自然水体生物膜各组分吸附铅和镉时共存铅、镉的相互影响

研究了自然水体生物膜及其主要组分吸附铅和镉时共存铅、镉间的相互影响,结果发现共存的镉对生物膜各组分吸附铅的能力影响很小,而共存的铅使各组分吸附镉的能力明显下降,且不同组分受影响的程度比较接近.     

海带对镉、铅的吸附作用及其机理

利用大型海藻海带(Laminaria japonica)作为可降解性生物吸附材料,对有害重金属镉离子和铅离子的吸附作用和机理进行了研究.结果显示,通过电位差滴定法,得到海带的酸性基数量为1.25mmol.g-1,其解离常数为0.18 mmol.l-1.对平衡吸附量与pH的关系进行了模型模拟.海带对于金属离子的吸附为Bidentate型,吸附平衡常数分别为5.72×103L.mol-1,6.28×104L.mol-1.同时,采用拟二次速度模型对镉离子和铅离子的吸附速度进行了模拟,得到的吸附速度常数分别为0.010 min-1,0.014min-1.结论,海带对二价镉、铝离子的吸附量大于很多其它藻类吸附剂,对它的研究可为重金属化湖泊水质的改善和生态修复提供参考依据.     

农林废弃物基生物炭对重金属铅和镉的吸附特性

以沙柳、水稻和玉米秸秆3种农林废弃物为原材料,于500℃条件下热解制备生物炭,并通过元素分析、比表面积分析仪、扫描电镜(SEM)和红外光谱(FTIR)等分析方法对所制备的生物炭进行表征。探究了溶液初始pH、干扰离子强度和初始吸附剂投加量等因素对3种生物炭吸附Pb~(2+)和Cd~(2+)作用的影响,讨论了吸附动力学特性及吸附等温特性。结果表明:不同生物质制备出的3种生物炭的碱性和灰分含量由高到低依次为沙柳秸秆生物炭(SWB)、玉米秸秆生物炭(CB)和水稻秸秆生物炭(SB),FTIR检测结果显示3种生物炭表面均含有大量含氧官能团;当溶液pH为3～6时,3种生物炭对Pb~(2+)和Cd~(2+)吸附量随pH值的增加而升高,对Pb~(2+)的吸附效果随着溶液中离子强度的增强而降低,而SWB对Cd~(2+)的吸附效果随离子强度的增加而增加;3种生物炭对Pb~(2+)和Cd~(2+)的吸附过程符合准二级动力学模型,R~2均大于0.99,表明生物炭吸附速率主要由化学吸附机制决定;SWB、SB和CB对Cd~(2+)的吸附过程既符合Langmuir模型,又符合Freundlich模型,而生物炭对Pb~(2+)的吸附过程更适合Langmuir等温模型,表明生物炭对Pb~(2+)的吸附近似单分子层吸附,而对Cd~(2+)的吸附存在多分子层吸附。     

铅、镉污染废水树皮类吸附材料的筛选

近年来,水体重金属污染日趋严重,筛选出绿色高效处理重金属污染废水的吸附材料迫在眉睫.本文采用振荡吸附法研究了10种树皮类生物质吸附材料在不同投加量、初始浓度、pH和吸附时间下对模拟污染废水中Pb~(2+)和Cd~(2+)的吸附效率.结果表明,在25℃和180 r·min~(-1)恒温振荡条件下,10种树皮对Pb~(2+)和Cd~(2+)的吸附效率存在明显差异(P0.05).它们对模拟废水Pb~(2+)和Cd~(2+)的吸附量和吸附率,分别随初始浓度的增加呈递增和递减趋势;在0—120 min内随吸附时间的延长而提高;在pH 2.0—4.0范围内,随pH的增大而明显提升.红外光谱分析表明,羟基和羧基参与了Pb~(2+)和Cd~(2+)吸附.在投加量0.5 g·L~(-1)、模拟废水初始浓度50 mg·g~(-1)、pH 5.50和吸附时间120 min条件下,侧柏(Platycladus orientalis)皮、核桃树(Juglans regia)皮和构树(Broussonetia papyrifera)皮对Pb~(2+)的吸附量可达71.77—83.61 mg·g~(-1),对Cd~(2+)的吸附量达到64.69—70.33 mg·g~(-1),对实际污染废水具有较高的吸附率,最高可达98.21%.因此,侧柏皮、核桃树皮和构树皮可能是是吸附复合污染废水中铅镉的潜在材料.     

海藻酸钠联合玉米秸秆炭包埋固定蜡样芽孢杆菌的条件优化

为探讨耐Cd菌株实际应用的可能性,用海藻酸钠(SA)联合自制的玉米秸秆炭包埋固定耐Cd菌株蜡样芽孢杆菌H6,通过单因素实验与正交实验,优化了包埋固定的最佳配比,并以1 mol·L~(-1)的HNO_3溶液作为解吸剂,考察了固定化小球的重复利用效果.结果表明,在实验设定的条件下,固定化小球的最佳制备条件为:SA浓度4%,包炭量2%,包菌量25%,交联剂CaCl_2浓度2.5%.SA、玉米秸秆炭和菌三者组合制备的小球对Cd~(2+)的吸附能力强于SA或SA单独包埋炭或菌,最高Cd~(2+)吸附量可达5.80 mg·g~(-1).解吸实验结果表明,固定化小球在解吸4次后仍具有较强的吸附能力.因此,固定化小球能有效循环利用且吸附能力较稳定.     

沉水植物龙须眼子菜(Potamogeton pectinatus)对镉、铅的吸附特性

采用龙须眼子菜(Potamogeton pectinatus)干样为实验材料,研究了龙须眼子菜对溶液中镉、铅吸附的基本特征。相同浓度不同时间条件下的吸附实验结果显示,龙须眼子菜对溶液中镉、铅离子的吸附速度很快,大约20min就能达到平衡,吸附的限速过程是小孔扩散过程,随着时间的延长,吸附的动力学特征可用假二次方程描述。相同时间不同浓度条件下的吸附实验结果显示,龙须眼子菜对镉、铅的最大吸附量分别能达到32368和24776mg·kg-1,吸附的浓度动力学特征符合Langmuir曲线方程。所有结果都表明,龙须眼子菜能有效地从溶液中去除镉和铅,可以用于水体镉、铅污染的植物修复,也可把龙须眼子菜干样作为一种新的吸附剂用于去除工业废水中的镉和铅。     

固定化球形红细菌去除镉的动力学及其与质粒的关系

利用聚乙烯醇为载体包埋固定化球形红细菌,研究了固定化微生物去除Cd2 的动力学特征.结果表明,在Cd2 初始浓度为20～160 mg/L时,固定化球形红细菌具有良好的去除能力,去除率可达75%以上.固定化球形红细菌去除Cd2 的反应遵循二级反应动力学方程-dC/dt=k2C2 k1C k0, R2=0.957 7～0.993 8.随着Cd2 初始浓度的增加,固定化球形红细菌对Cd2 的最大去除速率p下降,半衰期T1/2增加,抑制作用增强.此外,通过质粒检测,该菌株含有一个较大质粒,抗镉和去除镉的基因均位于质粒上.     

利用细菌表面展示技术构建镉耐受性的重组根瘤菌

通过细菌表面展示功能基因InaXN、猴金属硫蛋白α亚基四聚体MT4α和两种启动子PnifH及Plac元件,分别构建两个重组质粒pTNIM和pBLIM.进一步通过三亲本杂交,将重组质粒分别导入费氏中华根瘤菌HN01,分别构建获得诱导表达型重组菌HN01(pTNIM)和组成表达型重组菌HN01(pBLIM).在培养条件下比较测定重组菌和出发菌对镉的吸附能力和耐受性,结果表明,组成表达型重组菌HN01(pBLIM)在上述两个方面的能力得到明显增强,对镉的吸附富集能力提高了2倍.研究还发现重组根瘤菌也具有很好的静态吸附效果.盆栽实验结果表明,接种诱导表达型重组菌HN01(pTNIM)的大豆根瘤和根中Cd2+的富集量均明显高于野生菌株HN01.本实验为后续探索重组根瘤菌与宿主植物共生体系在Cd2+污染土壤修复中的应用前景奠定了基础.     

碱性条件下胡敏酸吸附镉的特征研究

为了探讨胡敏酸在碱性条件下的吸附镉机理,了解碱性盐化土壤中镉污染机理和生态环境之间的关系,实验研究了胡敏酸在碱性条件吸附镉的特征。采用批吸附试验方法,研究不同Cd初始浓度、反应时间、不同pH和离子强度对胡敏酸吸附镉的影响,结果表明：胡敏酸具有较强吸附镉的能力,可以用Langmuir吸附模型和Temkin吸附模型很好地拟合其等温吸附过程（r分别为0.9809和0.9816）;在60 min内的快速反应阶段和60 min至6 h间的慢速反应阶段,胡敏酸对镉的吸附量分别为2.895 mg·g-1和3.342 mg·g-1,吸附反应平衡前6 h的动力学过程可以用Elovich方程进行很好的拟合（r为0.9285）;随着pH增加,吸附率表现出逐步增加趋势,并以pH为4.5和8.5为界,呈现两端增加速度快,中间增加慢的规律性;在较低浓度离子强度下,离子强度的增加促进胡敏酸吸附镉;而在高离子强度下,表现出相反的规律性;在相同的条件下,不同离子强度对胡敏酸吸附镉的影响大小为：氯化钙〉氯化镁〉氯化钾〉氯化钠。土壤在盐化的过程中,由于无机盐浓度的增加,增加了重金属离子的生物可利用性,加大了重金属离子的生态风险。     

砷、矾与镉交互作用及其对土壤吸附镉的影响

研究了砷、矾与镉交互作用及其对土壤吸附镉的影响 .结果表明 :江西红壤、海南砖红壤、湖南红壤和北京褐土等四种土壤吸附镉的等温线符合Freundlich方程 ,吸附常数K的大小顺序为 :北京褐土 >湖南红壤 >江西红壤 >海南砖红壤 .pH值是决定土壤吸附镉的关键因素之一 ,砷和矾的存在可促进土壤对镉的吸附     

钙锌钾共存对赤红壤镉吸附的影响

采用等温平衡法,测定了钙、钾、锌单一或两两共存下赤红壤镉的吸附量,并应用Freundlich方程log[Cs]=logKf nlog[Ce]分析了土壤镉的吸附特征。结果表明,与钠离子相比,Zn2 ,Ca2 ,K 共存均使赤红壤吸附镉的能力减弱,三种离子对分配系数Kf值的影响程度(设符号为y)的次序为y(Zn2 )y(钙钾)。锌与钙、钾两两共存时,锌对降低赤红壤镉的吸附能力具有决定作用。     

Influence of some parameters on adsorption rate and toxicity of cadmium in activated sludge

The influence of pH, competitor ions (NaNO₃) and aerobic and anaerobic stabilization of activated sludge on the cadmium uptake by activated sludge solids was investigated. Above 0.08 mg L^‐1 cadmium in solution, biosorption was found to follow the Freundlich isotherm. Active cellular uptake of soluble cadmium does not appear to be a significant mechanism of the biosorption. In addition, the cadmium uptake is not completely reversible. The adsorption of cadmium by activated sludge seems to involve a physico‐chemical mechanism with especially weak electrostatic interactions with ion‐exchange reaction. The optimum adsorption pH was 7.5. Adsorption is influenced by sodium ion concentrations up to an equivalent conductivity of 10 000 μS cm^‐1. Aerobic and anaerobic stabilization of activated sludge increase systematically the initial adsorption capacities. Respirometric measurements were done to evaluate the inhibitive effects of cadmium on activated sludge. Monod's equation and the equation of non‐competitive inhibition were used to describe the toxicity related to cadmium uptake. These two equations appear to be complementary.     

Utilization of aluminum hydroxide waste generated in fluoride adsorption and coagulation processes for adsorptive removal of cadmium ion

Although Al-based coagulation and adsorption processes have been proved highly efficient for fluoride (F) removal, the two processes both generate large amount of Al(OH)₃ solid waste containing F (Al(OH)₃-F). This study aimed to investigate the feasibility of utilizing Al(OH)₃-F generated in Al(OH)₃ adsorption (Al(OH)₃-F_ads) and coagulation (Al(OH)₃-F_coag) for the adsorption of cadmium ion (Cd(II)). The adsorption capacity of Al(OH)₃-F_ads and Al(OH)₃-F_coag for Cd(II) was similar as that of pristine aluminum hydroxide (Al(OH)₃), being of 24.39 and 19.90 mg·g^–1, respectively. The adsorption of Cd(II) onto Al(OH)₃-F_ads and Al(OH)₃-F_coag was identified to be dominated by ion-exchange with sodium ion (Na⁺) or hydrogen ion (H⁺), surface microprecitation, and electrostatic attraction. The maximum concentration of the leached fluoride from Al(OH)₃-F_ads and Al(OH)₃-F_coag is below the Chinese Class-I IndustrialWastewater Discharge Standard for fluoride (<10 mg·L^–1). This study demonstrates that the Al(OH)₃ solid wastes generated in fluoride removal process could be potentially utilized as a adsorbent for Cd(II) removal.     

不同磷含量和秸秆添加量对褐土镉吸附解吸的影响

采用室内培养的方法,通过人为添加不同量的玉米干秸秆和磷,研究不同含磷量土壤对镉吸附解吸影响,以探讨磷—镉在土壤中的交互作用机制。结果表明,不同含磷量的土壤对不同质量浓度锌镉吸附解吸时,在低质量浓度镉（Cd3）条件下,土壤对镉的吸附量随磷质量分数的增加先升高后降低,解吸量随着土壤中磷质量分数的增加先升高后降低再升高;而在高质量浓度镉（Cd30）条件下,土壤对镉的吸附量随磷质量分数的增加逐渐升高,在相同磷水平下,随外加锌质量浓度的增加,镉的吸附量明显降低,而解吸量则逐渐升高。不同秸秆量土壤对不同质量浓度镉吸附解吸时,在Cd3条件下,土壤对镉的吸附量随秸秆加入量的增加先升高后降低,而在同一质量分数磷情况下,吸附量逐渐下降;土壤对镉的解吸量在磷质量分数为120 mg·kg^-1（P2）时最低,而后随着磷质量分数的增加而增加。在同一质量分数磷水平情况下,随着秸秆添加量的增加,土壤对镉的解吸量逐渐增加。而在Cd30条件下,土壤对镉的吸附量逐渐增加,在同一磷水平情况下,土壤对镉的吸附情况是低量秸秆（C1）〉高量秸秆（C2）,但在磷质量分数为240 mg·kg^-1（P3）水平下,不添加秸秆（C0）情况时镉的吸附量最大,而后降低。土壤对镉的解吸量随着磷含量的增加而增加。在同一磷水平情况下,随着秸秆添加量的增加,土壤对镉的解吸量逐渐增加。     

Adsorption property of direct fast black onto acid-thermal modified sepiolite and optimization of adsorption conditions using Box-Behnken response surface methodology

The adsorption of direct fast black onto acid-thermal modified sepiolite was investigated. Batch adsorption experiments were performed to evaluate the influences of experimental parameters such as initial dye concentration, initial solution pH and adsorbent dosage on the adsorption process. The three-factor and three-level Box-Behnken response surface methodology (RSM) was utilized for modeling and optimization of the adsorption conditions for direct fast black onto the acid-thermal modified sepiolite. The raw sepiolite was converted to acid-thermal modified sepiolite, and changes in the fourier transform infrared spectrum (FTIR) adsorption bands of the sample were noted at 3435 cm^-1 and 1427 cm^-1. The zeolitic water disappeared and the purity of sepiolite was improved by acid-thermal modification. The decolorization rate of direct fast black adsorbed increased from 68.2% to 98.9% on acid-thermal modified sepiolite as the initial solution pH decreased from 10 to 2. When the adsorbent dosage reached to 2.5 g·L^-1, 2.0 g·L^-1, 1.5 g·L^-1 and 1.0 g·L^-1, the decolorization rate was 90.3%, 86.7%, 61.0% and 29.8%, respectively. When initial dye concentration increased from 25 to 200 mg·L^-1, the decolorization rate decreased from 91.9% to 60.0%. The RSM results showed that the interaction between adsorbent dosage and pH to be a significant factor. The optimum conditions were as follows: the adsorbent dosage 1.99 g·L^-1, pH 4.22, and reaction time 5.2 h. Under these conditions, the decolorization rate was 95.1%. The three dimensional fluorescence spectra of direct fast black before and after treatment showed that the direct fast black was almost all adsorbed by the acid-thermal modified sepiolite.     

大豆根系分泌物和根细胞壁对难溶性磷的活化

探讨了不同磷效率大豆品种根系细胞壁和根分泌物对难溶性铝磷的活化与吸收能力。结果表明，砂培条件下，磷高效品种(巴西10号)对难溶性铝磷的吸收显著高于磷低效品种(本地2号)。铝磷处理条件下，根系总表面积巴西10号是本地2号的131％，而钾磷处理二者没有明显差异。根系细胞壁对铝磷的活化表明，大豆苗期根系细胞壁对铝磷的活化量显著高于成熟期。苗期、成熟期巴西10号对铝磷的活化量为本地2号的119％、176％。不同栽培方式根系细胞壁对铝磷的活化量表现为水培大于砂培，水培条件下两个大豆基因型对铝磷的活化量没有差异。不同生育时期、栽培方式根分泌物对铝磷的活化量表现为，成熟期大于苗期，砂培大于水培。巴西10号根分泌物对铝磷的活化量比本地2号分别高出69．3％(成熟期)和40．1％(砂培)。上述研究结果表明，大豆根分泌物和根细胞壁对难溶性铝磷的溶解具有促进作用，有利于大豆对铝磷的吸收。     

氯吡嘧磺隆和镉复合对斑马鱼肝脏的影响

为了探究污染物镉和氯吡嘧磺隆复合污染对非靶标生物斑马鱼的毒性作用,通过急性毒性试验,获得镉和氯吡嘧磺隆对斑马鱼的LC50.以LC25作为0水平,设置9个处理组进行试验,检测不同处理组斑马鱼96 h死亡率、斑马鱼肝脏中CAT、MDA和羧酸酯酶CarE.检测结果表明,镉和氯吡嘧磺隆对斑马鱼存在交互作用,当水体中镉浓度为3....     

The role of root organic acids in the tolerance of Festuca rubra to zinc,lead and cadmium

Abstract

Festuca rubra L. plants are pseudometallophytes colonizing abandoned Pb/Zn mine areas, successfully employed in phytostabilization. To study the contribution of low-molecular weight organic acids to metal tolerance, F. rubra plants were grown for three months in hydroponics with Cd (1.8, 18 and 36 µmol?L^?1), Pb (50, 250 and 500?µmol?L^?1) and Zn (0.3, 3 and 6?mmol?L^?1), separately, and in ternary combination (18?µmol?L^?1 Cd + 250?µmol?L^?1 Pb + 0.3?mmol?L^?1 Zn). The roots retained most of the metals but their distribution from shoot to root was altered when the plants were treated with the ternary combination. The main organic acids in roots were citrate and malate. At the lowest concentrations, the metals caused small reductions in biomass, had no effects on photosynthetic pigments nor on malondialdehyde, but led to increases in root organic acids. At higher concentrations, phytotoxic responses were observed, associated with a decline of citrate and malate in the roots.     

A simple ligandless microextraction method based on ionic liquid for the determination of trace cadmium in water and biological samples

A simple and efficient ionic liquid-based ligandless microextraction method has been developed for preconcentration of cadmium ions (Cd²⁺) as a step prior to its determination by flame atomic absorption spectrometry (FAAS) with a micro-sample introduction system. In this approach, the ionic liquid (IL) 1-butyl-3-methylimidazolium hexafluorophosphate [C₄mim][PF₆] and ethanol were used as extractant and dispersive solvents to preconcentrate the Cd²⁺ in different waters, acid digested scalp hair, and nail samples. Some analytical parameters influencing the extraction efficiency of Cd²⁺ and its subsequent determination, including pH, IL volume, dispersant solvent volume, sample volume, temperature, incubation time, and matrix effect, were optimized. Under optimal conditions, the limit of detection (LOD), limit of quantification (LOQ), and enhancement factor (EF) were 0.4 μg L^?1, 1.3 μg L^?1, and 50, respectively. The relative standard deviation (RSD) of 100 μgL^?1 Cd²⁺ was 4.3% (n = 6). The validity of the proposed method was checked by determining Cd²⁺ in certified reference material (TM-25.3 fortified water) and standard addition; the results showed sufficient recovery (>98%) of Cd²⁺ within the certified value. The method was applied for preconcentration and determination of cadmium in waters and biological samples.     

The effects of exposure to zinc and cadmium separately and jointly on the free amino acid pool of Gammarus pulex (L.)

Effects of the heavy metals zinc and cadmium on the free amino acid (FAA) pool of Gammarus pulex were studied at different metal concentrations and combinations as well as different exposure times. The dominant effect of these two metals was the reduction of most free amino acids and the whole FAA pool, except in the 10‐day low zinc and cadmium concentration exposures which resulted in a rise of free amino acid pool.

Among the free amino acids, the most sensitive to zinc exposure, were alanine, glutamic acid, arginine, and taurine; valine, leucine, asparagine, and isoleucine were among the most sensitive to cadmium. No predictable changes of individual free amino acids were shown in the mixed metals exposures. Elevation of taurine concentration was constant in seven of the eight treatments, it is suggested that this elevation may be related to the hepatopancreatic damage observed and induced synthesis of metallothioneins.