永寿大骨节病区硒的氧化还原电位及腐殖酸等的影响

以大骨节病病区土壤溶液环境为背景,研究了土壤溶液中E_H[Se(Ⅵ)/Se(Ⅳ)]—pH关系及天然环境中主要的氧化还原剂腐殖酸、MnO_2、Fe~(2+)等对硒氧化还原性质的影响。腐殖酸和Fe~(2+)可提高Se(Ⅵ)/Se(Ⅳ)体系的还原能力,MnO_2对Se(Ⅳ)有一定的氧化作用,而腐殖酸和Fe~(2+)只有在低pH条件下才对Se(Ⅵ)有弱的还原作用。几种含硫化合物还原Se(Ⅵ)的能力依次为:硫代乙醇酸>L-半胱氨酸>硫化物。     

Redox potential EH [Se(VI)/Se(IV)] of aqueous extractof soils from Yongshou Kaschin-Beck diseaseregion and the influence by humic acid

The relation between E_H [Se(VI)/Se(IV)] and pH of soil aqueous extract in Kaschin-Beck disease region and the effects of natural redox agents, namely humic substances, MnO₂ and Fe²⁺, on the redox property of the system were studied. The results indicated that both humic acid and Fe²⁺ could enhance the reducibility of Se(VI) and MnO₂, a limited oxidizability for Se(IV). Fe²⁺ showed a weak reducibility only at low pH value. The reducibilities of three sulfur-containing compounds for Se(VI) were in following order:thioglycollic acid > L-cysteine > sulfide     

海藻-过渡金属-光三元体系还原转化Se(Ⅵ)研究

以海洋绿藻(Tetraselmis levis,Chlorella autotrophica,Dunaliella salina,Nannochloropsis sp.,Tetraselmis subcordiformis)、硅藻(Phaeodactylum tricornutum)、红藻(Porphyridium purpureum)和过渡金属(铁、锰、铜)构建海藻-光二元体系、过渡金属-光二元体系、海藻-过渡金属-光三元体系,对比分析不同海藻、不同过渡金属、海藻与过渡金属耦合引发光化学过程,对Se(Ⅵ)还原转化的贡献率.二元和三元体系均可光还原转化Se(Ⅵ)为Se(Ⅳ).铁、铜、锰通过自身的光氧化还原过程诱发Se(Ⅵ)/Se(Ⅳ)的氧化还原;海藻的光化学活性首次被证实,表面壁可吸附富集海水中还原性的有机物、Se(Ⅵ)/Se(Ⅳ)和过渡金属,改变其氧化还原电位,提供光反应场所;Se(Ⅵ)的光还原转化率依海藻和过渡金属的种类、浓度不同而异;海藻浓度的提高、海藻与过渡金属的耦合作用有利于光还原转化率的提高.通过三元体系的光还原转化,Se(Ⅵ)/Se(Ⅳ)比值为1.17～2.85,接近海洋真光层Se(Ⅵ)/Se(Ⅳ)实际浓度比,即海藻和过渡金属引发的光化学过程对硒的价态分布起决定性作用.     

Effect of Fe（Ⅲ） on the bromate reduction by humic substances in aqueous solution

Humic substances are ubiquitous redox-active organic compounds of environment. In this study, experiments were conducted to determine the reduction capacity of humic acid in the man-ix of bromate and Fe（Ⅲ） solutions and the role of Fe（Ⅲ） in this redox process. The results showed that the humic acid regenerated Fe（Ⅱ） and reduced bromate abiotically. The addition of Fe（Ⅲ） could accelerate the bromate reduction rate by forming humic acid-Fe（Ⅲ） complexes. Iron species acts as electron mediator and catalyst for the bromate reduction by humic acid, in which humic acid transfers electrons to the complexed Fe（Ⅲ） to form Fe（Ⅱ）, and the regenerated Fe（Ⅱ） donate the electrons to bromate. The kinetics study on bromate reduction further indicated that bromate reduction by humic acid-Fe（Ⅲ） complexes is pH dependent. The rate decreased by 2-fold with the increase in solution pH by one unit. The reduction capacity of Aldrich humic acid was observed to be lower than that of humic acid or natural organic matter of Suwanne River, indicating that such redox process is expected to occur in the environment.     

Effect of Fe(Ⅲ) on the bromate reduction by humic substances in aqueous solution

Humic substances are ubiquitous redox-active organic compounds of environment.In this study,experiments were conducted to determine the reduction capacity of humic acid in the matrix of bromate and Fe(Ⅲ) solutions and the role of Fe(Ⅲ) in this redox process.The results showed that the humic acid regenerated Fe(Ⅱ) and reduced bromate abiotically.The addition of Fe(Ⅲ) could accelerate the bromate reduction rate by forming humic acid-Fe(Ⅲ) complexes.Iron species acts as electron mediator and catalyst for the bromate reduction by humic acid,in which humic acid transfers electrons to the complexed Fe(Ⅲ) to form Fe(Ⅱ),and the regenerated Fe(Ⅱ) donate the electrons to bromate.The kinetics study on bromate reduction further indicated that bromate reduction by humic acid-Fe(Ⅲ) complexes is pH dependent.The rate decreased by 2-fold with the increase in solution pH by one unit.The reduction capacity of Aldrich humic acid was observed to be lower than that of humic acid or natural organic matter of Suwanne River,indicating that such redox process is expected to occur in the environment.     

高铁酸钾氧化降解三氯生的动力学模拟及反应机制研究

对高铁酸钾氧化降解水中微量三氯生（TCS）的反应动力学、反应机制及降解效果进行了实验研究.结果表明,高铁酸钾氧化降解TCS符合二级反应动力学模式,pH 8.5时表观二级反应动力学速率常数为531.9 L.（mol.s）-1,以10 mg.L-1的高铁酸钾计算,反应的半衰期是25.8 s.表观二级反应动力学速率常数随着p...     

Evaluation of adsorption capacities of humic acids extracted from Algerian soil on polyaniline for application to remove pollutants such as Cd(Ⅱ), Zn(Ⅱ) and Ni(Ⅱ) and characterization with cavity microelectrode

The adsorption capacities of new humic acids isolated from Yakouren forest (YHA) and Sahara (Tamenrasset: THA) soils (Algeria) and commercial humic acid (PFHA) on polyaniline emeraldine base (PEB) were studied at pH 6.6. Also the adsorption of heavy metals such as Cd2+, Zn2+ and Ni2+ on humic acid-polyaniline systems (HA-PEB) was investigated at the same conditions. HA-PEB compounds were characterized by scanning electron microscopy (SEM), infrared spectrometry and cavity microelectrode. In addition, batch adsorption and cavity microelectrode were used in the adsorption study of Cd2+, Zn2+ and Ni2+ on HA-PEB. To develop biocaptors of polluting metals using a cavity microelectrode modified by HA-PEB systems, the adsorption kinetic and adsorption capacity were investigated. The SEM analysis showed that the presence of humic acid affected the PEB surface and caused the formation of a granular morphology. The maximum adsorption capacities (qmax) of PFHA, THA and YHA determined by adsorption isotherms were 91.31, 132.1 and 151.0 mg/g, respectively. Batch adsorption results showed that qmax of Cd2+, Zn2+ and Ni2+ on HA-PEB followed the order: THA-PEB > YHA-PEB > PFHA-PEB. The voltammograms obtained with HA-PEB modified cavity microelectrode showed the appearance of new redox couples reflecting the adsorption of HA on PEB. Metal-humic acid-polyaniline voltammograms were characterized by appearance of oxidation-reduction couples or reduction wave corresponding to metal. Finally, the result may be exploited to develop a biocaptor based on the cavity microelectrode amended by THA-PEB and YHA-PEB.     

Fe(Ⅵ)/Na2SO3体系降解阿特拉津效能

利用高铁酸钾活化亚硫酸钠(Fe(Ⅵ)/Na₂SO₃体系),探究其对阿特拉津(ATZ)的降解效能;鉴别了反应体系主要活性组分,并考察了Na₂SO₃投加量、反应溶液pH值和水质背景成分对ATZ降解效能的影响.结果表明:当Fe(VI)和Na₂SO₃的投加量分别为50和200μmol/L时,反应10s后Fe(Ⅵ)/Na₂SO₃体系对ATZ的降解效能达到74.4%,单独Fe(VI)(50μmol/L)和单独Na₂SO₃(200μmol/L)对ATZ的去除率仅为10.2%和7.5%.探针化合物和溶解氧作用等实验证实体系中主要的活性基团为SO₄^·-.在pH=8,Fe(VI)投加量为50μmol/L时,随着Na₂SO₃投加量的增大,Fe(Ⅵ)/Na₂SO₃体系对ATZ的去除效率先增大后减小,其中最佳Na₂SO₃投加量为150~200μmol/L.Fe(Ⅵ)/Na₂SO₃体系在pH 7~10的范围内,均可以快速降解ATZ.在天然水体中,Fe(Ⅵ)/Na₂SO₃体系也可以高效降解ATZ,但是水质背景成分会竞争消耗SO₄^·-,导致Fe(Ⅵ)/Na₂SO₃体系对ATZ的降解效能降低.     

Linking microbial community composition to farming pattern in selenium-enriched region: Potential role of microorganisms on Se geochemistry

Selenium（Se） is an essential micronutrient for lives. Indigenous microbial communities play an important role on Se geochemistry in soils. In this study, the microbial community composition and functions of 53 soil samples were investigated using high-throughput sequencing. Samples were divided into 3 groups with different farming types based on the measured geochemical parameters and microbial functional structures. Results indicated that putative Se related bacteria Bacillus, Dyella, Paenibaci...     

硒酸钠和亚硒酸钠对长春花细胞悬浮生长的影响

研究了硒化合物对长春花(C.roseus)细胞悬浮生长的影响.在pH5.5培养介质中,当Se(Ⅵ)>0.5ppm或Se(Ⅳ)>0.6ppm时,将抑制C.roseus细胞悬浮生长,其致死浓度分别是100ppm Se(Ⅵ)和2.0ppm Se(Ⅳ).C.roseus对硒化合物有效强的富集作用.硒化合物的毒性和培养介质的pH值有关.在本试验条件下,硒酸钠和亚硒酸钠对Hg~(2+)无拮抗作用.     

高铁酸钾氧化降解氧氟沙星的机理

以喹诺酮类抗生素氧氟沙星（OFL）为目标物质,研究高铁酸钾（Fe （VI））对OFL的去除及氧化机理.采用高效液相色谱仪（HPLC）、液相色谱-质谱联用仪（UPLC-QTOF-MS）等方法,考察Fe （VI）投加量、pH值、温度和共存物质等因素对OFL降解效果的影响,分析反应动力学,计算过程中Fe （VI）的贡献率,识别Fe （VI）氧化OFL的产物并推测主要反应路径.结果表明：当Fe （VI）与OFL的物质的量比为40：1、pH值为8、温度为25℃时,反应30min后OFL的降解率达到92.38%,前5min快速反应阶段,OFL的降解符合伪二级反应动力学.反应过程的活化能为28.17kJ/mol.反应中Fe （VI）及中间高价态铁的贡献率为70.34%,且腐殖酸会显著抑制该反应.通过对氧化产物进行分析提出了Fe （VI）氧化OFL的3条主要路径.OFL经脱羧、去甲基、脱羰、羟基化等反应,实现其分子上喹诺酮取代基、哌嗪基环及恶嗪基环的开环.     

Cr(VI) reduction capability of humic acid extracted from the organic component of municipal solid waste

The capacity of humic acid extracted from organic waste (HAw) to reduce Cr(Ⅵ) was tested at pH 2.5,4 and 6 and compared with coal-derived humic acid (HAc).HAw was more effective than HAc in reducing Cr(Ⅵ).The kinetics of Cr(Ⅵ) reductions depended strongly on pH.The calculation of the apparent rate coefficients indicated that HAw was more efficient at reducing Cr(Ⅵ) than HAc,but was also more efficient than HAs from soil and peat.The reduction capability of HAs depends on the type of functional groups (i.e.,thiols and phenols) present,rather than the free radicals.HAw was more efficient at reducing Cr(Ⅵ) than HAc because more reactive phenols were present,i.e.,methoxy-and methyl-phenols.     

尿液中不同价态硒的吸附溶出伏安法测定

本文研究了在二溴代苤硒脑生成条件下Se(-Ⅱ、0)、Se(Ⅳ)、Se(Ⅵ)等不同价态硒的稳定性及其转化条件,确定了用二溴代苤硒脑体系的吸附溶出伏安法测定尿液中不同价态硒的方法.结果表明,在1.5mol/L HCl介质中,Se(Ⅳ)与二溴代邻苯二胺定量生成苤硒脑,可用吸附溶出伏安法直接测定Se(Ⅳ).HNO_3-HClO_4消化样品时,Se(-Ⅱ、0)定量转化为Se(Ⅳ),此时Se(Ⅳ)、Se(Ⅵ)价态稳定.而HNO_3-HClO_4消化样品后用3mol/L HCl将Se(Ⅵ)还原为Se(Ⅳ)后可测得总硒.故利用不同的样品处理方法所得结果差减后,测定Se(-Ⅱ、0)、Se(Ⅳ)和Se(Ⅵ)含量.本文方法用于尿液样品分析,尿液中硒的主要价态为以Se(-Ⅱ)形式存在的有机硒,无机态Se(Ⅳ)、Se(Ⅵ)的含量甚微.     

腐殖质NAFA溶液中的扑热息痛光解研究

以中压汞灯为光源模拟阳光,研究了扑热息痛（ACT）在腐殖质NAFA中的光解行为,探讨了不同浓度的腐殖质、ACT、硝酸钠、碳酸氢钠、二价铁离子和pH值对ACT光解的影响,采用GC/MS技术鉴定了ACT的光解产物,并探讨其在腐殖质体系中可能的光解途径。研究结果表明,增加水体中的腐殖质、硝酸钠、二价铁离子浓度和pH值会促进ACT的光解,而增加水体中的ACT和碳酸氢钠浓度则会抑制ACT的光解。     

铀尾矿中不同形态铀释放的影响因素及其相关性

采用正交试验、连续提取法及主成分分析,研究了液固比、浸出时间、酸雨pH值、PO₄^3-、CO₃^2-、Ca²⁺和腐殖酸浓度对铀尾矿库内铀尾矿中不同形态铀释放的影响.结果表明：影响易迁移态铀释放的因素,按重要程度排序为：Ca²⁺>酸雨pH值>CO₃^2->腐殖酸>浸出时间>PO₄^3->液固比,前4个因素是主要影响因素,且CO₃^2-与酸雨pH值的相关性最强.影响潜在迁移态铀释放的因素,按重要程度排序为：Ca²⁺>液固比>浸出时间>CO₃^2->腐殖酸>酸雨pH值>PO₄^3-,前4个因素是主要影响因素,且PO₄^3-与酸雨pH值的相关性最强.影响稳定态铀释放的因素,按重要程度排序为：PO₄^3->腐殖酸>CO₃^2->酸雨pH值>液固比>Ca²⁺>浸出时间,前4个因素是主要影响因素,且PO₄^3-与CO₃^2-的相关性最强.     

Photo-induced transformations of Hg(Ⅱ) species in the presence of Nitzschia hantzschiana,ferric ion,and humic acid

Effects of algae Nitzschia hantzschiana, Fe(Ⅲ) ions, humic acid, and pH on the photochemical reduction of Hg(Ⅱ) using the irradiation of metal halide lamps (λ 365 nm, 250 W) were investigated. The photoreduction rate of Hg(Ⅱ) was found to increase with increasing concentrations of algae, Fe(Ⅲ) ions, and humic acid. Alteration of pH value affected the photoreduction of Hg(Ⅱ) in aqueous solution with or without algae. The photoreduction rate of Hg(II) decreased with increasing initial Hg(Ⅱ) concentration in aqueous solution in the presence of algae. The photochemical kinetics of initial Hg(Ⅱ) and algae concentrations on the photoreduction of Hg(Ⅱ) were studied at pH 7.0. The study on the total Hg mass balance in terms of photochemical process revealed that more than 42% of Hg(Ⅱ) from the algal suspension was reduced to volatile metallic Hg under the conditions investigated.     

腐殖酸对矿物结合汞植物活性的影响

以植物水培试验就腐殖酸（富里酸、棕色胡敏酸和灰色胡敏酸）对矿物结合汞（CaCO₃－Hg,Fe₂O₃-Hg,MnO₂-Hg,膨润土-Hg,高岭土-Hg）的植物活性的影响进行了探讨,并以土壤作印证试验.结果表明,溶解态无机汞是最有效的植物可吸收形态．腐殖酸对土壤、矿物结合汞的植物活性的影响,与其对矿物汞的络合溶解能力以及所形成的络合汞向无机汞转化的能力有关;矿物结合汞在不同环境条件下存在的稳定性及释放汞的潜力则是制约腐殖酸效应的内在因素.反应时间决定着二者作用进展的程度.     

安徽庐江潜在富硒土壤硒生物有效性及其影响因素

为研究潜在富硒土壤硒生物有效性,采集安徽庐江潜在富硒地区64组水稻及对应根系土壤样品,分析土壤理化性质、土壤养分、全硒、不同形态硒及大米硒含量,采用线性回归法探究土壤硒生物有效性的影响因素.结果表明,大米硒含量（记作Se_rice,下同）为0.037~0.120 mg/kg,土壤全硒含量（记作Se_tot,下同）为0.260~1.177 mg/kg,土壤硒以腐殖酸态硒（15.5%~44.7%）、强有机态硒（12.5%~53.3%）和残渣态硒（8.1%~68.5%）为主.土壤有效硫、有效磷通过提高强有机态、腐殖酸态和浸提性硒含量并促进水稻籽实（大米）对硒的吸收,而土壤阳离子交换量（cation exchange capacity,CEC）、速效钾、全铁和全锰通过降低水稻生物可利用态硒含量（包括水溶态、腐殖酸态、强有机态和浸提性硒）抑制水稻籽实（大米）对硒的吸收.Se_tot与Se_rice显著正相关（R=0.616,P < 0.01）,非残渣态硒含量与有机质含量之比（记作NRE-Se/OM）与Se_rice相关性最强（R=0.774,P < 0.01）.土壤NRE-Se/OM、有效硫、有效铁、全锰构建的多元逐步线性对数回归模型可解释水稻籽实（大米）吸收硒的76.0%的方差.因此引入变量NRE-Se/OM,并结合土壤有效硫、有效铁和全锰能有效评价和预测研究区土壤硒生物有效性.      

硒酸钠和亚硒酸钠对长春花细胞悬浮生长的影响

研究了硒化合物对长春花(C.roseus)细胞悬浮生长的影响.在pH5.5培养介质中,当Se(Ⅵ)>0.5ppm或Se(Ⅳ)>0.6ppm时,将抑制C.roseus细胞悬浮生长,其致死浓度分别是100ppm Se(Ⅵ)和2.0ppm Se(Ⅳ).C.roseus对硒化合物有效强的富集作用.硒化合物的毒性和培养介质的pH值有关.在本试验条件下,硒酸钠和亚硒酸钠对Hg²⁺无拮抗作用.     

Arsenite oxidation by three types of manganese oxides

Oxidation of As（Ⅲ） by three types of manganese oxides and the effects ofpH, ion strength and tartaric acid on the oxidation were investigated by means of chemical analysis, equilibrium redox, X-ray diffraction （XRD） and transmission electron microscopy （TEM）. Three synthesized Mn oxide minerals, bimessite, cryptomelane, and hausmannite, which widely occur in soil and sediments, could actively oxidize As（Ⅲ） to As（Ⅴ）. However, their ability in As（Ⅲ）-oxidation varied greatly depending on their structure, composition and surface properties. Tunnel structured cryptomelane exhibited the highest ability of As （Ⅲ） oxidation, followed by the layer structured birnessite and the lower oxide hausmannite. The maximum amount of As （Ⅴ） produced by the oxidation was in the order （mmol/kg） of cryptomelane （824.2） 〉 bimessite （480.4） 〉 hausmannite （117.9）, As pH increased from the very low value（pH 2.5）, the amount of As（Ⅲ） oxidized by the tested Mn oxides was firstly decreased, then negatively peaked in pH 3.0 6.5, and eventually increased remarkably. Oxidation of As（Ⅲ） by the Mn oxides had a buffering effects on the pH variation in the solution. It is proposed that the oxidative reaction processes between As （Ⅲ） and biruessite（or cryptomelane） are as follows： （1） at lower pH condition： （MnO2）x＋ H3AsO3 ＋ 0.5H^＋=0.5H2AsO4^- ＋ 0.5HAsO4^2- ＋Mn〉^2＋ （MnO2）x-1 ＋ H2O; （2） at higher pH condition： （MnO2）x ＋ H3AsO3 = 0.5H2AsO4^- ＋ 0.5HAsO4^2- ＋ 1.5H^＋ ＋ （MnO2）x-1. MnO. With increase of ion strength, the As（Ⅲ） oxidized by bimessite and cryptomelane decreased and was negatively correlated with ion strength. However, ion strength had little influence on As （Ⅲ） oxidation by the hausmarmite. The presence of tartaric acid promoted oxidation of As（Ⅲ） by birnessite. As for cryptomelane and hansmannite, the same effect was observed when the concentration of tartaric acid was below 4 mmol/L, otherwise the oxidized As（Ⅲ） decreased. These findings are of great significance in improving our understanding of As geochemical cycling and controlling As contamination.