活体微藻吸附水体中Cd2+的性能特征

【目的】藻类对重金属吸附和吸收是重金属进入食物链的重要渠道之一。研究活体微藻对水体中Cd~(2+)的吸附性能和吸附机理,旨在为Cd~(2+)等重金属离子进入水体后的去向及去除提供理论依据。【方法】选取地表水普遍存在的4种微藻:钝顶螺旋藻(Spirulina platensis)、铜绿微囊藻(Microcystis aeruginosa)、四尾栅藻(Scenedesmus quadricauda)和小球衣藻(Chlamydomonas microsphaera)作为试验材料,通过室内模拟实验,利用Langmuir、Freundlich和Dubinin-Radushkevich(D-R)3种等温吸附模型,研究4种活体微藻对Cd~(2+)的吸附规律及吸附参数。【结果】4种微藻对水体Cd~(2+)吸附均可以用Langmuir、Freundlich和D-R模型描述,其中用Langmuir模型拟合钝顶螺旋藻、Freundlich模型拟合小球衣藻、D-R模型拟合铜绿微囊藻和四尾栅藻的吸附效果最佳。四尾栅藻对Cd~(2+)的吸附量最高,而钝顶螺旋藻对Cd~(2+)的吸附量最低,但与Cd~(2+)的亲和力最强,4种微藻吸附Cd~(2+)主要是以离子代换为主的化学吸附。【结论】微藻对Cd~(2+)均有较强的吸附能力,会引起以微藻为食的水生动物Cd~(2+)富集;微藻也是去除水体Cd~(2+)的潜在吸附剂原料。     

广东鳞伞属的研究初报

本文报导广东鳞伞属Pholiota(Fr.)Kummer 12种,其中1个新种,6个国内新纪录种。新种是短柄鳞伞Phollota brevipes Bi。     

采自长白山的中国鳞伞属新记录

报道了采自吉林省长白山地区的中国鳞伞属 Pholiota新记录4种,即毕格劳鳞伞Pholiota bigelowii、密生鳞伞Pholiota condensa、群生鳞伞Pholiota gregariiformis和酒红褐鳞伞Pholiota vinaceobrunnea,并提供详尽的形态描述和线条图。研究标本存放在吉林农业大学菌物标本馆（HMJAU）。     

三种鳞伞属(Pholiota)真菌的菌丝生物学特性初步研究

研究了多脂鳞伞(Pholiota adiposa)、翘鳞伞(P.squarrosa)和多脂翘鳞伞(P.squarroso-adiposa)三种鳞伞属真菌的菌丝生物学特性。结果表明,多脂鳞伞和翘鳞伞菌丝生长的最适碳源为麦芽糖;多脂翘鳞伞最适碳源为蔗糖和麦芽糖。多脂鳞伞和翘鳞伞最适氮源均为牛肉膏和酵母膏;而多脂翘鳞伞最佳氮源为酵母膏和蛋白胨。三种菌丝生长的最适温度均为25℃。多脂鳞伞在pH值6~8均生长良好,最适pH值7~8,偏碱性;翘鳞伞和多脂翘鳞伞最适pH值均为6~7。     

采自内蒙古和黑龙江的中国鳞伞属新记录

报道采自内蒙古和黑龙江的中国鳞伞属Pholiota新记录3种,即阿拉巴马鳞伞Pholiota alabamensis、变黄鳞伞Pholiota flavescens和暗黄鳞伞Pholiota pseudosiparia。研究标本存放在吉林农业大学菌物标本馆（HMJAU）。     

两种大型真菌子实体对Cd2+的生物吸附特性

对两种多孔菌科大型真菌槐栓菌(Trametes robiniophila)和木蹄层孔菌(Fomes fomentarius)子实体生物吸附Cd²⁺的影响因素(包括吸附剂用量、初始pH、吸附时间、初始Cd²⁺浓度)和吸附特性进行分析。结果表明,槐栓菌和木蹄层孔菌对低浓度的Cd²⁺(10 mg/L)吸附的最适pH为6;Cd²⁺的去除率随吸附剂用量和吸附时间的增加而增大,槐栓菌和木蹄层孔菌均在吸附剂用量为2g/L时达到吸附平衡,槐栓菌在吸附时间为30 min时达到吸附平衡,而木蹄层孔菌在吸附时间为60 min时达到吸附平衡;槐栓菌和木蹄层孔菌对10 mg/L Cd²⁺的最大去除率分别为98%和94%。Langmuir等温吸附平衡模型比Freundlich等温吸附平衡模型能更好的拟合两种大型真菌对Cd²⁺的吸附过程;槐栓菌和木蹄层孔菌对10 mg/L Cd²⁺的最大吸附量分别为17.40 mg/g和8.91 mg/g。对实验数据进行动力学模型拟合可知,两种大型真菌对Cd²⁺的生物吸附过程均符合准二阶动力学模型。槐栓菌和木蹄层孔菌生物吸附低浓度Cd²⁺的化学反应机理可能为离子交换。     

胶质芽孢杆菌对Zn2+、Cd2+的生物吸附

目的:考察胶质芽孢杆菌对Cd2 、Zn2 的耐受能力.方法:通过改变培养条件及吸附条件研究胶质芽孢杆菌对Cd2 、Zn2 的生物吸附性能.在此实验基础上,在含有Cd2 、Zn2 的培养基中对胶质芽孢杆菌进行不同浓度梯度驯化,提高其对Cd2 Zn2 的生物富集能力.结果:胶质芽孢杆菌最大Cd2 耐受浓度在100mg·L-1左右,最大Zn2 耐受浓度在100～110mg·L-1.通过改变吸附条件,考察吸附时间、吸附pH值、菌体投加量对其生物吸附性能的影响,结果表明:当Cd2 、Zn2 浓度均为5mmol·L-1,菌投量分别为40.0gdry cell·L-1、29.8gdry cell·L-1时,胶质芽孢杆菌对Cd2 、zn2 的吸附率分别可达87.45%、97.50%.胶质芽孢杆菌经重金属离子浓度梯度驯化培养数代,经过8、9代的驯化,对Cd2 、Zn2 吸附性能均有改善.结论:胶质芽孢杆菌经过驯化,在适宜的吸附条件下可以对Cd2 、Zn2 进行有效的生物吸附,在处理重金属离子废水方面有潜在的应用前景.     

固定化枯草杆菌生物吸附去除水中Cd的研究

采用明胶、琼脂、海藻酸钠作为载体对枯草杆菌进行固定,通过对三种载体的包埋效果、传质性能及操作难易的比较来选择适宜的固定化载体,比较固定化微生物与游离微生物及固定化载体海藻酸钠处理含镉废水的效果,并研究温度、pH值等环境因子对固定化枯草杆菌处理含镉废水效果的影响。结果表明：海藻酸钠作为固定化载体其传质性能强、方法简便,机械强度好;固定化枯草杆菌对含镉废水去除效果明显高于游离枯草杆菌。且随着废水中Cd浓度的变化,固定化枯草杆菌处理效果存在差异,在Cd浓度为1．0mg．L^-1 ～20mg．L^-1时,Cd的去除率在24h呈现3次曲线回归,而48h以4次多项式拟合;pH值对固定化枯草杆菌处理效果产生一定影响,在pH5．0-pH7．0,随pH值升高去除效率下降,温度在20℃-30℃,固定化枯草杆菌均有较好的处理效果。     

体外模拟鳞杯伞子实体碱溶性多糖的消化与酵解特性

以热水浸提后的鳞杯伞Clitocybe squamulosa子实体残渣为原料,进行二次利用,浸提碱溶性多糖.通过模拟体外消化与厌氧发酵实验,探究鳞杯伞子实体碱溶性多糖的消化特性以及对肠道内短链脂肪酸含量的影响.结果 表明:体外模拟唾液和胃肠液消化后,多糖的官能团结构特征没有发生显著性改变,但碱溶性多糖的块状结构解体,碎...     

细菌胞壁多糖对水体中低浓度Pb2+和Cd2+的吸附研究

室内模拟研究了长春市伊通河天然水环境中优势细菌胞壁多糖对Pb2+和Cd2+吸附,结果发现胞壁多糖对pb2+和Cd2+的吸附量分别在pH为4.5、5.0时最大;且均分为两个阶段,即当pH＜4.5,对Pb2+的吸附量与pH呈正相关,当pH＞4.5时,对Pb2+的吸附量与pH呈负相关;对Cd2+的吸附量在pH＜5.0时与pH呈正相关,在pH＞5.0时与pH呈负相关.温度对胞壁多糖吸附Pb2+和Cd2+影响不显著;吸附体系在8 h达到吸附平衡.共存Cd2+对胞壁多糖吸附Pb2+影响显著,而共存Pb2+对吸附Cd2+不显著.胞壁多糖对Pb2+和Cd2+吸附过程符合Iangmuir和Freundlich热力学等温方程;胞壁多糖吸附Pb2+和Cd2+的动力学过程分为快速阶段和慢速阶段,其中慢速阶段符合二级吸附速率动力学方程.     

Biosorption of Cadmium from Aqueous Solution by Shell Dust of the Fresh Water Snail Melanoides tuberculata

ABSTRACT The metal bioadsorption potential of shell dust of the freshwater snail Melanoides tuberculata (MTSD) was evaluated under laboratory conditions using cadmium as a model metal. As bioadsorbent, MTSD exhibited a biosorption capacity of 27.03 mg g^?1 at pH 6, indicating potential to remove cadmium from aqueous solution. The adsorption data fit more to the Langmuir (R² = 0.998) equation than the Freundlich (R² = 0.761) equation at equilibrium condition. The kinetics of biosorption followed the pseudo-second-order model (R² = 0.999) better than the Lagergren model (R² = 0.676), as was evident from the regression analysis. The presence of calcium ions appears to have facilitated ion exchange with cadmium along with the binding of different functional groups, as revealed through Fourier transform infrared (FT-IR) analysis. It is apparent from these observations that MTSD can act as low-cost and efficient bioadsorbent for cadmium bioremediation from aquatic habitats. Use of the shells of M. tuberculata for metal biosorption will promote the utility of a waste material of biological origin for bioremediation of heavy metals such as cadmium.     

Biosorption Performance of Multimetal Resistant Fungus Penicillium chrysogenum XJ-1 for Removal of Cu2+ and Cr6+ from Aqueous Solutions

Adsorption for heavy metals via biomaterials such as fungal biomass presents a practical remediation technique for polluted water. Among all known filamentous fungi, Penicillium chrysogenum is widespread in nature and can serve as a biosorbent for heavy metals. In the current study, the ability of P. chrysogenum XJ-1 to remove copper (Cu²⁺) and chromium (Cr⁶⁺) from water was evaluated. The maximum biosorption capacity of XJ-1 for Cu²⁺ reached 42.83 ± 0.57 mg g^?1 dry biomass at pH 5.0 after the equilibrium time of 1.5 h. The maximum biosorption capacity for Cr⁶⁺ at pH 3.0 reached 52.69 ± 1.68 mg g^?1 dry biomass after the equilibrium time of 1.5 h. The biosorption data of XJ-1 biomass were well fitted to the Freundlich isotherm model and the pseudo-second-order Lagergren kinetic model. Laundry powder-treated and HCl-treated XJ-1 biomass significantly enhanced its adsorption capacity to Cu²⁺ and Cr⁶⁺, respectively. HCl and NaOH were suitable desorbents for Cu²⁺/Cr⁶⁺ loading biomass, respectively. Fourier transform infrared spectroscopy analyses revealed that hydroxyl, amine, and sulfonyl groups on the biosorbent contributed to binding Cu²⁺ and Cr⁶⁺ and that carbonyl and carboxyl groups were also vital binding sites of Cu²⁺. Scanning electron microscopy and energy-dispersive x-ray (SEM-EDX) analyses confirmed that considerable amounts of metals were precipitated on the cell surface of XJ-1. Our results suggested that XJ-1 might be used to purify multimetal-contaminated water. This low-cost and eco-friendly biomass of XJ-1 seems to have a broad use in the restoration of metal-contaminated water.     

含氯化镉水体中螺旋藻的生长及其对镉的摄取作用

研究了钝顶螺旋藻和极大螺旋藻在含CdCl2水体中的生长状况与摄Cd能力.结果表明:两种螺旋藻皆对CdCl2有较强的耐受能力,但是有不同的摄Cd行为.当CdCl2浓度为6~24mg.L-1,培养96h时,两种螺旋藻对Cd的摄取作用主要表现为藻细胞外的表面吸附;培养10d时,钝顶螺旋藻的胞内Cd含量依然甚微,而极大螺旋藻对Cd的细胞内吸附量却明显增加,24mg.L-1CdCl2处理的极大螺旋藻胞内的Cd吸附量为12mg.L-1CdCl2处理的11.6倍,且略超过细胞表面吸附量.表明在高浓度Cd的长时间胁迫下,两种螺旋藻的摄Cd行为和对Cd的耐受机制具有明显差异,其中钝顶螺旋藻为胞外机制,而极大螺旋藻却为胞内、胞外混合机制,且以胞内机制为主.     

Hg2+和Cd2+胁迫对满江红生理和细胞超微结构的影响

研究了在梯度浓度Hg2+和Cd2+胁迫下,满江红(Azolla imbricata (Roxb.) Nakai)的叶绿素含量、叶绿素a/b比值、光合放氧速率、呼吸速率、抗氧化酶系(超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、过氧化物酶(POD))和细胞超微结构受Hg2+和Cd2+的毒害影响.结果显示:随着胁迫程度的增大,叶绿素含量、叶绿素a/b比值、光合放氧速率明显下降,呼吸速率均在2 mg/L浓度下达到峰值,尔后下降; SOD、CAT、POD的活性均出现不同程度的应激性升高(除POD在Cd2+处理时下降),尔后下降.电镜观察发现,随着污染物浓度的增加和胁迫时间的延长,叶绿体出现膨大、破损和解体;线粒体嵴突膨胀和线粒体变形及空泡化;核染色质凝集,核仁消失,核膜破裂.实验结果表明: Hg2+和Cd2+污染不仅损害植物的生理活性,而且也破坏细胞的超微结构,最终导致植物死亡;随着Hg2+和Cd2+胁迫的增大,细胞超微结构的损伤程度和植物的生理变化是同步的;植物受毒害的程度表现出明显的剂量效应关系;在同一处理时间和浓度下,Cd2+对满江红的毒性大于Hg2+.Hg2+对满江红的致死浓度为3.5～4.0 mg/L,Cd2+为3.0～3.5 mg/L.对满江红鱼腥藻(Anabaena azollae Strasburger)细胞的超微结构变化观察表明,满江红鱼腥藻对Hg2+和Cd2+的耐受性明显高于满江红.     

不同污染负荷土壤中镉和铅的吸附－解吸行为

采用一次平衡法,对3种不同污染负荷土壤Cd2 和Pb2 的吸附-解吸行为进行了比较.结果表明,低污染负荷土壤对Cd2 和Pb2 的吸附能力高于高污染负荷土壤.3种土壤对Cd2 的吸附等温线与Freundlich方程有较好的拟合性,Pb2 的等温吸附过程可用Langmuir方程与Freundlich方程来描述.双常数方程是描述这3种不同污染负荷土壤中Cd2 和Pb2 吸附动力学行为的最优模型,其次为Elovich方程,最差模型是一级动力学方程.Pb2 的解吸滞后现象较Cd2 明显.高污染负荷土壤的吸附态Cd2 、Pb2 解吸率高于低污染负荷土壤,Cd2 、Pb2 解吸量与其初始吸附量之间的关系符合二次幂方程.3种土壤Cd2 、Pb2 的解吸速率随重金属初始浓度的增加而增加,随解吸时间的延长而降低.     

Biosorption and Bio-Kinetic Properties of Solar Saltern Halobacterial Strains for Managing Zn2+, As2+ and Cd2+ Metals

Bacillus mucilaginosus has already been proved to be capable of degrading silicate minerals, but it is not very clear about the molecular mechanisms of bacterial mineral weathering. To understand the relationship between bacterial weathering of minerals and bacterial secreted proteins, B. mucilaginosus was chosen to study the expression of its extracellular proteins in the process of weathering potassium minerals. This article reveals that certain secreted proteins, related to weathering of potassium minerals, can be induced under conditions such as bacterial nutritional deficiency and the existence of K-bearing rock powders. This suggests direct evidence of the metabolic changes of extracellular enzymes in bacteria during the process of weathering of potassium minerals. It was speculated that these secreted proteins, together with extracellular polymers like polysaccharides, may accelerate the weathering of potassium minerals, resulting in the release of K⁺ needed for the bacterial growth.     

Biosorption of uranium(VI) by Aspergillus fumigatus

Aspergillus fumigatus removed uranium(VI) very rapidly and reached equilibrium within 1 h of contact of biomass with the aqueous metal solution. Biosorption data fitted to Langmuir model of isotherm and a maximum loading capacity of 423 mg U g^–1 dry wt was obtained. Distribution coefficient as high as 10,000 (mg U g^–1)/(mg U ml^–1) at a residual metal ion concentration of 19 mg l^–1 indicates its usefulness in removal of uranium(VI) from dilute waste streams. Optimum biosorption was seen at pH 5.0 and was independent of temperature (5–50°C ). Initial metal ion concentration significantly influenced uptake capacity which brought down % (w/w) uranium(VI) removal from 90 at 200 mg U l^–1 to 35 at 1000 mg U l^–1. Presence of 0.84 mmol Fe²⁺, Fe³⁺, Ca²⁺ and Zn²⁺ had no effect on uranium(VI) biosorption unlike Al³⁺ (0.84 mM) which was inhibitory.     

Pb2+、Cd2+对3种水生动物致毒效应影响的比较研究

在特定时间（12、24、48、72h）内,研究了Pb^2＋和Cd^2＋对草履虫（Paramecium caudatum）、三角涡虫（Dugesia japonica）和中华圆田螺（Cipangopaludia viviparrus）3种水生动物的单一和联合毒性效应.结果表明：在同等条件下,Cd^2＋对三者的致毒效应都明显强于Pb^2＋;3种动物中,草履虫最敏感,而圆田螺耐受能力最强;随单一毒物浓度的增大以及暴露时间的延长,两者的致毒效应都显著增大,表现出明显的浓度—效应和时间—效应关系;二者复合作用时,对3种动物的致毒效应主要表现为与二组分的浓度比例有关.复合致毒效应也表现出了明显的浓度—效应关系,并且浓度和暴露时间的交互作用对3种水生动物毒性都有显著的影响.     

小球藻对水溶液中Zn2+、Cd2+的吸附

对小球藻生物吸附Zn^2 ,Cd^2 的影响因素进行了研究,发现小球藻对Zn^2 ,Cd^2 的生物吸附主要经历了快速的物理吸附和缓慢的化学吸附两个步骤;pH值是影响Zn^2 ,Cd^2 生物吸附的一个重要因素,pH值为6-7时,小球藻对Zn^2 ,Cd^2 的去除率较高,在实验条件下去除率可达87%以上;研究还表明,小球藻干粉比新鲜藻能富集更多的Zn^2 ,Cd^2 。用Freundlich方程模拟吸附等温线,拟合良好。