土壤-植物系统中磷和砷相互作用关系的研究进展

砷元素导致的环境污染问题日益突出，施磷已成为植物修复砷污染土壤过程中必要强化措施之一。土壤-植物系统中磷和砷的相互作用关系是非常复杂的，研究表明：磷和砷在土壤中往往是共生的，但又存在竞争吸附关系；磷和砷在不同植物中的相互作用关系主要有拮抗效应和协同效应；有必要通过分子生物学手段对磷和砷表达基理进行深入研究，获得对砷具有超积累能力的植株。     

来源于土壤和灌溉水的砷在水稻根表及其体内的富集特性

采用土壤-玻璃珠联合培养的方式,选择2个氧化能力不同的水稻品种YY-1、94D-64(品系)和采自浙江富阳的土壤(砷的本底值为13.8 mg·kg-1),并设灌溉清水和含砷水2个处理(即在分蘖期、拔节期、孕穗期、开花期和灌浆期5个生育阶段灌溉含砷污水,随灌溉水进入土壤中砷的浓度为3.2mg·kg-1),研究了砷在土壤-根表铁氧化物-水稻系统中的累积规律以及土壤和灌溉水对水稻秸秆和籽粒富集砷的贡献程度.结果表明,水稻的秸秆生物量及其籽粒产量并没有受到不同来源砷的显著影响;灌溉含砷水处理的两品系水稻根表铁氧化物沉积的数量(YY-1∶196 g·kg-1,94D-64∶75.8 g·kg-1)高于对照(YY-1∶175g·kg-1,94D-64∶60.1 g·kg-1),但差异不显著.然而,在水稻5个不同的生育期灌溉含砷水均显著增加了砷在其根表及其体内不同部位的富集(94D-64籽粒中砷含量除外).没有灌溉含砷水的对照其秸秆和籽粒中累积的砷来源于土壤,而砷处理的水稻其秸秆和籽粒中富集的砷则来源于土壤和灌溉的含砷水.土壤对YY-1和94D-64秸秆中富集砷的贡献率分别为76.5%和71.O%,灌溉水的贡献率分别为23.5%和29.0%,2个水稻品系之间没有明显差异.YY-1籽粒中的砷66.4%来源于土壤,33.6%来源于含砷灌溉水,灌溉水对该品系籽粒中砷的富集贡献率较高.另一品系94D-64籽粒中砷84.8%来源于土壤,15.2%由灌溉水贡献,灌溉水对此品系籽粒累积砷的贡献率较低.来源于土壤和灌溉水的砷在水稻籽粒中的富集没有超出我国的国家食品卫生标准(0.7 mg·kg-1).     

Arsenic speciation for the phytoremediation by the Chinese brake fern, Pteris vittata

Arsenic (As) speciation for the phytoremediation by the Chinese brake fern was studied. In particular, the mechanism of how plants induce compounds containing thiol (SH) and proteins by As exposure in terms of the relationship between As and phosphate uptaken into plant cells was examined. Pteris vittata callus could efficiently reduce As(V) to As(III) by the rapid introduction of reductase and synthesize thiols leading to phytochelatins production. Furthermore, Pteris vittata could control phosphate concentration in the cells corresponding to the concentration of arsenite and arsenate. To our best knowledge, this is the first report to show the mechanisms of such high As tolerance of Pteris vittata using their callus in terms of in vitro approach for the analysis of As speciation and metabolism route.     

Phylogenetic analysis and arsenate reduction e ect of the arsenic-reducing bacteria enriched from contaminated soils at an abandoned smelter site

Microbial reduction of As(V) (i.e., arsenate) plays an important role in arsenic (As) mobilization in aqueous environment. In this study, we investigated As(Ⅴ) reduction characteristics of the bacteria enriched from the arsenic-contaminated soil at an abandoned smelter site. It was found that As(Ⅴ) was completely reduced to As(Ⅲ) (i.e., arsenite) in 21 h. After 3-d incubation, a yellow solid was precipitated and the concentration of As(Ⅲ) decreased sharply. After 150 h incubation, ca. 65% of soluble arsenic was removed from the solution. The analysis of the precipitate by scanning electron microscopy and energy dispersive spectrometer (SEM-EDS) and X-ray diffraction (XRD) revealed that the main component was crystalline arsenic sulfide (ASS). Microbial mediated reduction and mobilization of adsorbed As(Ⅴ) on ferric hydroxide was also examined. In the microcosm slurry experiment, ca. 53% of the adsorbed As(V) was reduced to As(Ⅲ) by the bacteria, which resulted in an appreciable release of arsenic into aqueous phase. The released arsenic was present predominantly as As(Ⅲ). The microbial diversity was analyzed by 16S rDNA-dependent molecular phylogeny. A near-full-length 16S rDNA gene clone library was constructed. The 197 clones were analyzed using RFLP (restriction fragment length polymorphism) and 72 OTUs were obtained, which contributed 51% of the content for total clone number in six OTUs. Six bacterial clones in these six OTUs were selected for sequencing and the sequenced clones were found to belong to the group Caloramator, Clostridium, and Bacillus.     

Arsenic and chromate removal from water by iron chips-Effects of anions

The purpose of this study is to estimate the removal efficiency of As and Cr (VI) by one kind of industrial waste — iron chips, as well as to estimate the effects of typical inorganic anions (sulfate, phosphate, and nitrate), and typical organic anions (citrate, oxalate, and humate) on As or Cr (VI) removal. The results showed that 98% of As (V) and 92% of As (III) could be removed from aqueous phase by the iron chips within 60 min. Compared with As species, Cr (VI) was removed much more rapidly and efficiently with 97% of Cr (VI) being removed within 25 min. The removal efficiency for arsenic was in the order: As (III) (sulfate), As (III) (nitrate) or As (III), As (III) (humate), As (III) (oxalate), As (III) (citrate), As (III) (phosphate), and for chromate was in the order: Cr (VI) (sulfate), Cr (VI) (phosphate) or Cr (VI) (nitrate) or Cr (VI) (oxalate), Cr (VI), Cr (VI) (citrate), Cr (VI) (humate). In all the treatments, pH level increased with time except for As (III), the removal of which was either without anions or in the presence of humate or nitrate.     

吸附剂烟气脱砷的研究现状

大气砷污染问题日益引起人们的重视,吸附剂能够在去除烟气中砷的同时去除其他有害气体,是控制烟气砷含量、防止砷污染的有效途径.文章分析了砷在废气中的形态及分布,总结了近年来氧化钙、活性炭、飞灰和金属氧化物作为吸附剂用于烟气脱砷的最新研究进展,重点分析了各自的吸附机理及不同因素对脱砷过程的影响.指出吸附过程通常以化学吸附为主...     

原子荧光不同方法测定水中砷的比较

中华人民共和国水利行业标准(SL 327.1-2005)和中华人民共和国城镇建设行业标准(CJ/T 51-2004)分别对原子荧光法测定水中砷作了一定的阐述,但两者对硫脲-抗坏血酸溶液的加入量有不同的规定,本文就这两种方法分别作了相应的实验,对两者的检出限、精密度以及加标回收率进行比较分析,得出两者在砷的测定方面没有显著差异。     

土壤砷污染及其植物修复的研究进展与展望

砷是一种广泛存在于自然界的类金属元素,砷及其化合物具有剧毒、致癌、致畸和致突变特性。土壤砷污染已成为严重的环境和公共健康问题之一,并日益受到人们的密切关注。本文介绍了土壤砷污染的概况、来源及其危害,同时探讨了土壤砷污染的植物修复的研究现状,文中最后对今后土壤砷污染植物修复研究方向进行了展望。     

原子荧光法测砷的测量不确定度评定报告

根据原子荧光光度法,用吉天AFS－830原子荧光光度计测定水样中的总砷,并且分析了主要的测量不确定度来源,即工作曲线不确定度、标准溶液不确定度、测量重复性不确定度和仪器分辨率不确定度,分别量化后合成测得总砷的测量不确定度。     

磁性吸附材料CuFe2O4吸附砷的性能

根据Cu(Ⅱ)和Fe(Ⅲ)都对砷有较强的亲和性,制备了同时含有Cu(Ⅱ)和Fe(Ⅲ)的、可用磁分离方法进行分离回收的磁性吸附材料CuFe₂O₄,并对其进行了表征及吸附砷的性能研究.结果表明,该吸附剂对砷的吸附能力与溶液pH有关,在弱酸性及中性条件下,吸附砷的能力最强,而对As(V)的吸附能力比对As(Ⅲ)更强些,在平衡浓度为10μg/L时,其吸附容量可达10mg/g左右,可以很容易地将水中浓度为1～20mg/L的As(V)降到10μg/L以下.实验考察了几种无机阴离子对吸附砷的影响,表明较高浓度(砷浓度的20倍)的硫酸盐对As(Ⅲ)和As(V)的吸附均有一定影响,盐酸盐及磷酸盐则影响不明显;负载的As(V)可较容易地用0.1mol/L NaOH洗脱下来,使吸附剂再生,而As(Ⅲ)则难以洗脱,这与2种价态砷的吸附机理不同有关.