Effect of biosurfactant[0] on the sorption of phenanthrene onto original and H2O2-treated soils

The objective of this study was to examine the effect of biosurfactant on sorption of phenanthrene (PHE) onto the original or H2O2-treated black loamy soil (typic isohumisols) and red sandy soil (typic ferralisols). The sorption isotherms were performed with the original and "soft" carbon-removed soils in the presence and absence of biosurfactant (200 mg/L). The sorption and degradation of biosurfactant were investigated. The result showed that organic matter played an important role in PHE sorption onto the black loamy and red sandy soils, and the PHE sorption isotherms on the "soft" carbon-removed soils exhibited more nonlinearity than those on the original soils. The values of partition coefficient (Kd) on the original black loamy soil with or without 200 mg/L biosurfactant were 181.6 and 494.5 mL/g, respectively. Correspondingly, in the red sandy soil, Kd was 246.4 and 212.8 mL/g in the presence or absence of biosurfactant, respectively. The changes of Kd suggested that biosurfactant inhibited PHE sorption onto the black loamy soil, but facilitated PHE sorption onto the red sandy soil. The nonlinearity of PHE sorption isotherm was decreased in the presence of biosurfactant. Site specific sorption might occur during PHE sorption onto both the original and the "soft" carbon-removed soils in the presence of biosurfactant. It was noted that biosurfactant could also be sorbed onto soils. The maximal sorption capacity of the red sandy soil for biosurfactant was (76.9 ± 0.007) μg/g, which was 1.31 times that of black loamy soil. Biosurfactant was degraded quickly in the two selected soils, and 92% of biosurfactant were mineralized throughout the incubation experiment for 7 d. It implied that biosurfactant should be added frequently when the remediation of polycyclic aromatic hydrocarbon (PAH)-contaminated soils was conducted through PAH desorption approach facilitated by biosurfactant.     

改性土壤对模拟含油废水中油的吸附

研究季铵盐阳离子表面活性剂四甲基铵离子 ( TMA)和十六烷基三甲基铵离子 ( HDTMA)改性的土壤 (黑土、黄棕壤、红壤 )对水中油的吸附作用 .结果表明 :改性土壤和未改性土壤均可吸附水中的油 ,但改性土壤对水中油的吸附能力明显高于未改性土壤 .改性土壤吸附油能力的顺序依次为 :1 CEC- HDTMA黑土 >1 CEC-HDTMA黄棕壤 >1 CEC- HDTMA红壤 >1 CEC-TMA黑土 >1 CEC-TMA黄棕壤 >1 CEC- TMA红壤 .未改性土壤和 HDTMA改性土壤对油的吸附通过分配来进行 ,吸附等温线可由 Henry方程表示 ,得出 logK_SOM为 2.69,logK_HDTMA为 3.35;TMA改性土壤对油的吸附符合 Langmuir方程 ,其对油的饱和吸附量分别为 1150 mg/kg( TMA黑土 ) ,751 mg/kg( TMA黄棕壤 ) ,172 mg/kg( TMA红壤 )     

生物质炭施用对土壤中氯虫苯甲酰胺吸附及消解行为的影响

分别在黑土、黄壤、红壤、紫色土和潮土中添加0.5%(质量分数)生物质炭,采用批处理等温吸附实验及室内消解实验测定了CAP的吸附等温线及消解动态,目的是揭示不同类型土壤中施用生物质炭对残留CAP的环境行为影响规律,为评估生物质炭田间施用综合生态效应,评价土壤残留CAP的环境污染风险提供理论依据.结果表明,生物质炭施用可提高土壤对CAP的吸附活性,但提高程度因土壤性质不同而异.有机质含量较高的黑土中添加生物质炭,吸附农药Kd值提高了2.17%,而有机质含量较低的潮土添加等量生物质炭后则提高了139.13%.生物质炭施入土壤后其对农药吸附活性受到不同程度抑制.与施入土壤前比较,生物质炭施入黑土、黄壤、红壤、紫色土和潮土中后吸附常数KF,biochar分别降低了96.94%、90.6%、91.31%、68.26%和34.59%.CAP在黑土、黄壤、红壤、紫色土和潮土中的消解半衰期为115.52、133.30、154.03、144.41和169.06 d,而在添加生物质炭的土壤中消解半衰期分别延长了20.39、35.76、38.51、79.19和119.75 d.与吸附实验结果一致,生物质炭施入黑土对延缓农药土壤消解作用最小,而潮土中施入生物质炭效果最明显.本研究表明生物质炭施入土壤后可增强对农药的吸附作用,延缓农药的土壤消解,但影响程度与土壤性质有关.     

Long-term tillage effects on atrazine and fluometuron sorption in Coastal Plain soils

Conservation tillage (CnT) management practices are known to increase levels of soil organic matter (SOM) in southeastern Coastal Plain soils. Plant residues in CnT systems accumulate at the surface and, with time, will form a layer enriched in SOM. The authors hypothesize that herbicide sorption will be highest in this SOM-enriched zone of CnT systems when compared to sorption at a similar depth in conventional tillage (CT) systems. The objective was to characterize the impact of two different tillage systems, CnT and CT, on sorption of atrazine [6-chloro-N-ethyl-N′-(1-methylethyl)-1,3,5-triazine-2,4-diamine] and fluometuron [N,N-dimethyl-N′-3-(trifluoromethyl)phenyl urea] in plots of Norfolk loamy sand (fine-loamy, siliceous thermic Typic Kandiudult). The plots have been under CnT and CT management for 18 yrs. Bulk (0–15 cm) and five equal incremental soil samples to a 15 cm depth were collected from 10 CnT and 10 CT plots, and the atrazine (ATR) and fluometuron (FLMT) sorption coefficients (K_d) were measured using batch equilibration. Significantly higher herbicide K_d values occurred in the CnT 0–3 cm samples, indicating that the highest amount of herbicide sorption occurred in the top few cm of soil. This corresponded to the stratified soil organic carbon (SOC) contents in topsoil of the CnT plots. In addition, analyses of covariance using SOC as the covariant to test for tillage effects indicated complex interactions among SOC, tillage, and depth. Those results confirm that tillage and soil depth will affect SOC contents of a Norfolk loamy sand, which correspondly will influence the magnitude of ATR and FLMT sorption.     

双酚S在两种典型地带性土壤中的吸附/解吸行为研究

采用批平衡实验方法研究了双酚S（BPS）在两种典型地带性土壤中的吸附/解吸行为.结果表明,吸附动力学曲线符合拟二级动力学方程.吸附等温线呈非线性,且同时符合Freundlich和Langmuir方程.相比而言,BPS更易吸附在高有机质含量的黑土中,298 K反应温度下BPS在黑土和红壤上的最大吸附容量分别为497.8和156.6 mg·kg^-1.吸附到两种土壤中的BPS存在解吸滞后现象,这可能是由于BPS以化学吸附和微孔扩散的形式存在于土壤中的缘故.溶液pH与BPS在土壤中的吸附容量呈负相关关系,即中性形态的BPS比阴离子形态的BPS具有更高的吸附容量.与结构类似物双酚A（BPA）的吸附相比,BPS在土壤中的吸附量更低,因此具有更高的迁移能力,可能会引起更高的环境健康风险.本研究结果为了解BPS在土壤中的迁移规律提供了数据支持.     

源自腐殖土的溶解性有机质组分对棕壤和黑土吸附苯并三唑的影响

溶解性有机质(DOM)影响着有机污染物在土壤中的吸附行为.将从腐殖土中提取的DOM(DOMbulk)用XAD-8树脂和阴/阳离子交换树脂进行分级,用红外光谱、元素分析、紫外分光光度计和电位滴定的方法对DOM不同组分特征进行分析.用吸附批次实验方法研究了DOM不同组分对棕壤和黑土吸附苯并三唑(BTA)的影响.结果表明,DOMbulk中疏水酸性(HOA)、疏水中性(HON)、亲水酸性(HIA)、亲水碱性(HIB)和亲水中性(HIN)组分比例分别为61%、17%、6%、2%和14%.由于黑土有机碳(OC)含量高于棕壤,黑土对BTA和DOM组分的吸附能力均大于棕壤.相对于黑土,棕壤吸附DOM的标化分配系数Koc较高,其原因是棕壤中含有较多的对吸附DOM起重要作用的黏粒和粉砂.由于水分子占据DOM结合点位,DOM组分与BTA在溶液中结合较弱.DOMbulk中HIN在土壤上吸附最强.HIN的吸附增加了土壤吸附BTA的点位,增加点位的促进吸附作用大于HIN与BTA的竞争吸附作用,最终表现为促进吸附.疏水组分在土壤上的吸附较弱,产生的新吸附点位较少,主要通过竞争吸附作用抑制土壤对BTA的吸附.DOMbulk由78%的疏水组分构成,对土壤吸附BTA的影响与疏水组分相似.     

Utilizing surfactants to control the sorption, desorption, and biodegradation of phenanthrene in soil-water system

An integrative technology including the surfactant enhanced sorption and subsequentdesorption and biodegradation of phenanthrene in the soil-water system was introduced and tested. For slightly contaminated agricultural soils, cationic-nonionic mixed surfactant- enhanced sorption of organic contaminants onto soils could reduce their transfer to plants, therefore safe-guarding agricultural production. After planting, residual surfactants combined with added nonionic surfactant could also promote thedesorption and biodegradation of residual phenanthrene, thus providing a cost-effective pollution remediation technology.0ur results showed that the cationic-nonionic mixed surfactantsdodecylpyridinium bromide (DDPB) and Triton X-100 (TX100) significantly enhanced soil retention of phenanthrene. The maximum sorption coefficient Kd* of phenanthrene for contaminated soils treated by mixed surfactants was about24.5 times that of soils without surfactant (Kd ) and higher than the combined effects of DDPB and TX100 individually, which was about 16.7 and 1.5 times Kd , respectively.0n the other hand, TX100 could effectively remove phenanthrene from contaminated soils treated by mixed surfactants, improving the bioavailability of organic pollutants. Thedesorption rates of phenanthrene from these treated soils were greater than 85% with TX100 concentration above2000 mg/L and approached 100% with increasing TX100 concentration. The biodegradation rates of phenanthrene in the presence of surfactants reached over 95% in30days. The mixed surfactants promoted the biodegradation of phenanthrene to some extent in 10-22days, and had no obvious impact on phenanthrene biodegradation at the end of the experiment. Results obtained from this study provide some insight for the production of safe agricultural products and a remediation scheme for soils slightly contaminated with organic pollutants.     

土壤-水体系中固/液比对溶解性石油烃吸附的影响

采用批实验的方法,研究了2种土壤在不同的固/液比（solid-to-solution ratio,SSR）条件下对溶解性石油烃（DPH）的吸附-解吸特性.结果表明,DPH在土壤中的吸附-解吸等温线符合线性方程;解吸表现出明显的滞后现象,滞后因子随SSR的升高而增加,随土壤有机碳含量（OC）的升高而减小,对于OC=1.54%的稻田土,当SSR从10.00 g·L^-1变化至75.00 g·L^-1,DPH的解吸滞后因子从1.43升高到2.21;对于OC=15.91%的黑土,当SSR从2.50 g·L^-1变化至5.00 g·L^-1,DPH的解吸滞后因子从1.18升高到1.37.说明吸附的不可逆性随SSR的升高而增强,随土壤有机碳含量的升高而减弱.另外,研究发现由吸附等温线计算得到的k_OC随SSR的升高（不可逆性的增强）而减小,在此基础上建立了固定体系中k_OC与SSR的关系模型,用于预测实际环境中DPH在土-水界面的迁移.     

土壤质地对自养固碳微生物及其同化碳的影响

自养微生物可同化大气中的CO2并将其转化为土壤有机碳,对提高农田土壤的碳吸收和碳储存有重要意义,然而土壤质地对自养固碳微生物功能种群及其同化碳的影响机制还不清楚.本研究选取亚热带地区同一母质发育而成的两种质地水稻土壤(壤质黏土和砂质黏壤土),通过14C-CO2连续标记技术结合室内模拟培养实验,探讨土壤质地对自养微生物同化碳(14C-SOC)、自养微生物截留碳(14C-MBC)和自养微生物可溶性碳(14C-DOC)的影响.以固碳功能基因(cbb L基因)作为指示基因,结合PCR和克隆测序技术,分析不同质地土壤自养固碳微生物群落结构和多样性的差异.结果表明,壤质黏土14C-SOC、14C-MBC和14C-DOC平均含量分别为133.81、40.16和8.10 mg·kg-1,均显著高于砂质黏壤土14C-SOC(104.95 mg·kg-1)、14C-MBC(33.26 mg·kg-1)和14C-DOC(4.18 mg·kg-1)平均含量(P0.05),说明土壤质地显著影响了土壤自养微生物碳同化量以及自养微生物同化碳在土壤中的转化.稀疏曲线、细菌cbb L基因文库覆盖度以及多样性指数分析结果显示壤质黏土固碳细菌群落多样性高于砂质黏壤土.系统发育分析表明,壤质黏土细菌cbb L基因序列与Rhodoblastus acidophilus、Blastochloris viridis、Thauera humireducens、Mehylibium sp.、Variovorax sp.等具有一定的同源性,而砂质黏壤土cbb L基因序列主要与根瘤菌和放线菌同源.可见,土壤质地对自养固碳微生物群落结构和多样性产生了深刻的影响,壤质黏土中较高的黏粒含量、土壤养分含量和阳离子交换量可能有利于维持更高的自养固碳微生物多样性和活性,从而导致不同质地土壤自养微生物碳同化量及其转化存在显著差异.     

五种土壤吸附喹乙醇特性的研究

用振荡平衡法研究了喹乙醇在东北黑土、常熟水稻土、陕西潮土、南京黄棕壤和江西红壤中吸附行为及其影响因素.结果表明,喹乙醇在5种土壤中的吸附行为均可用Langmuir方程和Freundlich方程进行良好的线性拟合.其吸附系数KF很小,分别为2.813,1.740,0.446,0.309和0.201,显示很难被土壤吸附.其KF与土壤有机质含量及阳离子交换量呈良好的相关性.而与土壤pH值及黏粒含量相关性较差.温度和离子强度均对喹乙醇在土壤中的吸附有一定影响,较低的温度和离子强度均有利于土壤对喹乙醇的吸附.     

金发草对土壤中菲、芘的修复机制

采用盆栽试验法,研究岩生植物金发草(Pogonatherum paniceum L.)对土壤中芘、菲的去除效果与修复机制.结果显示,在试验浓度范围(20～322 mg·kg^-1)内,种植金发草能有效去除土壤中芘、菲污染. 70 d后,菲、芘去除率分别为50.97%～86.77%、 46.45%～76.7%;比对照1(加0.1% NaN₃)高63.56%、 58.6%,比对照2(无NaN₃)高46.09%、 42.92%.金发草能吸收、富集部分菲和芘,根、茎叶组织中菲、芘含量随菲、芘添加浓度的升高而增大,且根部大于茎叶部、芘大于菲,但生物浓缩系数却逐渐减小.修复过程中,非生物因子、植物代谢、富集、微生物降解对菲的去除率分别为5.1%、 0.32%、 4.22%、 17.47%,对芘的去除率分别为2.56%、 4.27%、 2.01%、 15.68%;植物-微生物间的交互作用对菲、芘的去除率分别为41.56%、 36.64%.说明植物-微生物交互作用是金发草修复土壤中菲芘污染的主要机制.     

Sorption and phase distribution of ethanol and butanol blended gasoline vapours in the vadose zone after release

The sorption and phase distribution of 20% ethanol and butanol blended gasoline （E20 and B20） vapours have been examined in soils with varying soil organic matter （SOM） and water contents via laboratory microcosm experiments. The presence of 20% alcohol reduced the sorption of gasoline compounds by soil as well as the mass distribution of the compounds to soil solids. This effect was greater for ethanol than butanol. Compared with the sorption coefficient （Kd） of unblended gasoline compounds, the Kd of E20 gasoline compounds decreased by 54% for pentane, 54% for methylcyclopentane （MCP） and 63% for benzene, while the Kd of B20 gasoline compounds decreased by 39% for pentane, 38% for MCP and 49% for benzene, The retardation factor （R） of E20 gasoline compounds decreased by 53% for pentane, 53% for MCP and 48% for benzene, while the R of B20 gasoline compounds decreased by 39% for pentane, 37% for MCP and 38% for benzene. For all SOM and water contents tested, the Kd and R of all gasoline compounds were in the order of unblended gasoline 〉 B20 〉 E20, indicating that the use of high ethanol volume in gasoline to combat climate change could put the groundwater at greater risk of contamination,     

水稻对不同土壤中硒酸盐/亚硒酸盐的吸收和富集

通过土培试验研究了在3种类型土壤(红壤、黑土和灰钙土)上施用不同价态硒肥(Na2 SeO3或Na2 SeO4)条件下,水稻地上部硒含量的变化.结果表明,在水稻幼苗期,3种土壤上Se4+硒肥处理的水稻幼苗地上部硒含量高于Se6+硒肥处理.施用Se4+硒肥,红壤、黑土及灰钙土中水稻幼苗的硒含量分别为5.76、1.18和1.11 mg· kg-1,分别为对照的2.5、4.7和6.9倍;施用Se6+硒肥,红壤、黑土及灰钙土中水稻幼苗的硒含量分别为4.70、0.66和0.73 mg·kg-1.在水稻成熟期,施用Se4+硒肥后,红壤、黑土及灰钙土中水稻籽粒中硒含量分别由对照中的0.34、0.05和0.05 mg·kg-1增加到0.94、0.14和0.20 mg·kg-1;施用Se6+硒肥后,红壤、黑土及灰钙土中水稻籽粒中硒含量分别为1.13、0.12、0.16mg·kg-1.不同价态硒肥处理和土壤类型对水稻幼苗和成熟地上部硒含量都有显著影响.在pH值低的红壤上施用Se6+硒肥效果更好,而在pH值高的黑土和灰钙土上施用Se4+硒肥效果更好;从环境风险和硒对植物毒性的角度考虑,硒肥以亚硒酸盐的形式施用比较好.     

Adsorption characteristic of bensulfuron-methyl at variable added Pb^2＋ concentrations on paddy soils

The combined pollution of heavy metal Pb²⁺ and bensulfuron-methyl (BSM), originating from chemical herbicides, in agroecological environments has become commonplace in southern China. The adsorption of BSM on three paddy soils in the presence of Pb²⁺ was examined using high-performance liquid chromatograph (HPLC). Results indicated that adsorption of BSM could accurately be described by a Freundlich isotherm equation with correlation constant (R) > 0.98, irrespective of the presence of spiked Pb²⁺. Of the various factors influencing BSM sorption, soil pH appeared to be the most influential. The constant K_f of Freundlich isotherm equation tended to increase with increasing Pb²⁺ concentration in soil which indicated that the spiked of Pb²⁺ in paddy soils would promote the sorption of BSM. ΔG^θ of BSM in three paddy soils was less than 40 kJ/mol in all treatments, indicating the adsorption of BSM is mainly physical in nature. The elution of soil dissolved organic matter (DOM) enhanced the adsorption of BSM in paddy soils. The mechanisms involved in the promotion effects of the spiked Pb²⁺ on BSM adsorption might be the modified surface characteristics of paddy soil solids due to the soil acidification and the increase of soil organic matter concentration because of DOM binding.     

我国典型土壤对病毒等温静态吸附的数值模拟

通过室内等温静态批量平衡吸附实验,采用3种常见的等温线（Freundlich方程、Langmuir方程和Temkin方程）对2种病毒（MS2和X174）在2种处理（非灭菌和灭菌）条件下的6种土壤（红壤土、红粘土、乌栅土、黄泥土、沙质潮土和壤质潮土）中的吸附行为进行了回归拟合.实验结果和模拟结果均表明,土壤性质、病毒性质、土壤中的土著微生物对病毒在土壤中吸附行为均具有重要的影响.红粘土对MS2和X174的平均吸附比例几乎能达到100％,而2种潮土（沙质潮土和壤质潮土）相对较弱;总体来看土壤对X174的吸附能力高于MS2,但灭菌后的土壤对MS2的吸附能力却高于X174.在数值模拟中,Freundlich方程和Langmuir方程均具有理想的相关性.Freundlich方程能够表现出病毒浓度对其在土壤中吸附行为的影响;尽管Langmuir方程能够应用于土壤对病毒吸附能力的比较,但本研究中不能应用Langmuir方程来计算土壤对病毒的最大吸附量.     

沙土不同有机矿质复合体对磷的吸附特征影响

采用平衡吸附法研究了沙土不同有机矿质复合体对磷的吸附特征影响.结果表明,去除腐殖质后的沙土对磷的吸附能力大大降低,其饱和吸附量Qm和吸附分配系数K分别只能达到原样的38.41％和7.42％,说明有机矿质复合体是影响磷在沙土上吸附特征的主要因素;钙键有机矿质复合体的碳标化饱和吸附量为388.35 mg·kg-1,相当于原样的1.51倍,在其所形成的有机矿质复合体中存在着孔隙填充方式的磷吸附;铁铝键有机矿质复合体在对磷吸附中发挥着重要作用,其碳标化饱和吸附量可达500.23 mg·kg-1,相当于原样的1.93倍,其吸附机制除孔隙填充方式外,还存在铁铝氧化物及水化氧化物对磷的配位吸附.因此,考查土壤对磷的吸附能力时不仅要考虑腐殖质的含量,更要考虑腐殖质的复合形态,它也是影响土壤对磷吸附特征的重要因素.以原样的磷饱和吸附量为基准,钙键有机矿质复合体和铁铝键有机矿质复合体携载的吸附态磷可分别按原样的1.51和1.93倍进行估算.     

A comparative study of the sorption of O-PAHs and PAHs onto soils to understand their transport in soils and groundwater

Polycyclic aromatic hydrocarbons (PAHs) and their oxygenated derivates (O-PAHs) are identified in soils and groundwater of industrialized sites and contribute to the risk for Humans and the Environment. Nevertheless, data are scarce in literature concerning their retention and transfer in soils and no soil - water partition coefficients are available for these compounds. Sorption of two PAHs, fluorene and acenaphthene and two O-PAHs, 9H-fluorenone and dibenzofuran onto two soils with different organic carbon contents was evaluated and compared by determining their sorption isotherms. Effect of ionic strength and liquid to solid ratio, on fluorene and fluorenone sorption was also evaluated. Sorption equilibrium is achieved within less than 24 hr of mixing and linear sorption models best fit the isotherm data. Acenaphthene and dibenzofuran are similarly sorbed onto the soil. K_D of fluorene is higher than the one of fluorenone, showing a smaller affinity of fluorenone towards the solid phase. This means that O-PAH could form larger contamination plumes in groundwater than PAHs. Decreasing the L/S ratio from 100 to 50 and 30, increases the sorption of fluorenone onto the soil by 56% and 67% respectively, while the sorption of fluorene is slightly increased. Increasing the ionic strength of the aqueous phase also modifies the sorption of fluorenone, contrary to the sorption of fluorene which is slightly affected.     

外加可溶性碳、氮对不同热量带土壤氨挥发的影响

在室内条件下采用静态吸收法,研究了外加可溶性碳、氮对不同热量带经长期施肥的3种农田土壤:黑土、潮褐土和红壤氨挥发的影响.结果表明,施用氮肥显著促进了土壤氨挥发,在单施氮肥和可溶性碳配施氮条件下,不同热量带土壤氨挥发量从高到低分别为潮褐土(14.3、 7.37 mg·kg~(-1)),黑土(1.52、 1.11 mg·kg~(-1)),红壤(0.998、 0.402 mg·kg~(-1)).添加可溶性碳显著减少土壤因施氮肥产生的氨挥发量,其中黑土减少27.0%,潮褐土减少48.5%,红壤减少60.0%.在黑土、潮褐土长期不同施肥土壤中,单施氮肥后氨挥发量均表现为无肥土壤 > 化肥土壤 > 化肥+有机肥土壤,与可溶性碳配施氮后氨挥发量变化规律相反;在红壤长期不同施肥土壤中,单施氮肥和可溶性碳配施氮后氨挥发量均表现为无肥土壤 > 化肥土壤 > 化肥+有机肥土壤.研究结果还表明,外加可溶性碳、氮后,潮褐土铵态氮含量的减少幅度和硝态氮含量的增加幅度均显著高于黑土和红壤,说明潮褐土中氮素损失潜能大.     

不同来源土样胶体对氯霉素吸附行为的影响

选取不同来源沉积物或土壤样品（沉积物A1和A2,天然土壤B1和B2,市售营养土B3）,采用切向超滤与多种纳米分析技术相结合的方法,分析了不同土样中胶体的理化特征及其对氯霉素（CAP）吸附行为的影响.荧光区域积分法结果显示,土样胶体的荧光组分以色氨酸类蛋白质、类富里酸和类腐殖酸为主,络氨酸类蛋白质和溶解性微生物代谢物质存在较少.吸附实验结果表明,B3胶体对CAP的吸附率最大（36.25%）,在胶体浓缩液和超滤液中的分配比例最高（1.91）,但其有机碳归一化结合系数最低（3.93）.与天然土壤相比,河湖沉积物胶体的吸附率较高,但其与CAP的结合能力却较低.冗余分析结果表明,胶体对CAP的吸附主要与其芳香度、有色溶解性有机质丰度、溶解性有机碳浓度及分子量有关;此外,胶体的腐殖化程度、芳环上羧基、羰基等官能团的比重及荧光物质中溶解性微生物代谢产物和类腐殖酸对CAP的吸附行为也具有较大影响.     

水溶性有机碳对菲吸附系数测定的影响

以菲为代表性化合物,利用摇瓶吸附实验研究土壤水分配体系中溶解态有机碳(DOC)对有机碳归一化吸附系数测定结果的影响.研究结果表明,在吸附系数测定过程中土壤溶出的DOC会导致水相中菲的浓度显著增加,很大程度上改变了菲在土水两相中的分配平衡,从而导致吸附系数的测定误差.根据文献报道的菲与DOC相互作用常数(K_doc)以及实测体系中DOC浓度可以对实验数据进行校正,以获得更为可靠的结果,本文对线性吸附系数和Freundlich吸附系数分别进行了校正,得到有机碳归一化的吸附系数lgKoc为4.35 ,lgK_Foc为7.01.校正前后的lgK_oc与文献数据的对比从侧面反映出在水土体系的吸附研究中可能普遍包含因不同浓度DOC影响所造成的偏差,考虑这种影响对于准确比较不同研究得到的吸附参数具有重要意义.