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随着环境学科在基础研究中的不断深入,创新的分析技术也为环境研究注入新的活力:无论是拓宽学科广度-从大气、土壤、水质到固废研究,探索学科深度-新型污染物筛查、污染物形态价态研究;还是助力学科间实现交叉,解决更为复杂的科学问题-如环境与健康关系、环境污染物暴露与组学研究等深层次探索。
赛默飞将开启“助力您的环境研究”系列活动-涵盖环境研究前沿的诸多领域:其中,环境前沿研究论坛,将邀请来自全球的科学家,共话环境研究前沿方向与热点话题。同时,首次跨界联合Nature Portfolio ——《自然》系列杂志,从如何发表高水平文章角度助力环境研究工作者实现突破与进阶。
“助力您的环境研究”系列活动-环境前沿研究论坛 | ||||
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| 时间 | 主题 | 报告人 | |
| 13:30~14:10 | 新污染物筛查与监测 |
| 中国科学院生态环境研究中心 环境化学与生态毒理学国家重点实验室 |
| 14:10~14:40 | 有机污染物理化性质与分析测试技术 |
| 国家环境分析测试中心 |
| 14:40~15:10 | Exploring personal chemical exposures in China with wearable air pollutant monitors |
| Yale School of Public Health |
| 15:10~15:40 | 有机磷酸三酯OPTEs全面识别技术构建及应用 |
|
南京理工大学环境与生物工程学院
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| 15:40~16:10 | On-line sample concentration coupled with LC-MS/MS Orbitrap HRMS for the EU Water Framework Directive: Target quantitation and non-targeted screening of PFAS and other priority environmental contaminants in water |
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ALS Environmental, Coventry UK
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与“Nature” 自然科研编辑发展经理 Jeffrey博士一起学习在高影响力期刊上发表论文的技巧和策略。Jeffrey博士将分享他在整个研究论文发表周期中与研究人员和论文作者合作的经验,介绍如何撰写能够在优质刊物上发表论文,以及广泛传播研究成果的机会。 本次培训课程,内容纷呈,不容错过,能够让您的研究过程和研究影响再上新台阶。
培训时间 | |||
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| 9月23日 | 9:00~11:00 | 14:00~16:00 |
| 9月24日 | 14:00~16:00 |
内容简介:
新污染物是指那些已有比较充分科学数据表明其对生态环境及人体健康有危害或风险,但尚未纳入监管体系或者现有管控措施不足以有效防控其环境和健康风险的污染物。发展新污染物筛查与监测技术是支撑新污染物治理的重要保障。
新污染物的筛查包括从高产量化学品中筛查出需要优先管控的高风险化学品、通过非靶标检测技术从环境和生物样品中筛查出新污染物。而新污染物的监测研究包括创新新污染物分析方法,完善新污染物监测技术标准等。
主讲人简介:
郑明辉,中国科学院生态环境研究中心研究员,长期从事持久性有毒污染物相关研究。自2007年起担任斯德哥尔摩公约全球POPs监测亚太区域组织委员会负责人,主持编写3部《亚太区域POPs监测报告》,参加编写《全球POPs监测导则》。现兼任中国化学会环境化学专业委员会主任、食品安全国家标准审评委员会污染物分委会副主任、中国毒理学会环境与生态毒理学专业委员会副主任、中国环境科学学会POPs专业委员会副主任。已发表SCI论文200余篇,出版专著5部,获国家发明专利授权18项。2019年获国家科技进步二等奖(排名第一)。
内容简介:
有机污染物的种类众多,挥发性有机污染物(VOCs)和半挥发性有机污染物(SVOCs)是根据沸点的高低区分的;不同的有机污染物Kow和极性也大相径庭,决定了针对不同的污染物会采用不同的分析技术。地表水、地下水等清洁水体,生活污水和废水等复杂基质,土壤、沉积物和固体废物等固体基体,空气、废气等气体介质中有机污染物的采集和前处理手段也各不相同。多种技术的组合出现了多样化的标准分析方法,如何选择或制定新污染物的分析技术路线是非常有挑战的。
主讲人简介:
董亮,国家环境分析测试中心持久性有机污染物研究室主任,博士、研究员,国家环境保护专业技术领军人才,环境监测“三五人才”一流专家,生态环境部首批培训授课专家,中国分析测试协会青委会顾问委员,中国环境科学学会持久性有机污染物专委会委员,中国环境科学学会环境与健康数据标准与信息共享咨询专家委员会委员。
主要从事有机污染物污染研究和防治工作。近年来主持了国家重点研发项目,环保公益科研专项,科技部创新方法专项,中挪国际合作项目,联合国大学国际合作项目等多项。曾获环境保护科学技术二等奖,山东省科技进步一等奖,中国分析测试协会三等奖。在国内外刊物上发表署名论文100余篇,标准20余项,专利5项,专著5部。
内容简介:
The health impact of airborne contaminants has been challenging to assess due to current limitations in measurement technologies. The emergence of wearable passive samplers coupled with high resolution mass spectrometry (HR-MS) chemical analysis has enabled comprehensive characterization of personal exposures. We conducted a repeated-measure study among 84 older adults in Jinan, China, as part of the Biomarkers for Air Pollutants Exposure (China BAPE) study. Study objectives were: 1) to characterize the occurrence, magnitude, and distribution of personal exposure to airborne contaminants; 2) to evaluate the temporal variation of chemical exposures across the study population; and 3) to identify behavioral and environmental factors that influence the observed variance in chemical exposures. The FreshAir wristband was worn by participants for three consecutive days each month from September 2018 to January 2019 and collected with paired time-activity logs. Passive air samplers were also deployed in parallel at a local outdoor air monitoring station. Spearman’s Rho trend test and trajectory cluster analysis were used to identify exposure trends and variation patterns, respectively. Out of the 70 airborne compounds of potential concern screened, 26 compounds from 10 chemical classes were found to be above detection thresholds across >70% of the study population. Personal exposures were predominantly characterized by nine polycyclic aromatic hydrocarbons (PAHs), four phthalates, three nitroaromatics, and two volatile organic compounds (VOCs). Phthalate personal exposures were positively correlated with outdoor temperatures while the inverse relationship was observed for certain PAHs (p < 0.05). Specifically, dimethyl phthalate (rs = 0.31) decreased as temperatures declined, while nitrobenzene (rs = −0.35) and naphthalene (rs = −0.40) increased as temperatures decreased. Compared to levels measured at the outdoor air monitoring site, personal exposure of phthalates was elevated (p < 0.05) and hexachlorobutadiene was lower across participants (p < 0.01). Personal exposure of these chemicals was further found to be weakly associated with daily duration participants spent outdoors. Individuals formed distinct clusters based on trajectories of chemical exposures across the sampling period (September to January), potentially suggestive of distinct emission sources. In conclusion, we demonstrate the feasibility of characterizing the occurrence and magnitude of personal exposure to airborne chemical contaminants using passive wristband samplers. The temporal variability of these personal exposure profiles was highlighted and with distinct trends identified across different groups of individuals. Future studies will integrate this data with other omics datasets collected from this population of Chinese older adults to investigate associations between exposure profiles and health relevant biomarkers, to provide evidence in feasibility of disease prevention through environmental improvements.
主讲人简介:
Dr. Pollitt’s research explores the human exposome through characterisation of environmental and biological samples using analytical and mass spectrometry (MS) techniques. Her group has developed various mass spectrometry (ICP-MS, LC-MS and GC-MS) to measure exposure to complex mixtures of trace elements and organic compounds. She has applied these exposure assessment methods in numerous in epidemiological studies.
内容简介:
受限于质谱技术发展,目前OPTEs环境效应研究,主要聚焦有限种类OPTEs;通过这种方法,获得了部分OPTEs的污染水平和生物内外暴露剂量信息,但其无法获取筛选清单之外的新型未知OPTEs及其结构类似物。因此,亟需开发一种全面识别环境介质中OPTEs的质谱技术方法。本报告基于课题组近年研究数据,系统阐述OPTEs全面识别策略的构建过程及应用实例。
主讲人简介:
苏冠勇,教授/博导,南京理工大学。本硕博就读于南京大学,随后前往加拿大环境部开展博士后研究,回国后独立创建课题组;在新型污染物识别和污染物毒性评估等方面取得了一系列创新性研究成果;发表论文88篇,包括PNAS 1篇(直接投稿;唯一通讯作者)、ES&T 21篇(第一或通讯作者17篇)。担任CREST、EI等环境科学与生态学领域1区TOP期刊编委;入选国家重大人才工程A类青年人才、江苏省双创人才、江苏省杰出青年、江苏省特聘教授等人才称号。
内容简介:
The Chemical Investigations Programme was established by the UK Water Industry and UK Water Industry Research in response to emerging legislation on surface water quality.
The delivery of CIP3 will improve the understanding of waste water works discharging to coastal and transitional water bodies, reduce uncertainties with regards to specific substances and the effectiveness of removal processes as well as recognising the additional complexity of emerging issues. Key to delivery is the trace level analysis of substances of emerging interest as identified by the UK Environment Agency as of prioritised interest in waste water influents and effluents. The list contains a number of pharmaceuticals, industrial chemicals as well as legacy and emerging PFAS compounds. The trace level quantitation and validation of these targets using on-line (EQuan Max™) solid phase extraction coupled to a Q Exactive™ Focus Hybrid Quadrupole-Orbitrap™ Mass Spectrometer to will be discussed.
Further, the use of the same instrumental workflow combined with Thermo Scientific™ Compound Discoverer™ software, for non-targeted analysis will be discussed with a case study exploring the detection of illicit drugs in waste water effluent.
主讲人简介:
John has gained vast experience through over thirty years working in the public and private sectors related to environmental water quality . Always leading with foresight and innovation, John was one of the first to adopt HRAM technology for the targeted analysis of contaminants in environmental waters and more recently has taken a further step forward in combining HRAM with advanced data mining software for non-targeted analysis.
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