水环境中微囊藻毒素分析技术新进展

微囊藻毒素是常见的蓝藻毒素,具有很强的肝脏神经系统和肾脏毒性. 由于水的富营养化,蓝藻会爆发产生大量的微囊藻毒素,进而对水生生物和食用它们的人类构成巨大威胁. 随着浓缩、富集、分离方法和仪器技术的进步,定量分析微囊藻毒素的方法也在不断进步,且应用越来越广泛. 综述了水、沉积物和生物中微囊藻毒素的富集和检测方法,结果显示:目前常见的采样方法是主动采样法,开发简便可靠和实用的被动采样方法是急需的研究方向之一. 衍生化方法可以降低基质效应,有利于使用不同的检测方法和试验观察,因此开发一种高效、灵敏的衍生化方法检测微囊藻毒素将是重要的研究方向之一.     

化学氧化法去除微囊藻毒素的研究进展

有害藻类水华污染已经成为世界范围性的环境难题。微囊藻毒素是藻细胞释放的一种毒性物质,具有极强的肝毒性和致癌性。当水源水受到藻类污染时,高效的微囊藻毒素去除技术十分必要。氧化法包括氯化、臭氧、高锰酸盐等化学氧化以及芬顿和基于紫外线的高级氧化,已经成功应用于微囊藻毒素的降解去除。本文综述了各种化学氧化法去除藻毒素的动力学、影响因素、降解机制和产物毒性等方面的研究进展,比较分析了各种氧化法的优、劣以及适用范围,并对未来藻毒素去除技术研究进行了展望,为微囊藻毒素的有效去除提供参考。     

基因工程抗体在微囊藻毒素检测分析中的应用研究

微囊藻毒素是蓝藻水华过程中产生的一类小分子多肽生物毒素,能对人和动物的肝脏造成严重损伤,属于2B类致癌物质。由于全球性工业和生活废水的大量排放以及气候变暖等现实因素,蓝藻水华现象日趋频繁和加剧,使得微囊藻毒素在水体和土壤中大量蓄积,严重威胁生态环境和农产品质量安全。基于"抗体-抗原"识别原理的免疫学检测方法是当前生物毒素快速检测研究的热点,近年抗体创制技术突飞猛进,现已从传统的多克隆抗体和单克隆抗体逐渐发展到了新型的基因工程人工抗体创制阶段。该文系统阐述了微囊藻毒素产生的内外因素及其对生态系统、人和动物的主要危害风险;全面梳理了基因工程抗体创制技术及其在微囊藻毒素检测应用研究上的最新进展;并结合作者及所在科研团队最新研究成果,深入探讨了基因工程抗体在微囊藻毒素检测应用上的发展趋势、存在的问题以及拟解决的对策。     

水产品中微囊藻毒素检测方法的研究进展

微囊藻毒素是蓝藻暴发中出现频率最高、产生量最大和造成危害最严重的藻毒素,具有多器官毒性、遗传毒性和致癌性。水产品中微囊藻毒素的残留会对人体产生危害,并对我国公众健康构成巨大威胁。因此,水产品中微囊藻毒素的检测和控制变得非常重要,迫切需要建立一种简便、快速、灵敏度较高的检测方法,以对水产品中的微囊藻毒素进行监控。为加强水产品中微囊藻毒素的痕量分析技术研究,对水产品中残留的微囊藻毒素开展监测,综述了国内外有关水产品中微囊藻毒素污染检测的提取、净化及分析技术进展。     

HPLC-MS法分离与表征微囊藻毒素

蓝藻水华对淡水湖泊的污染近年来逐渐加剧,其释放的主要有害物质为微囊藻毒素.藻毒素异构体的分离与制备研究对供水安全具有重要的意义.从滇池蓝藻中提取了微囊藻毒素的几种常见异构体并采用高效液相色谱手段对各异构体进行了分离.探讨了不同色谱条件对分离结果的影响,其中的5种异构体得到了很好地分离,使用HPLC-MS对3种含量较多的...     

进出口食品中常见霉菌毒素的污染及其检测技术探讨

阐述了进出口食品中常见霉菌毒素的种类,包括黄曲霉毒素、赭曲霉毒素、脱氧雪腐镰刀菌烯醇、玉米赤霉烯酮、伏马毒素、T-2毒素以及蛇形毒素等;分析了它们在进出口食品中污染的产生、来源和危害性;同时对霉菌毒素的检测技术及其研究进展进行了简要介绍。     

金属有机框架MIL-101(Fe)对水中微囊藻毒素-LR的吸附

通过溶剂热法制备了性质稳定的金属有机框架材料MIL-101(Fe),并用于吸附去除水中的微囊藻毒素-LR。采用电子显微镜、傅立叶变换红外光谱(FT-IR)、Zeta电位和N_2吸附-脱附等方法对制备的纳米材料进行了表征。MIL-101(Fe)具有多孔结构和较高的比表面积(375.2 m~2/g),尺寸约为500 nm。考察了pH值、离子强度、温度、吸附时间、浓度等参数对吸附剂吸附能力的影响。结果表明,静电作用和配位作用是主要的作用机理。MIL-101(Fe)对微囊藻毒素-LR的吸附速度很快(20 min内达到吸附平衡),吸附过程符合准二级动力学模型;MIL-101(Fe)对微囊藻毒素-LR表现出良好的吸附性能,其最大吸附量为256.4 mg/g。溶液中存在的腐植酸对MIL-101(Fe)的吸附性能产生一定的影响。受腐殖酸、盐类的影响,相同条件下MIL-101(Fe)对江水中微囊藻毒素-LR的吸附性能有所下降,但仍可达到68.1 mg/g。因此,该方法简便、高效,适用于快速除去污染水体中的微囊藻毒素-LR。     

液相色谱-离子阱质谱对水华蓝藻提取物中微囊藻毒素的定性研究

本文研究了野外蓝藻水华样品甲醇提取物的液相色谱和电喷雾质谱特征图谱,利用电喷雾离子化-串联质谱(ESI-MSn)离子阱技术对特征图谱中主要微囊藻毒素的分子离子峰进行了二级质谱分析,获得相应的子离子质谱图,并对其进行了结构解析,确定了野外蓝藻水华样品中微囊藻毒素种类,为准确鉴定和分析水华蓝藻中微囊藻毒素提供了基础.     

微囊藻毒素在单波长紫外光照射下的光降解动态研究

研究了两种微囊藻毒素在两种紫外光照射下的光降解行为,研究结果表明:UV-C是降解微囊藻毒素较好的光源;光照强度是影响毒素降解重要的因素,其次是温度和酸度;在UV-C的照射下,水体腐殖质对光降解具有抑制作用;微囊藻毒素的光解反应符合准一级动力学模型.同时本工作还按实际环境水体中毒素的含量水平进行了模拟研究,发现紫外光UV-C对环境水体中低含量的微囊藻毒素具有很强的去除能力.为今后发展无毒、高效、经济实用的饮用水处理技术做了有益的探索.     

隐蔽型真菌毒素的主要类型与分析方法研究进展

真菌毒素污染是危害全球食品安全的主要问题之一.真菌毒素通过结合极性物质形成隐蔽型毒素,在传统的分析检测中往往被忽略.本文综述了国内外几种常见隐蔽型毒素的研究进展及近年的污染状况,并讨论了几种主要分析方法的优缺点.从实际应用的角度,以往关于多组分同时检测的研究表明,液相色谱串联质谱(LC-MS/MS)法是可用于多种真菌毒素及其隐蔽型日常监测的最有力的定量检测方法.由于研究表明隐蔽型真菌毒素往往与原型同时存在于食品中,并能水解而释放有毒的毒素原型,造成潜在危害,因此对隐蔽型真菌毒素发生机制、分析方法、代谢规律进行深入研究,对保障食品安全与人类健康具有重要意义.     

水环境中胞内外抗生素抗性基因分析的DNA提取方法及污染现状研究进展

新型污染物抗生素抗性基因(Antibiotic resistance genes,ARGs)对公共健康产生了严重威胁,其在水环境中的长期存在和传播引起了广泛重视。胞内与胞外ARGs在水环境中的分布规律和环境行为差异明显,对其污染状况进行研究有助于全面了解水环境中ARGs的传播特性。该文总结了5种常见水样微生物DNA提取方法及其在胞内和胞外ARGs检测研究中的应用状况,比较了污水系统、淡水系统及海水系统等典型水环境中胞内和胞外ARGs的污染状况和迁移传播特性。为进一步探究水环境中ARGs的分布特征与传播机制提供了技术手段及污染现状等基础信息,对控制ARGs在水环境中的传播扩散具有重要意义。     

Purification of microcystins

Microcystins are an increasingly important group of bioactive compounds produced by a number of mainly planktonic cyanobacteria. They are a family of cyclic heptapeptides that cause both acute and chronic toxicity. Purified microcystins are utilised in a range of research applications including toxicological and biochemical studies, development of detection systems and the investigation of water treatment strategies. The commercial availability of purified microcystins is still relatively limited and for many projects the cost of their purchase prohibitive. The purification of microcystins from both bloom material and laboratory cultures is reviewed including a discussion on extraction, separation, and the determination of purity and yield.     

HPLC and HPCE analysis of microcystins RR, LR and YR present in cyanobacteria and water by using immunoaffinity extraction

Microcystins, which have their origin in species of cyanobacteria present in freshwaters, have recently been found to be important contaminants of the aquatic environment at trace levels. HPLC and HPCE with UV detection have been applied in the determination of such toxic compounds. Immunoaffinity chromatography for the selective extraction and clean-up of microcystins has been successfully applied to different matrices. Simple protocols for unambiguous determination of these toxins are presented and the immunoaffinity clean-up is compared with conventionally used solid phase extraction procedures. The development and optimisation of an on-line preconcentration procedure based on field amplified sample stacking for the analysis of microcystins by HPCE in the micellar electrokinetic chromatography mode is also described, using borate buffer with the anionic surfactant SDS, as separation electrolyte. Results indicate that sub-nanogram/gram content of microcystins can be detected in water samples, while sub-microgram/gram concentrations can be determined in algae samples.     

水体重金属污染的生态效应与防治对策

水体重金属污染已成为全球性的环境问题，本文主要介绍了水体重金属污染对水生植物、水生动物的致毒作用和人体健康的危害，同时，就水体重金属污染的防治对策作了探讨。水体重金属污染的防治途径主要包括两方面，即：源头控制和工程治理。工程治理的方法主要有物理处理法、化学处理法和生物处理法．其中生物处理法具有较好的应用前景。     

Biomonitoring: an appealing tool for assessment of metal pollution in the aquatic ecosystem

Wide occurrence of aquatic metal pollution has caused much attention. Biomonitoring offers an appealing tool for the assessment of metal pollution in aquatic ecosystem. The bioindicators including algae, macrophyte, zooplankton, insect, bivalve mollusks, gastropod, fish, amphibian and others are enumerated and compared for their advantages and disadvantages in practical biomonitoring of aquatic metal pollution. The common biomonitoring techniques classified as bioaccumulation, biochemical alterations, morphological and behavior observation, population- and community-level approaches and modeling are discussed. The potential applications of biomonitoring are proposed to mainly include evaluation of actual aquatic metal pollution, bioremediation, toxicology prediction and researches on toxicological mechanism. Further perspectives are made for the biomonitoring of metal pollution in aquatic ecosystem.     

水环境中微塑料的样品采集与分析进展

微塑料在环境中难以降解,可在水体、沉积物等环境介质中长期存在,并在水生生物体内积累,成为人们高度关注的环境问题之一。有关水环境中微塑料的污染研究尚处于起步阶段,快速、高效、准确的检测技术是水环境中微塑料研究的重要环节,对于优化研究路线、分析研究结果、总结微塑料污染规律至关重要。本文结合国内外微塑料污染研究进展,介绍了微塑料污染现状,并通过对环境样品中微塑料的采样、预处理以及定性定量分析方法的系统比较,总结了现行各种检测方法的优缺点及各自应用范围,最后指出了进一步研究的方向。     

Aquatic Ecotoxicity Testing of Nanoparticles—The Quest To Disclose Nanoparticle Effects

The number of products on the market containing engineered nanoparticles (ENPs) has increased significantly, and concerns have been raised regarding their ecotoxicological effects. Environmental safety assessments as well as relevant and reliable ecotoxicological data are required for the safe and sustainable use of ENPs. Although the number of publications on the ecotoxicological effects and uptake of ENPs is rapidly expanding, the applicability of the reported data for hazard assessment is questionable. A major knowledge gap is whether nanoparticle effects occur when test organisms are exposed to ENPs in aquatic test systems. Filling this gap is not straightforward, because of the broad range of ENPs and the different behavior of ENPs compared to “ordinary” (dissolved) chemicals in the ecotoxicity test systems. The risk of generating false negatives, and false positives, in the currently used tests is high, and in most cases difficult to assess. This Review outlines some of the pitfalls in the aquatic toxicity testing of ENPs which may lead to misinterpretation of test results. Response types are also proposed to reveal potential nanoparticle effects in the aquatic test organisms.     

Sample preparation,instrumental analysis,and natural distribution of complex organic pollutants in the wastewater from unconventional gas production

Large amounts of flowback and produced water (FPW) have been generated from hydraulic fracturing process for the production of unconventional gas such as shale gas. Complex organic pollutants are abundantly present in FPW with revealed toxicity to aquatic organisms and these contaminants may transfer into surrounding aquatic environment. Characterization and determination of complicated organic pollutants in FPW remains a challenge due to its complex composition and high salinity matrix. This review article covers the progress of recent 5 years regarding the sample preparation and instrumental analysis methods and thus summarizes the advantages and disadvantages of these methods for critical analysis of organic contaminants in FPW samples. Furthermore, the natural distribution of detected organic compounds and their transformation were reviewed and discussed to enhance the understanding of spatial and temporal behaviors of these organic pollutants in natural environment, paving the way for future development of pollution control policies and strategies. Enlightened by the studies of FPW contamination in the US, the investigations of FPW contamination in China continued to grow due to rapidly growing production of shale gas in China and resulted pollution.