的阳离子为Mg~(2~+);主成分分析显示,HCO_3~–、Cl~–、K~+为影响该灌区土壤盐分特征的主导因子;通过盐分因子区域影响因素定性分析可知,除HCO_3~–和pH是由河流以及地下水综合作用影响外,其他盐分因子均主要受河流影响。 相似文献
8.
宁夏引黄灌区盐化土壤盐分特征与相关性分析 总被引:3,自引:0,他引:3
选取宁夏典型盐化土壤,研究了土壤盐分、pH和碱化度的垂直分布特征,并对土壤含盐量及各离子组成之间的相关性进行了统计分析.结果表明,研究区主要的盐分离子有SO42-、Cl-、Na+、Ca2+,0~ 40 cm土层试区土壤类型属氯化物-硫酸盐类型;40~100 cm土层,属硫酸盐-氯化物类型.相关性分析表明:0~40 cm土层土壤含盐量与SO42-含量相关性最大,其次是Mg2,40 ~ 100 cm土层土壤含盐量与Cl-和Na+的相关性最大,其次是SO42-,各土层Cl-与Na+均呈相关系数大于0.97的极显著正相关,SO42-在0~40 cm土层与Ca2+的相关性最大,40~ 60 cm土层与Cl-的相关性最大,60 ~ 100 cm土层与Na+的相关性最大.主成分分析结果表明:SO42-、Mg2+、Cl-、Na+、Ca2可作为试验区土壤盐化状况的特征因子. 相似文献
9.
掌握不同地表覆被类型和微地貌特征下的不同深度土壤盐分空间分布规律,对土壤盐渍化防治具有重要意义。该研究以黄河三角洲入海口为研究区,在分析不同深度土壤全盐量、盐基离子(Ca2+、Mg2+、Na+、SO42-、HCO3-、Cl-)空间变异特征的基础上,通过单因素方差分析不同地表覆被类型和微地貌特征下该区土壤盐分的差异,并通过地理探测器分析地表覆被类型、微地貌对土壤盐分的交互影响。结果表明:1)表层土壤Mg2+变异系数达到1.010 8,为强变异性,其余盐基离子均为中等变异性,且均有强烈的空间相关性,全盐量与盐基离子均呈现沿海向内陆降低的趋势,约有42.57%的地区为轻度盐化土;2)不同地表覆被类型间土壤全盐量与Na+、Cl-具有显著差异;3)不同微地貌类型间Na+、Cl-具有显著差异;不同海拔的深层土壤Na+具有显著差异;4)海拔对土壤全盐量与Na+的解释力最强,地表覆被类型对土壤Cl-的解释力最强;5)坡向和海拔对土壤盐分的交互作用最强烈,q值在0.545~0.708之间,其次是地表覆被类型与坡向,q值在0.521~0.613之间。氯化钠主导该区域土壤盐分空间变异,不同地表覆被类型和微地貌特征下均呈显著差异,表层土壤盐分明显高于深层,坡向与海拔之间的交互作用能够较好地解释该地区土壤盐分空间分布。 相似文献
10.
地下水位上升条件下磷石膏改良剂对土壤盐分迁移的影响 总被引:2,自引:0,他引:2
《水土保持学报》2014,(6)
采用室内土柱法,模拟研究了地下水位上升条件下不同用量磷石膏改良剂对4个地区(金昌、靖远、瓜州、新疆)盐渍化土壤盐分离子向上迁移的影响。结果表明:在地下水位上升条件下,不同用量磷石膏改良剂对4个地区盐渍化土壤盐分离子迁移的影响不同,对硫酸盐-氯化物壤土和氯化物-硫酸盐砂质壤土,施用不同用量的磷石膏改良剂可以显著影响水溶性Na+的向上迁移;对硫酸盐-氯化物壤土,施用改良剂6 000,12 000kg/hm2,对土壤中水溶性Ca2+和SO2-4的向上迁移有显著影响;对氯化物粘壤土,施用不同用量的磷石膏改良剂可显著影响盐分、水溶性Na+和SO2-4的向上迁移。 相似文献
11.
洛惠渠灌区水土化学特性分析 总被引:1,自引:0,他引:1
为了深入了解洛惠渠灌区土壤盐碱化程度,分别测试了2004年实地采集的63个土壤样品和71个地下水样品,测定项目分别为土壤含盐量、碱化度、阴阳离子含量和地下水化学成分,并分析了该灌区土壤盐碱化现状以及地下水水质状况.结果表明,洛惠渠灌区土壤盐碱化较明显,盐渍化土壤分成盐土和碱土两类,主体成分为钠(钾)、钙的硫酸盐和碳酸盐;而地下水化学类型基本属于氯化钠-硫化钠型.通过计算其钠吸附比和镁系数可以推知该灌区地下水大部分对灌溉作物有不利影响,并且对土壤有进一步碱化的威胁.因此,有效控制该灌区地下水位是治理土壤盐碱化的重要措施,还要考虑不同区域土壤易溶盐含量,作物耐盐碱性等因素.应当综合工程、生物、化学等方法来改良利用盐碱土地,方能起到事半功倍的治理效果. 相似文献
12.
东北典型石油污灌区土壤中矿物油的时空分布特征 总被引:1,自引:0,他引:1
污水灌溉在解决缺水问题和补充土壤营养的同时,也带来了不容忽视的土壤污染问题。作为我国最大的石油污灌区,沈抚灌区由于长期污灌导致矿物油积累严重,土壤中矿物油浓度最高可达6 861.1 mg/kg,整个灌区矿物油污染具有以下特征:灌区表层土壤(0~20 cm)矿物油含量高于亚表层土壤(20~30 cm);不同土地利用方式污染程度存在差异,水田土壤高于旱地土壤;污灌年限越长,矿物油积累越严重,污灌41~50年的土壤中矿物油含量超过3 000 mg/kg;整个灌区矿物油含量呈现沿污水流向逐渐降低的趋势,高浓度区主要集中在离排放口较近的李石寨地区。 相似文献
13.
内蒙古河套灌区灌排水离子组成及淋洗盐分用水量评价 总被引:3,自引:0,他引:3
以河套灌区“盐分去向”为研究背景, 通过调查灌区土壤及各级灌排渠系水阳离子含量变化及室内模拟灌溉水淋洗土柱试验, 分析灌溉水经过土壤到排水阳离子组成的变化规律, 探讨用Na+浓度评价淋盐排灌水量比的可行性。结果表明, 与灌溉水相比, 各级排水干渠排水所含盐分中Na+所占比例明显增加, 平均约为87%; Ca2+所占比例减少, 平均约为7%。排水的全盐浓度(EC)和Na+浓度有显著相关关系, 说明Na+浓度对排水的全盐浓度有显著影响。灌溉水的2/3 Ca2+以非水溶性钙盐积聚在土壤, 排出量较少, 但灌区全年的Na+收支基本平衡。淋盐排灌水量比评价分析结果表明, 用Na+浓度评价淋盐排灌水量比要优于用全盐浓度(EC); 要维持灌区Na+收支平衡, 排灌水量比应保持在0.12~0.15, 针对现有灌区年引水量50 亿t, 年排水量要达到6~7 亿t。 相似文献
14.
The reaction between soil and added fluoride was accelerated by incubating at a high temperature. Desorption of the fluoride was then studied using solutions of chloride salts of several cations at a range of solution : soil ratios and for periods which ranged from 1 h to 4 days. Fluoride desorbed was related to the experimental variables by a regression equation. When the solution : soil ratio was small and hence only small amounts of fluoride were desorbed, decreasing the concentration of salts increased the concentration of fluoride in the solution. The concentration in the solution was lower for calcium chloride than for sodium or potassium chloride. Amongst the monovalent cations, the concentration of fluoride was highest for salts of the cations of lowest atomic number. Thus the greater the average distance between the charge conveyed to the surface by the adsorbed fluoride and the cation which balanced it, the higher the fluoride concentration in the solution. As the solution : soil ratio was increased, the differences between the cations in their effects on fluoride desorption decreased and seemed to disappear as the solution : soil ratio became very large. This contrasts with previously observed effects on phosphate. It is suggested that the difference may have arisen because appreciable desorption of fluoride occurs by exchange with hydroxyl ions rather than by escape of the fluoride ion together with its counter ion. 相似文献
15.
Jan Łabętowicz Beata Rutkowska Wiesław Szulc 《Archives of Agronomy and Soil Science》2013,59(5):445-449
In the conditions of long-term experiment carried out in the experimental field of Warsaw Agricultural University - SGGW at _ yczyn, ion concentration in the soil solution were examined as well as the relationships shaped between ions in the soil solution due to long-term diversified mineral and organic fertilization. Soil solution was obtained by the vacuum method and the concentration of particular ions in the soil solution was determined by the ICP method. Mineral and organic fertilization and liming significantly affected chemical composition of the soil solution and the relationships between particular ions in the soil solution. The lowest concentration of ions in the soil solution was observed in the control plots (not fertilized). Mineral and organic fertilization as well as liming caused the increase of ion concentration in the soil solution. In the plots with mineral fertilization alone K + and NH + 4 ions predominated in the cation structure in the soil solution. In the case of liming the share of Ca 2+ ions increased. Independently from the system of fertilization used, CI m and HCO m 3 ions predominated in the anion structure. The application of organic fertilization affected to the highest degree the concentration of aluminium ion in the soil solution significantly limiting the share of this ion in the cation structure. 相似文献
16.
为研究再生水灌溉下原污灌区土壤中主要盐分离子交换运移规律,采用有污水灌溉背景的两种质地土壤,根据再生水的基本性质及其盐分离子组分,配制4种浓度水平的入渗液,进行土柱模拟试验。结果表明,不同质地土壤在低Na^+配制液淋洗下的穿透曲线都出现下凹现象,但Na^+在壤土中富集的表现并不显著,而在粉质砂壤土中部分Na^+吸附累积时间较长;模拟再生水入渗溶液中不同组分的盐分离子在不同程度上影响污灌土壤中发生的离子化学反应的进行,导致各处理下Na穿透时间发生显著差异;长期再生水灌溉会对HCO3^-含量较高且粉粒比重大的土壤的入渗等性能产生更为不利的影响。 相似文献
17.
《Communications in Soil Science and Plant Analysis》2012,43(11-12):1219-1229
Abstract The effect of irrigation water of good quality on the salt and sodium content of some Halaquepts on the floodplain of the Platte River in Central Nebraska was determined. The study compared salts and sodium concentrations in A and B horizons of adjacent soils in 3 fields within a single delineation of a map unit. Land uses were long term irrigation, recent introduction to irrigation, and permanent pasture that had never been cultivated or irrigated. The presence of a salt crust on the surface of the field that had been irrigated for some time led the farm operator to believe that irrigation was increasing salt problems within the field. The objective of the study was to determine whether or not this was true. Salt content, sodium absorption ratio, and exchangeable sodium values were not greater in the irrigated field than in the permanent pasture. Salt contents of A horizons were the same in all fields, whereas B horizon salt content tended to be lower where both long and short term irrigation had been practiced. Sodium absorption ratios and exchangeable sodium percentages followed the same pattern as that of soluble salts. Irrigation with water of good quality appeared to be decreasing both salt and sodium content of these soils. 相似文献
18.
通过时空互代、野外调查和采样分析的方法,研究了石家庄栾城县不同污水灌溉时间下(0~52 a)耕地土壤肥力及土壤酶活性特征。结果表明:与对照点相比,污水灌溉区土壤有机质、全氮、全磷含量,蔗糖酶、脲酶和磷酸酶活性均相对较高,而土壤阳离子交换量、过氧化氢酶和脱氢酶活性无明显的变化规律;污水灌溉区土壤全氮、蔗糖酶、磷酸酶与污灌时间之间表现出显著正相关性(P〈0.05),其他指标与污灌时间之间均无显著相关性;土壤肥力(有机质和全氮)、重金属(总Cr和总Cd)与水解酶(脲酶和磷酸酶)之间表现出显著正相关性,交换态Cr与脱氢酶活性之间呈现出显著负相关性。上述特征反映了污水灌溉时间对土壤肥力及土壤酶活性具有复杂的影响效应,而这些效应是决定污水灌溉区土地生产力能否高产的重要因素。 相似文献
19.
A laboratory study was conducted on a smectitic clay soil (Vertic Ustochrept) to assess the release/precipitation of ions from cation balance as a result of irrigation with chloride, chloride-bicarbonate and chloride-sulphate water each containing 50 meq/l t.e.c. The study shows that irrigation waters having electrolyte concentration of 50 meq/l or more containing either chloride or chloride and bicarbonate ions should not be used for irrigating these soils irrespective of their SAR because they create sodicity. The waters containing both chloride and sulphate ions result in calcium precipitate buildup in soil. Although indiscriminate use of such waters may lead to concurrent buildup of salinity in the absence of adequate leaching. 相似文献
20.
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