利用HPLC-ICP-MS方法测定中华绒螯蟹不同形态砷的残留量

采用高效液相色谱串联电感耦合等离子体质谱仪(HPLC-ICP-MS)测定中华绒螯蟹可食部位6种砷形态的残留量。经过前处理、提取和脱脂后,通过色谱柱、流动相、pH和流速等参数调节,筛选得到最优化的分离和检测条件。结果表明,6种砷形态的混合标准溶液在质量浓度0~50 μg/L范围时,均呈现良好的线性关系,其R²达到0.999,检测限为0.0060~0.0912 μg/kg,定量限为0.020~0.304 μg/kg。在样品中添加0.5、5、50 μg/L浓度水平,回收率良好,范围是70%~120%,相对标准偏差(RSD)均<5%,方法精密度与重复性均良好。本方法为中华绒螯蟹可食部位砷形态残留量建立了有效检测方法,为水产品砷残留快速检测提供技术支撑。     

两种典型炭材料对微生物还原含砷水铁矿的影响及其机制研究

研究了活性炭和生物炭对Shewanella oneidensis MR-1还原含砷水铁矿过程的影响,并探究了这一过程中砷的释放、转化及其在次生矿物中的分布。研究结果表明:在培养初期活性炭和生物炭抑制了含砷水铁矿中铁的微生物还原过程,可能的原因是活性炭和生物炭抑制了菌的生长,荧光染色结果证实了这一过程;在培养中期,微生物逐渐适应培养环境,并使铁还原持续进行,培养结束时活性炭和生物炭显著增加了含砷水铁矿中铁还原的比例。培养基中的磷酸根通过置换作用使水铁矿中的部分砷释放至溶液,而微生物还原含砷水铁矿过程中,活性炭和生物炭抑制了溶液中砷的去除。此外,微生物还原含砷铁矿过程中,依次生成了蓝铁矿和菱铁矿两种次生矿物。SEM-EDX结果表明,在两种次生矿物中,砷主要被蓝铁矿固定。该结果有助于我们从氧化还原的角度评估活性炭和生物炭在农业环境应用过程中的环境效应。     

微生物砷甲基化及挥发研究进展

砷(As)是一种全球关注的有毒元素。在自然环境中,砷主要以无机形态存在。环境微生物对无机砷的甲基化及挥发对砷的生物地球化学循环有重要影响。利用微生物砷挥发来削减土壤砷浓度,是具有应用前景的土壤修复技术。本文综述了砷甲基化机理、砷甲基化基因起源和进化的最新进展,不同物种之间砷甲基化基因的水平转移是该基因传播的主要途径;阐述了目前报道的砷甲基化过程的几种可能机制。鉴于微生物砷甲基化在生物地球化学循环及环境健康方面的重要作用,该综述对未来该领域研究有重要指导意义。     

我国土壤-蔬菜作物系统重金属污染及其安全生产综合农艺调控技术

近年来,重金属污染耕地安全利用技术研究取得了突破进展,然而将这些关键技术与蔬菜传统高度集约化种植模式进行耦合的研究还比较少,大规模推广应用鲜见报道。因此,本文在查阅最新发表文献的基础上,梳理了我国土壤-蔬菜作物系统重金属污染状况,归纳了蔬菜作物重金属吸收积累特征,并总结了重金属污染蔬菜地安全生产综合农艺调控技术研究进展。当前,我国蔬菜地土壤重金属污染以中轻度为主,且区域分异明显。蔬菜作物重金属超标现象在全国各地时有发生,给蔬菜产业发展和人类健康带来了极大的危害。蔬菜作物对重金属的积累能力因种类、品种、部位而异,受基因型、土壤理化性质和外界环境条件的制约,因此调整种植布局、选用重金属低积累品种、合理轮间套作、施用土壤改良剂和钝化剂、优化水肥管理技术等农艺调控措施是目前中轻度重金属污染蔬菜地安全利用的重要技术途径。未来在进一步深入研究土壤-蔬菜系统重金属迁移转化规律的基础上,宜加强土壤-蔬菜地系统安全生产技术标准、传统种植模式与综合农艺调控措施耦合技术、长期定位试验及风险评价等方面的研究,以实现重金属中轻度污染蔬菜地的安全利用和农产品的安全生产。     

大量元素水溶肥料防结块及胀包效果研究

本文研究了碳酸钾和一水硫酸镁作为防结块剂在模拟极端高温环境下对大量元素水溶肥料防结块、防胀包效果的影响,同时研究了在生产过程中增加干燥工艺对肥料防结块、防胀包的效果。结果表明,碳酸钾防结块效果优于一水硫酸镁,且添加2%碳酸钾的防结块效果优于添加1%碳酸钾,生产过程中增加干燥工艺能在一定程度上防止结块问题的产生。     

改性磁性荔枝皮对水及果汁中砷的吸附效果及动力学分析

为探索安全高效实用的果汁类食品砷吸附材料,以天然植物副产物荔枝皮为材料,通过共沉法制备砷吸附材料磁性荔枝皮(magnetic litchi peel,MLP),采用电感耦合等离子体质谱法测定砷含量,以砷清除率为判断指标,研究了MLP对三价砷和五价砷吸附效果及机理。结果表明:改性MLP表面含有粉末状的Fe3O4,与未改性荔枝皮相比部分官能团增加,表面粗糙、更加凹凸不平,结构疏松,微孔数量增加,有利于吸附作用的进行,在砷浓度为0.20 mg/L水溶液中三价砷和五价砷吸附率为88%和90%,对苹果汁中的三价砷和五价砷吸附率为83%和93%;MLP对三价砷和五价砷溶液吸附等温线符合Langmuir等温线模型,拟合决定系数R2均大于0.99,为单分子层吸附,在298 K条件下饱和吸附量三价砷为0.181 mg/g,五价砷为0.225 mg/g;MLP对砷溶液吸附动力学可以通过准二级吸附动力学模型描述,R2均高于0.99;MLP对三价砷和五价砷的吸附过程中吉布斯自由能小于0,吸附反应是自发进行的,焓变小于0,MLP对两种价态砷的吸附都是放热反应。研究结果可为改性荔枝皮在果汁类食品中砷脱除方法和工艺的应用提供理论与数据参考。     

Cabbage (Brassica oleracea var. capitata) as possible indicator of wartime metal and metalloid contamination in eastern Croatia (ICP-MS method)

Biomonitoring of the local population and environmental monitoring in eastern Croatia have revealed abnormalities in metal and metalloid distribution that could be related to war activities during the 1990s. The goal of this study was to determine whether there are differences in the concentrations of metals and metalloids by comparing locations of high and low-intensity combat activity; we also evaluated a possible connection between metal contamination in soil and in humans. We sampled 14 locations and measured the concentrations of 20 war related metals and metalloids (Al, As, B, Ba, Cd, Co, Cr, Cu, Fe, Hg, Li, Mg, Ni, Pb, Sb, Si, Sr, U, V and Zn). The results of principal components analysis showed two main clusters: locations Dopsin and Dalj (both characterized by high-intensity combat activity), where the concentrations of most elements (except Hg) were increased. Although the concentrations of metals and metalloids in cabbage samples collected in eastern Croatia did not exceed the maximum allowed values, the results of our study confirmed existance of environmental ‘hotspot’ with higher concentrations of war metals and metalloids. Our findings indicate that there is a possible common source and mechanism of transferring metals from the environment to the population.     

Differential tissue accumulation of arsenic and heavy metals from diets in three edible fish species

Three different commercial fish species Odontesthes bonariensis, Rhamdia quelen and Oreochromis niloticus and fish feed were collected from four aquaculture farms. Heavy metal (Cd, Cr, Cu, Fe, Mn, Pb and Zn) and arsenic concentration were determined by inductively coupled plasma–optical emission spectrometry (ICP‐OES) in muscle, liver, gonad, skin, scale and fat from fish and in feed diets. Arsenic concentration was found in different tissues differing between species and within O. bonariensis. Cd was differentially accumulated in liver in O. bonariensis and R. quelen; however, in O. niloticus Cd was found in muscle and scales. Higher concentrations of Cr were determined in skin and scales of O. bonariensis and O. niloticus. Cu, Fe, Mn and Zn were found in all tissues being Cu and Fe concentrations higher in liver. Mn was differentially accumulated in O. bonariensis scales, however in R. quelen no significant differences were found and in O. niloticus liver was the main accumulation tissue. Zn concentration was higher in gonad, skin and liver from R. quelen and O. bonariensis, and in O. niloticus the highest concentration was found in scales. All the results were below the international limits for food safety except for the concentration of Cd in muscle and scales of O. niloticus.     

铅锌尾矿中砷代谢功能基因的多样性

Microbial activities impact arsenic (As) transformation in mine tailings substantially,yet little is understood on the functional diversity of As metabolism genes.This study explored this issue using a metagenomic approach coupled by a local BLASTN procedure established in our recent studies.An assembled metagenome,recovered from hypersaline and sulfidic mine tailings,was screened for As metabolism genes aioA,arrA,arsC and arsM.This was done using a local BLASTN procedure against databases of the As metabolism genes built in this study.Putative As metabolism genes detected in the assembled metagenome included 11 arsM,20 arsC and 1 arrA full-length sequences.Together with the rRNA-based phylogenetic profiling results,a picture depicting microbial As cycling in the tailings to the genus level was obtained.It was found that most of the dominant genera in the tailings potentially harboured the genes for As reduction and/or methylation.In particular,a typical pyrite-eater present in the tailings,Thioalkalivibrio sp.,was found to harbour not only arsC and arsM,but also arrA.These results highlight the unexpected diversity of As metabolism genes in the tailings,especially considering the extremely low species diversity therein.The microbial As cycling picture established here has potential use for guiding the purposeful manipulation of As biogeochemistry in the tailings.     

Effects of compost amended lead–arsenate contaminated soils on total and inorganic arsenic concentrations in rice

Rice (Oryza sativa L.), a staple crop for over 50% of the world's population, is also a source of dietary arsenic (As) because of it's efficiencyat accumulating As. Lead–arsenate pesticide was used in agriculture, these soils potentially may be used for rice production. The objective of this study was to determine the effects of compost on total and inorganic As concentrations in rice grown on lead–arsenate contaminated soils. Three lead–arsenatesoils were amended with 10% by weight of compost and planted with rice under flooded and non-flooded conditions. Rice grain yieldwas higher with compost but not flooding. Flooding significantly increased total and inorganic As concentrations. In most cases, rice inorganic Asconcentrations were higher than the limit set by Chinaat 0.2 mg kg^?1. Compost at therate used did not reduce rice grain As to safe levels.Lead–arsenate contaminated soils are not recommended for rice production.