Adsorption of Diuron and Linuron in Gaza Soils

This study investigated the adsorption potential of diuron and linuron in selected soil samples collected from agricultural area of Gaza Strip, Palestine and correlated the adsorption results to the soil properties. The adsorption experiments are based on the batch equilibrium technique and UV-Spectrophotometer method to determine the equilibrium concentration of both herbicides. Results of adsorption experiment showed that linuron and diuron are adsorbed in various amounts in Gaza soils according to the variation in pH, organic matter and clay content. Adsorption isotherms of both herbicides were linear in the tested concentration. Fitting the adsorption data to Freundlich equation showed good fitting and Freundlich constants were less than one indicating physical adsorption processes. It is concluded that soil organic matter and pH affect the adsorption of both herbicides. These results provided a better understanding of the behavior of diuron and linuron in Gaza soils.

Leaching Potential of Diuron and Linuron in Gaza Soils

This study investigated the leaching potential of diuron and linuron in different soil types in Gaza Strip, Palestine under laboratory and field conditions. Leaching potential was evaluated by tin columns and bioassay technique using Molokhia as test plant. The responses of the test plant were regressed versus concentrations of the herbicide to estimate linear regression equation and the regression coefficient. The obtained results indicate strong positive association between Molokhia and concentrations of diuron or linuron;accordingly it was used in the bioassay and estimation of the concentrations of the tested herbicides in the leaching depth. Leaching potential was very low in North Gaza and Kkan Younis soil, whereas in the Meddle zone soil was very large. Leaching potential under laboratory conditions was larger that under field conditions. The bioestimated concentrations in soil layer under field conditions were sever folds of magnitude lower than those under laboratory conditions. The interesting outcome of this study is that leaching potential is dependent on soil clay fraction, soil organic matter, and soil pH. These results provided answers to the questions raised by farmers in Gaza Strip.

Bioremediation of Diuron in Soil Environment: Influence of Cyanobacterial Mat

Diuron is a herbicide widely used in the Middle East;its field application creates many environmental problems. This study investigated the bioremediation of Diuron in soil environment by Cyanobacterial mats collected from Gaza Wadi. Various concentrations of Diuron were injected in water saturated soil samples pre-treated with Cyanobacterial mat for several periods. Percent growth of Jews mallow as a test plant was taken as indicator of biodegradation of Diuron. Results showed that Diuron was degraded in soil and degradation was more pronounced when Diuron was incubated with Cyanobacterial in the irrigation water. Larger applied rate of Cyanobacterial mat did not affect the biodegradation of Diuron. These encouraging results suggest that application of Cyanobacterial mat could be a suitable method to remediate soil pollution.

Residue Analysis of 55% MCPA·ametryn·diuron WP

The digestion regularity of MCPA, ametryn and dim＇on which were the active ingredients of 55% MCPA · ametryn · diuron WP in sugarcane leaves and soil of sugarcane plantation collected from Changsha of Hunan Province and Haikou of Hainan Province in 2009 and 2010were studied in the paper, and the results showed that these three agents had rapid digestion. The final residue test showed that beth MCPA and ametryn had not been detected in the study; the average resi- dues of diuron in the soil collected from Hunan Province in 2009 and 2010 were 0.018 and 0.015 mg/kg, respectively which were slightly larger than the critical value of 0. 013mg,/kg; diuron had no been detected in other treatments.

Distribution of Diuron in Coastal Seawater and Sediments from West Sea Area of Zhoushan Island

The pollution level of diuron in seawater and sediments in the west coastal sea area of Zhoushan Island from 2011 to 2013 was investigated. Results revealed that the concentration of diuron in seawater varies from less than (3.0 to 52.1) ng·L-1, with an average level of less than 11.1 ng.L-1. The annual average content was less than 7.9 ng.L-1, 13.9 ng.L-1, and 12.3 ng.L-1 in 2011, 2012, and 2013, respectively. The concentrations of diuron in marine sediments also varied from less than (0.3 to 3.9) ng.g-1 (dry weight), with an average concentration of less than 1.13 ng g-1 (dry weight). The annual average concentration was less than 0.851 ng.g-1, 1.328 ng.g-1, and 1.202 ng.g-1 in 2011, 2012, and 2013, respectively. The accumulation of diuron in seawater and sediments may pose a potential risk to the marine ecosystem of the investigated sea area.

Expression analyses of stress‑responsive genes in the hermatypic coral Acropora tenuis and its symbiotic dinofagellates after exposure to the herbicide Diuron

Diuron is one of the most frequently applied herbicides in sugarcane farming in southern Japan,and Australia.In addition,it is used as a booster substance in copper-based antifouling paints.Due to these various uses,Diuron is released into the marine environment;however,little information is available on gene expression in corals and their symbiotic algae exposed to Diuron.We investigated the efects of Diuron on stress-responsive gene expression in the hermatypic coral Acropora tenuis and its symbiotic dinofagellates.After seven days of exposure to 1µg/L and 10µg/L Diuron,no signifcant changes in the body colour of corals were observed.However,quantitative reverse transcription-polymerase chain reaction analyses revealed that the expression levels of stress-responsive genes,such as heat shock protein 90(HSP90),HSP70,and calreticulin(CALR),were signifcantly downregulated in corals exposed to 10µg/L of Diuron for seven days.Moreover,aquaglyceroporin was signifcantly downregulated in corals exposed to environmentally relevant concentrations of 1µg/L Diuron.In contrast,no such efects were observed on the expression levels of other stress-responsive genes,such as oxidative stress-responsive proteins,methionine adenosyltransferase,and green/red fuorescent proteins.Diuron exposure had no signifcant efect on the expression levels of HSP90,HSP70,or HSP40 in the symbiotic dinofagellates.These results suggest that stress-responsive genes,such as HSPs,respond diferently to Diuron in corals and their symbiotic dinofagellates and that A.tenuis HSPs and CALRs may be useful molecular biomarkers for predicting stress responses induced by the herbicide Diuron.

东部近海海产品中有机磷和敌草隆农药的残留特征与健康风险评估

为深入了解我国东部近海海产品中有机磷农药(OPPs)和敌草隆农药的残留特征和健康风险,对来自中国东部近海海域的典型海产品进行了抽样调查,采用气相色谱-三重四级杆串联质谱仪(GC-MS/MS)和高效液相色谱-三重四级杆串联质谱仪(LC-MS/MS)对海产品体内OPPs和敌草隆含量进行测定和分析。结果表明:①8种OPPs总残留浓度为47~6638 ng/g(以干质量计),平均值为707 ng/g;敌草隆浓度范围为nd(未检出)~3.3 ng/g,平均值为0.49 ng/g。与甲壳类和鱼类相比,OPPs和敌草隆更易蓄积在以滤食底层悬浮物为食的软体动物体内。②空间分布上,OPPs在不同采样点海产品体内的残留浓度差异显著,敌草隆在舟山海域海产品体内残留浓度相对较高。③除连云港市海域软体动物缢蛏总风险指数(HI)值为1.1外,其余海产品中9种农药残留产生的HI值均小于1,健康风险相对较低,处于可接受水平。三唑磷和喹硫磷在螠蛏和大黄鱼的体内残留量相对较高,应进一步重点关注。研究显示,东部近海海产品中,儿童摄入软体动物类的风险尤为突出。因此,建议东部沿海居民,特别是儿童群体,应控制高风险海产品的摄入量以保障健康安全。

钙改性水葫芦基生物炭吸附水中敌草隆的效能与机理

以水葫芦为原料、CaCl_(2)为改性剂,通过一步热解法制备了钙改性水葫芦基生物炭(CWHBC),基于表征技术分析了其表面形貌、比表面积、孔径分布、官能团组成等物化性能,并探究了其吸附去除水中敌草隆的效能与机理。结果表明,CWHBC比未改性生物炭(WHBC)具有更大的比表面积、更丰富的孔隙结构、更多的含氧官能团、更强的亲水性,这些物化性能的改变增强了生物炭的吸附能力。CWHBC对水中敌草隆的吸附符合准二级吸附动力学模型和Langmuir吸附等温线模型,表明该吸附以单层化学吸附为主,主要吸附机理为氢键作用、π-π作用和表面络合。单因素试验结果表明,CWHBC在各种条件下均具有良好的吸附性能,采用0.2mol/LHCl对其进行5次吸附/解吸循环后的吸附容量仍高达初次吸附容量的94.62%。因此,使用一步热解法制备的CWHBC可有效去除水中敌草隆,且具有较好的环境适应能力和重复使用性能。该研究提供了一种低成本、高效的吸附材料,能有效实现水葫芦的资源化利用,具有良好的工程应用前景与潜力。

Heterogeneous photocatalytic degradation of diuron on zinc oxide: Influence of surface-dependent adsorption on kinetics,degradation pathway,and toxicity of intermediates

Heterogeneous photocatalytic reaction has been generally applied for degradation of toxic contaminants.Degradations of a compound using the same kind of catalyst that was synthesized differently are commonly found in literature.However,the reported degradation intermediates are normally inconsistent.This issue is especially important for the degradation of toxic compounds because intermediates may be more toxic than their parent compounds and understanding the reason is necessary if appropriate catalysts are to be designed.This work systematically compares the photocatalytic degradation of diuron,a toxic recalcitrant herbicide,on two forms of zinc oxide(ZnO),i.e.,conventional particles with zinc-and oxygen-terminated polar surfaces as the dominating planes,and nanorods with mixed-terminated nonpolar surfaces.Experimental and theoretical results indicate that both the rate of reaction and the degradation pathway depend on the adsorption configuration of diuron onto the surface.Diuron molecules adsorb in different alignments on the two surfaces,contributing to the formation of different degradation intermediates.Both the aliphatic and aromatic sides of diuron adsorb on the polar surfaces simultaneously,leading to an attack by hydroxyl radicals from both ends.On the other hand,on the mixed-terminated surface,only the aliphatic part adsorbs and is degraded.The exposed surface is therefore the key factor controlling the degradation pathway.For diuron degradation on ZnO,a catalyst confined tomixed-terminated surfaces,i.e.,ZnO nanorods,is more desirable,as it avoids the formation of intermediates with potent phytotoxicity and cytogenotoxicity.

CoFe-LDH/泡沫铜的制备及催化介质阻挡放电等离子体降解水中敌草隆性能与机制

采用一步水热法,以钴和铁元素为活性组分制备了片层状钴铁层状双金属氢氧化物(CoFe-LDH),通过调节元素摩尔比和水热温度、时间以及尿素投加量的制备条件得到了可以高效催化介质阻挡放电等离子体(DBDP)的粉末催化剂。研究结果表明,当n(尿素)∶n(Co)∶n(Fe)=10∶3∶1,水热温度为120℃,水热时间18 h时,得到的CoFe-LDH催化性能最优,其催化DBDP降解敌草隆(DUR)的降解率和降解速率常数分别达到了96.54%和0.1354 min^(-1),制备条件中水热时间对催化性能影响最大。在此基础上,将配比优化的CoFe-LDH负载在泡沫铜(CuF)表面,得到了片状可回收的三元CoFe-LDH/CuF(CFHC)催化剂。系统地表征了CFHC的结构组成,研究了微观结构和元素组成与催化性能之间的内在联系。由于还原态铜元素的引入,增加了催化剂表面的氧空位含量,显著地提升了复合材料的催化性能。CFHC的加入成功将DBDP对敌草隆的去除速率提升至0.2175 min^(-1),是DBDP空白体系的3.18倍。CuF的引入增加了催化剂的导电能力,在降解过程中钴、铁、铜和氧空位之间的电子转移是高催化活性的根本原因,CFHC重新调整了DBDP体系内的优势活性物种,·O_(2)^(-)和^(1)O_(2)取代·OH成为了降解敌草隆的主要活性物质。

基于UPLC-MS/MS的土壤中敌草隆残留检测技术

为了提高土壤中敌草隆的萃取效率,更为精确地检测其残留量,采用加压溶剂萃取作为土壤中敌草隆的萃取方式,使用超高效液相色谱-三重四极杆串联质谱法对土壤中残留的敌草隆进行了检测,建立了一种土壤中敌草隆萃取和检测的新方法。试样经冷冻干燥处理后,将其研磨样装入加压溶剂萃取仪,使用2∶1的甲醇-二氯甲烷混合溶液作为萃取剂,萃取液经Carb/PSA石墨化炭黑/乙二胺-N-丙基固相萃取柱净化后,通过C18色谱柱进行分离,并以体积比为1∶9的甲醇-二氯甲烷混合溶剂进行梯度洗脱,质谱中选择电子轰击离子源和多反应监测模式。结果显示,敌草隆在20~500μg·L^(-1)范围内具有良好的线性关系,相关系数为0.999 5,且目标峰分离效果较好;不同浓度下敌草隆的加标回收率为71.2%~90.3%,相对标准偏差为1.7%~9.4%,检出限为0.000 287μg·g^(-1)。该方法有利于对土壤中敌草隆残留量大批量检测的操作,提高了目标物的萃取效率和检测效率,提高样品检测准确性。

土壤中黑碳对农药敌草隆的吸附-解吸迟滞行为研究

采用批处理振荡法和连续稀释法分别测定了敌草隆在人工添加黑碳土壤和自然形成的不同有机质和黑碳含量的土壤中的吸附-解吸行为。吸附结果表明,人工添加黑碳的土壤对敌草隆的吸附强度和吸附容量以及吸附等温线的非线性均随土壤黑碳添加浓度的增加而逐步增大;自然土壤的吸附容量和吸附强度随土壤总有机质含量增加而增加,但吸附等温线的非线性则与土壤中黑碳对有机质的相对含量有关,黑碳比例越高,等温线非线性越大。解吸实验结果表明,无论是人工添加黑碳的土壤还是自然土壤,对敌草隆的解吸迟滞作用均随土壤黑碳含量增高而愈明显。

水体系中EDTA-Fe(Ⅱ)/K_2S_2O_8降解敌草隆的研究

对水体系中EDTA-Fe(Ⅱ)/K2S2O8降解敌草隆的方法进行了研究.在综合考虑经济性和降解率的前提下,提出了反应的最佳条件:K2S2O8初始浓度为2.0 mmol.L-1,Fe(Ⅱ)初始浓度为1.0 mmol.L-1,EDTA初始浓度为0.5 mmol.L-1,反应时间为300 min,pH=7.0,最终0.1 mmol.L-1敌草隆降解率可达67.6%.同时,采用分子探针竞争实验鉴定了体系中产生的硫酸根自由基和羟基自由基,并采用LC/MS法鉴定了敌草隆的主要降解产物,从而探讨了敌草隆在EDTA-Fe(Ⅱ)/K2S2O8体系中可能的降解途径.

热激活过硫酸盐氧化法降解敌草隆

硫酸根自由基（SO4-·）是选择性小、氧化还原电位高的自由基，和羟基自由基（OH·）一样能够被运用于难降解有机污染物的去除．文中对热激活过硫酸钠产生SO4-·降解典型农药敌草隆进行了研究，通过实验考察了反应温度、敌草隆浓度、过硫酸钠投加量、初始pH值以及地下水中几种典型阴离子（CO2-3、HCO3-和Cl-）对降解效果的影响．结果表明：热激活过硫酸盐对敌草隆的降解符合准一级动力学模型（r2＞0．95），且温度对敌草隆降解速率的影响符合阿伦尼乌斯模型（r2＞0．95）；当温度在50～70℃时，产生的活化能为（166．7±0．8）kJ/mol；准一级反应速率随过硫酸盐投量增加而增大，随初始底物浓度增大而减小；最大反应速率发生在pH值为6．3时（准一级反应速率常数kobs ＝0．003 min-1）；地下水中3种典型阴离子对降解过程的抑制程度为CO2-3＞HCO3-＞Cl-．由此可见，热激活过硫酸盐氧化法可作为降解敌草隆和其他地下水中关注较多的有机污染物的一种有效途径．

γ-辐照对水中敌草隆的降解研究

以敌草隆作为研究对象,探讨了γ-辐照对敌草隆的降解效果,以及NO3-,NO2-,H2O2和CO32-对降解效果的影响,在初始浓度为18.5mg·l-1时,1.0kGy的辐照剂量即可达到完全去除;随着辐照剂量的增加,敌草隆水溶液在200nm—400nm处的吸光度均逐渐减小,敌草隆的浓度也逐渐减小.NO3-,NO2-,H2O2和CO32-的加入均抑制了敌草隆的降解.辐照降解敌草隆的过程主要是由.OH自由基引起的,并且可以用一级动力学来描述.

水体系中Fe(Ⅱ)/K2S2O8降解敌草隆的研究

在初始pH7.0的Fe(Ⅱ)/K2S2O8体系中,分别研究了K2S2O8和Fe(Ⅱ)初始浓度以及Fe(Ⅱ)分批加入对敌草隆降解的影响,结果表明,在pH 7.0,K2S2O8和Fe(Ⅱ)初始浓度分别为2.0mmol.l-1和1.0mmol.l-1时,反应300min后,0.1mmol.l-1敌草隆的降解率达到40.0%,Fe(Ⅱ)分批加入能够促进敌草隆的降解.另外,通过对Fe(Ⅱ)/K2S2O8,EDTA-Fe(Ⅱ)/K2S2O8,柠檬酸-Fe(Ⅱ)/K2S2O8以及K2S2O3-Fe(Ⅱ)/K2S2O8四种Fe(Ⅱ)/K2S2O8体系的对比研究,发现在Fe(Ⅱ)/K2S2O8体系中,加入Fe(Ⅱ)的螯合剂EDTA和柠檬酸以及还原剂K2S2O3能够明显促进敌草隆降解.采用分子探针法的竞争实验鉴定了体系中产生的硫酸根自由基.

生物质炭对敌草隆在土壤中的慢吸附及其对解吸行为的影响

由生物质高温厌氧热解制备的生物质炭作为一种高效多功能的土壤改良物质近年来逐渐受到关注,生物质炭施入土壤对农药等污染物的吸附隔离可有效降低农药的生物有效性和移动性。为探讨生物质炭对农药吸附的时间动态过程及其对解吸行为的影响,采用室内模拟试验,测定农药敌草隆在添加不同含量生物质炭的土壤中的吸附量随吸附时间延长的动态变化过程,并比较其对农药解吸行为的影响。结果表明:土壤中添加少量生物质炭可增强其对农药的吸附作用,且土壤生物质炭含量越高,对农药的吸附作用越强;土壤对农药的吸附量随吸附接触时间延长而逐渐增加,而且添加生物质炭含量越高,土壤对敌草隆的吸附量随时间延长增加得越多。解吸试验结果表明,土壤中生物质炭含量越高,吸附接触时间越长,农药越难被解吸,当土壤中生物质炭的添加量为1.0%,吸附56 d时敌草隆的解吸率仅为1.81%。

柠檬酸-Fe(Ⅱ)/K2S2O8对敌草隆降解的研究

研究了初始pH值为3.0时敌草隆在柠檬酸-Fe(Ⅱ)/K2S2O8体系中的降解行为.结果显示,0.1mmol.l-1敌草隆的最佳降解条件为:[K2S2O8]=2.0mmol.l-1,[Fe(Ⅱ)]=1.0mmol.l-1,[CA]=0.5mmol.l-1.在该条件下,敌草隆的降解符合一级反应动力学,半衰期为30.5m in.此外,采用分子探针法鉴定了体系中产生的硫酸根自由基和羟基自由基.并采用液-质联用技术鉴定了敌草隆在柠檬酸-Fe(Ⅱ)/K2S2O8体系中的降解产物,探讨敌草隆在柠檬酸-Fe(Ⅱ)/K2S2O8体系中可能的降解机理.

介质阻挡放电对水中敌草隆的降解研究

采用介质阻挡放电方法降解水溶液中的敌草隆,对影响敌草隆降解的因素进行了研究,并初步探讨了其降解动力学.结果表明,提高放电功率、减小介质层厚度和减小放电间距均能提高敌草隆的降解率,酸性条件下更有利于敌草隆的降解.相同实验条件下敌草隆初始浓度的升高会导致其降解率降低.添加不同种类的金属离子(Fe2+,Fe3+,Cu2+)均能提高敌草隆的降解率,不同金属离子在投加量为30mg·l-1时,敌草隆降解率提高量的大小顺序为:Fe2+>Fe3+>Cu2+.自由基清除剂(叔丁醇、异丙醇、碳酸钠)的加入抑制了敌草隆的降解.敌草隆在介质阻挡放电反应器中的降解符合一级反应动力学.

超高效液相色谱法测定甘蔗和土壤中敌草隆残留

建立了一种测定甘蔗和土壤中敌草隆农药残留的超高效液相色谱(UPLC)方法。样品经水和甲醇提取,二氯甲烷液-液分配后,过中性氧化铝柱纯化,用石油醚:乙酸乙酯的混合液(体积比85:15)淋洗和洗脱,洗脱液经减压浓缩后用5mL乙腈定容。采用UPLC分离,紫外检测器检测,外标法定量。敌草隆在0.02～5.0mg/L范围线性关系良好,相关系数为0.9999;甘蔗、土壤和甘蔗叶中敌草隆的平均回收率分别为76.0%～98.4%、84.1%～98.0%和79.2%～90.0%;变异系数分别为0.69%～2.93%、5.11%～9.30%和2.45%～4.92%。检出限分别为5μg/kg、10μg/kg和10μg/kg。