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采用批量平衡方法,研究了土霉素在原土及去除有机质土壤中的吸附和解吸.结果表明,土霉素在原土和去除有机质土壤中的吸附和解吸等温线均不同程度地偏离线性模型,其中Freundlich模型可以对吸附和解吸数据进行良好的非线性拟合,在不同土壤以及不同土壤处理中的拟合相关系数(r)均达到极显著水平.去除有机质能够降低土霉素在土壤中的吸附容量(lgKf),但增加了吸附强度(1/n).土霉素在土壤上的解吸过程存在明显的滞后现象,在所设土霉素浓度范围内,土霉素在褐土和红壤中的平均滞后系数(HIa)分别为0.039和0.015;去除有机质后的褐土和红壤对土霉素的解吸滞后现象显著增强(P<0.01),其HIa分别增加到0.068和0.028. 相似文献
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采用批次实验,研究了三种不同类型土壤黄红壤、水稻土和草甸土的全土、重组、去松结态和紧结态4个组分对菲的吸附,结果表明,菲在不同土壤及其组分上的吸附等温线都能用Freundlich方程进行拟合,所有等温线都具有一定程度的非线性,指数N值的大小顺序基本都为全土>重组>去松结态>紧结态.除了黄红壤的紧结态比去松结态对菲的吸附容量KF值略小外,不同土壤及其组分对菲吸附的KF值以及有机碳归一化的KFoc值大小顺序都为紧结态>去松结态>重组>全土.不同类型土壤之间的KF值大小顺序为草甸土>水稻土>黄红壤,而KFoc值大小顺为水稻土>草甸土>黄红壤.KF值与有机碳含量之间呈显著性正相关(P<0.05),KFoc与N之间呈极显著负相关(P<0.001).土壤及其组分对菲的吸附强度与有机质的结构特征和聚合程度有关. 相似文献
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丁草胺在土壤中吸附特性研究 总被引:3,自引:1,他引:2
采用室内模拟试验方法,研究了丁草胺在三种不同有机质含量土壤中的吸附特性曲线,采用批量平衡法,用三种土壤对丁草胺进行吸附,并通过改变三种土壤的投加量、温度和pH进行实验。实验结果表明,丁草胺在三种不同土壤中的吸附平衡时间大约为12h,以快速吸附为主,土壤的有机质含量是影响土壤吸附性能的重要因素,土壤有机质含量与土壤对农药的吸附呈正相关,土壤的投加量越大固相中的吸附量也越大,丁草胺在土壤中的吸附随着温度的升高而减弱,但影响并不明显;碱性条件不利于土壤对丁草胺的吸附量。 相似文献
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采集新疆干旱区石化废水库附近区域土壤,以苯、甲苯、乙苯、二甲苯(间、对二甲苯)等典型苯系物为研究对象,系统研究低浓度苯系物在干旱区土壤上的吸附行为,分析土壤有机质含量,溶液p H、溶液含盐量、温度对苯系物吸附的影响。结果显示土壤对低浓度苯系物的吸附16 h达到平衡;吸附等温线经拟合后符合Henry直线型吸附模型;土壤对苯系物的吸附量随着土壤有机质含量的增加而增加,土壤有机质含量与吸附量呈显著正相关(P0.01,R2≥0.919);溶液p H值对吸附过程无明显作用;随着溶液含盐量增大,土壤对苯系物的吸附量表现为先减小,再稳定;温度升高会抑制土壤对苯系物的吸附作用。 相似文献
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通过等温吸附试验研究了 5种来自不同固体废弃物的水溶性有机质 (DOM)对土壤中Cd吸附行为的影响 .研究结果表明 :DOM对土壤中Cd吸附行为的影响与土壤类型和DOM种类有关 ,其影响机理主要是DOM的酸碱缓冲作用和络合作用 .酸性土壤中 ,猪粪DOM对Cd吸附的促进作用最强 ,而脱水污泥、堆腐污泥、消化污泥、小麦秸杆DOM的促进作用较弱 ,且差异不大 ;中性土壤中 ,各种DOM均抑制Cd的吸附 ,抑制效果由大到小顺序为 :堆腐污泥DOM >消化污泥DOM≈小麦秸杆DOM >脱水污泥DOM >猪粪DOM ;碱性土壤中 ,5种DOM同样表现为对Cd吸附的抑制作用 ,抑制效果由大到小顺序为 :堆腐污泥DOM >消化污泥DOM >脱水污泥DOM≈猪粪DOM >小麦秸杆DOM 相似文献
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苯噻草胺在土壤中的吸附与解吸行为研究 总被引:9,自引:4,他引:9
采用批量平衡实验方法,研究了除草剂苯噻草胺在5种不同性质土壤中的吸附与解吸行为,并探讨了土壤有机质及溶液pH值对吸附的影响.结果表明,线性方程与Freundlich方程均能较好地拟合苯噻草胺在土壤中的吸附等温线.计算得到苯噻草胺在5种土壤中的碳标化分配系数Koc在849.5~1?818.8 L·kg-1之间,说明土壤对苯噻草胺有较强的吸附能力.苯噻草胺在土壤中的分配系数Kd、Freundlich常数Kf以及Kf(1/n)与土壤有机质含量均呈显著正相关.通过过氧化氢去除有机质后,土壤对苯噻草胺的吸附大大降低,说明土壤有机质是影响苯噻草胺在土壤中吸附的主要因素.对于同种土壤而言,苯噻草胺的吸附量随pH值的增大而减小.解吸实验表明,苯噻草胺在土壤中的解吸过程具有一定的滞后性,推测其在土壤中的迁移能力较差. 相似文献
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土壤有机质环境效应的研究已成为土壤学、环境学和地球化学等领域的热点方向之一。土壤有机质分解过程对全球 CO_2的贡献,土壤有机质对岩石圈和生物圈的作用,土壤有机质对被污染土壤的净化作用等越来越被国内外学者重视。本文阐述了土壤有机质对土壤生态系统中金属元素和有机污染物的作用和重要性。 相似文献
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Several soil samples were used to study how the characteristics of natural organic matter (NOM) affect sorption of organic compounds. These soils contains different amounts and types of NOM. Aromaticity of NOM (percentage of aromatic carbons) was determined from solid-state CPMAS 13C NMR spectra and the soil effective polarity was computed from the equation developed by Xing et al. Naphthalene was used to examine the sorption characteristics of NOM. Both aromaticity and polarity of NOM strongly affected sorption of naphthalene. Old NOM showed higher affinity than that in the surface, young soils. Sorption increased with increasing aromaticity and decreasing polarity. Thus, the sorption coefficients of organic contaminants cannot be accurately predicted without some consideration of NOM characteristics. 相似文献
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IntroductionRecentresearchhasdemonstratedthatsorptionofhydrophobicorganiccompounds(HOC)insoilsandsedimentsiscontrolledbyorganicmatterunlessitscontentisverylow(Chiou ,1 989) .Thisisparticularlytrueinwater soilsystemsbecausewatermoleculesarepreferablyadsorbed… 相似文献
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Several soil samples were used to study how the characteristics of natural organic matter(NOM)affect sorption of organic compounds.These soils contains different amounts and types of NOM.Aromaticity of NOM(percentage of aromatic carbons)was determined from solid-state CPMAS^13 C NMR spectra and the soil effective polarity was computed from the equation developed by Xing et al.Naphthalene was used to examine the sorption characteristics of NOM.Both aromaticity and polarity of NOM strongly affected sorption of naphthalene.Old NOM showed higher affinity than that in the surface,young soils.Sorption increased with increasing aromaticity and decreasing polarity.Thus,the sorption coefficients of organic contaminants cannot be accurately predicted without some considerstion of NOM characteristics. 相似文献
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Impacts of soil organic matter, pH and exogenous copper on sorption behavior
of norfloxacin in three soils 总被引:3,自引:0,他引:3
ZHANG Jie LI Zhaojun GE Gaofei SUN Wanchun LIANG Yongchao WU Laosheng 《环境科学学报(英文版)》2009,21(5):632-640
Norfloxacin (Nor) sorption and the factors (soil organic matter (SOM), pH, and exogenous copper (Cu) influencing the sorption were investigated in a black soil (soil B), a fluvo-aquic soil (soil F), and a red soil (soil R). With increasing of Nor concentrations, sorption amount of norfloxacin increased in both the bulk soils and their SOM-removed soils, but the sorption capacity in SOM-removed soils was higher than that of their corresponding bulk soils, indicating that the process of norfloxacin sorption in soil was influenced by the soil properties including SOM. The sorption data in all bulk soils and SOM-removed soils were fitted to Freundlich and Langmuir models. The correlation coefficients suggested that the experimental data fitted better to Freundlich equation than to Langmuir equation. Furthermore, the data from soil F and SOM-removed F could not be described by Langmuir equation. The norfloxacin sorption amount decreased in soil B and soil F, whereas it increased in soil R as solution pH increased. The maximum KD and KOC were achieved in soil R when the equilibrium solution pH was 6. And the norfloxacin sorption was also influenced by the exogenous Cu2+ ions, which depended on the soil types and Cu2+ concentrations. With increasing of Cu2+ concentrations in solution, generally, sorption amount, KD and KOC for norfloxacin in soils increased and were up to a peak at 100 mg/L Cu2+, and then the sorption amount decreased regardless of norfloxacin levels. 相似文献
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共存有机物对毒死蜱在沉积物上吸附的影响 总被引:6,自引:0,他引:6
用批量平衡法研究了共存有机物对毒死蜱在沉积物上吸附行为的影响.结果表明,苯酚和芘对毒死蜱在沉积物上的吸附有竞争作用,其中苯酚的竞争能力较大.多种有机污染物共存时,毒死蜱在沉积物上的吸附仍然由分配作用决定.表面活性剂的浓度小于临界胶束浓度(CMC)时,十二烷基硫酸钠(SDS)能明显降低毒死蜱在沉积物上的吸附量,降低程度与SDS浓度呈负相关,而非离子表面活性剂Triton X-100能增加毒死蜱在沉积物上的吸附量,增加程度与Triton X-100浓度呈正相关. 相似文献
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溶解性有机质对芘在土壤中吸附解吸的影响 总被引:3,自引:1,他引:3
从腐解不同阶段的水稻秸秆提取溶解性有机质(DOM),用DAX-8树脂分组的方法分析了其亲疏水性,并研究了提取到的DOM对芘在土壤中吸附-解吸行为的影响.结果表明,随秸秆腐解时间的延长,产生DOM中亲水性组分减少,疏水性组分增多.在本试验所研究的吸附解吸实验条件下,芘在土壤中的吸附解吸均可用线性方程进行描述.加入DOM后,芘的吸附受到显著抑制(p0.01),并且随腐解时间延长,抑制作用增强;芘在土壤中存在解吸迟滞现象,加入DOM后迟滞现象减弱,促进了芘在土壤中的解吸.随腐解作用的进行,DOM促进芘解吸的作用增强,解吸迟滞系数减小.这是由于随秸秆腐解作用的进行,产生DOM中疏水性组分含量增多,其对芘的增溶作用增强所致. 相似文献
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采集了北京通州凉水河(标记为L)以及广东东江流域(标记为D)的沉积物,并进行菲(Phe)的连续吸附-解吸实验,研究了不同含量及组成的溶解性有机质(DOMs)对其吸附与解吸性能的影响.结果表明,DOMs能明显抑制菲在沉积物上的吸附,在实验浓度范围内(0~110mg/L),菲在沉积物上的吸附量与DOC浓度呈显著的负线性相关,并且DOC浓度越高,对吸附作用的抑制越显著.在溶解性有机质存在条件下,菲在2种沉积物上的吸附均呈线性吸附特征,kd值随加入沉积物浸出液DOC浓度的减小呈增大的趋势.菲在2种沉积物上的解吸过程均呈现一定的迟滞性,其解吸迟滞性可用热力学指数TII来描述.随着菲初始浓度的增加,TII值先减小后增加,其变化可以用吸附在高低位点上的菲分子比例以及菲分子是否能够被禁锢在吸附剂微孔内部来加以解释;溶解性有机质的存在,能促进菲从沉积物上的解吸,从而使菲的解吸滞后性减弱, 增强其在水环境介质中的迁移与传输能力. 相似文献
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Sorption of dissolved organic matter and its effects on the atrazine sorption on soils 总被引:11,自引:0,他引:11
IntroductionApplication of organic amendments, such as sewagesludge to agricultural soils, has been considered as aneffective way to improve the soil physico chemical propertiesand organic matter compositions. Dissolved organic matter(D… 相似文献