🔥 热搜 🔥
百度今日热点微信公众平台贴吧opggdnf私服百度贴吧知乎dnf公益服百度傻逼
分类
社会娱乐国际人权科技经济其它
🔥 热搜 🔥
上海习近平新疆鄂州父女瓜乌鲁木齐疫情H工口小学生赛高习明泽芊川一笑图包印尼排华
分类
社会娱乐国际人权科技经济其它
查看原文
其他

CREST 编委团队 | 安太成

CREST编委会 环境科技评论CREST 2023-01-06
收录于合集 #CREST编委团队 2个




安太成教授

CREST期刊副主编



个人简介


安太成教授,博导,广东工业大学学术委员会主任、环境健康与污染控制研究院院长,粤港澳污染物暴露与健康联合实验室主任、广东省环境催化与健康风险控制重点实验室主任。国家高层次人才计划、教育部高层次人才特聘教授和国家杰出青年科学基金获得者,全国模范教师,“广东特支计划”杰出人才(南粤百杰)和广东省科技创新领军人才、广东省环境工程专业珠江学者特聘教授,国家重点研发计划、广东省重点研发计划和广东省首批本土创新团队首席科学家,广东省丁颖科技奖、广东省五一劳动奖章和广东省优秀共产党员获得者。2021年带领团队分别获得广东省五一劳动奖状(劳模集体)和广东省五四青年奖章(集体)。长期从事新兴有机污染物的环境地球化学过程与健康效应、光化学与光催化迁移转化与风险消减机理方面的研究工作。重点开展有关环境大气和水体中毒害有机物环境净化消除与污染控制原理及其区域健康风险消减等方面的研发工作。在国内外相关领域的高水平期刊(如PNAS、JACS、Energy Environ. Sci.、Environ. Sci. Technol.、Appl. Catal. B-Environ.、J. Catal.、Water Res.和Environ. Sci. Nano)上发表发表SCI论文400余篇,被SCI引用13000余次,包括ESI%高被引论文10余篇和热点论文2篇。2014年-2020年连续七年入选Elsevier发布的中国高被引学者榜单(环境科学类)。主持或完成国家重点研发计划项目、国家自然科学基金重点项目和重点国际合作项目、国家杰出青年科学基金、“珠江人才计划”首批本土创新科研团队项目、广东省重点研发计划项目、广东省自然科学基金团队项目等。目前为Appl. Catal. B-Environ.和Crit. Rev. Environ. Sci. Technol.(CREST)期刊副主编及多个国际国内学术期刊编委和客座主编。还担任国际环境地球化学与健康学会(SEGH)亚太地区主席及其首批会士、SEGH中爱联盟中方主席、SEGH2017国际大会和第五届、第六届生物气溶胶研讨会主席等。


研究方向


  1. 环境污染与转化机制研究
  2. 环境暴露与健康风险效应研究
  3. 环境污染控制与风险消减技术研究


特别推介


安太成教授荣获CREST期刊2021年最佳副主编奖


在CREST期刊发表论文列表


    

01    

Cai, Y., J. Liu, G. Li, P. K. Wong, and T. An. 2021. Formation mechanisms of viable but nonculturable bacteria through induction by light-based disinfection and their antibiotic resistance gene transfer risk: A review. Critical Reviews in Environmental Science and Technology DOI: 10.1080/10643389.2021.1932397.

https://www.tandfonline.com/doi/full/10.1080/10643389.2021.1932397 

CREST期刊公众号已推介该论文,详见8月16日推文


02

Yang, Y., P. Chen, S. Ma, S. Lu, Y. Yu, and T. An. 2021. A critical review of human internal exposure and the health risks of organophosphate ester flame retardants and their metabolites. Critical Reviews in Environmental Science and Technology DOI: 10.1080/10643389.2020.1859307. 

https://www.tandfonline.com/doi/full/10.1080/10643389.2020.1859307 

Abstract: The phasing out of brominated flame retardants from markets has prompted an increased focus on organophosphate ester (OPE) flame retardants because of their wide usage and toxicity. The high usage of OPEs inevitably leads to widespread occurrence in the environment and thus human internal exposure. Accordingly, extensive internal exposure to OPEs and their metabolites (mOPEs) has been reported in recent years. Here, we review literature findings relating to sample pretreatment protocols and instrumental analysis procedures for OPE determination; the occurrence and composition profiles of OPEs and mOPEs in human matrices including urine, blood, milk, nails, hair, and placenta; the health risks associated with OPE exposure; and notable challenges in OPE analysis. Measured urinary concentrations of dialkyl and diaryl mOPEs were relatively high in the USA but comparatively low in Europe and Asia. There have been few studies on OPEs and their hydroxylated metabolites (HO-OPEs) in human matrices. The main OPEs originating from daily necessity products are tris(2-chloroisopropyl) phosphate, tris(1,3-dichloro-2-propyl) phosphate, and triphenyl phosphate, although there are regional differences. Human exposure to OPEs occurs mainly through oral ingestion. Because of the relatively short biological half-lives of OPEs, urinary mOPE concentrations reflect short-term human OPE exposure, while OPE levels in hair and nails better reflect long-term exposure because of the low metabolic activities of OPEs in these matrices. There is a need to develop effective and flexible pretreatment methods and sensitive instrumental analysis protocols for OPEs/mOPEs and to increase the availability of commercial HO-OPE standards.

Keywords: Organophosphate ester; flame retardants; human internal exposure; health risk; metabolite


03

Yin, H., Y. Cai, G. Li, W. Wang, P. K. Wong, and T. An. 2021. Persistence and environmental geochemistry transformation of antibiotic-resistance bacteria/genes in water at the interface of natural minerals with light irradiation. Critical Reviews in Environmental Science and Technology DOI: 10.1080/10643389.2021.1877062. 

https://www.tandfonline.com/doi/full/10.1080/10643389.2021.1877062 Abstract: The antibiotic resistance (AR) is a threatening risk for human health at a global scale. The propagation, dissemination and evolution of AR have been well-studied these years. With development of AR, the antibiotic-resistance bacteria (ARB) and antibiotic-resistance genes (ARGs) have been detected in almost all environmental systems and matrices. Herein, we attempted to summarize how ARB/ARGs become persist when they enter water environments and further be involved in geochemical processes especially at the interface of natural mineral with light irradiation. During the processes, bacteria have different form of transformation and come into stressed or non-stressed states. Their existed forms will be varied including being inactivated, transient tolerance and persistence phenotypes, which make AR problem become stubborn and complicated. Besides, separation of ARB and ARGs further intensified complexity of AR problem after naked ARGs diffusing into water, which acted as reservoir of ARGs and set stage for their transfer between bacteria. Furthermore, acquisition of ARGs mediated plasmid could even bring some advantages or disadvantage to bacteria, making problem more complex and uncontrollable. To enable AR under control, it is critical to understand the mechanism how ARB/ARGs participate in environmental geochemical transformation and in what condition that AR persistence happen. Understanding ponderance of AR persistence is not only key to properly assess its risk, but also to seriously prevent the continued development of AR.

Keywords: Antibiotic-resistance bacteria; persistence; environmental mineral interface


04

Ma, S., Y. Yu, Y. Yang, G. Li, and T. An. 2020. A new advance in the potential exposure to “old” and “new” halogenated flame retardants in the atmospheric environments and biota: From occurrence to transformation products and metabolites. Critical Reviews in Environmental Science and Technology 50(19): 1935-1983.

https://www.tandfonline.com/doi/full/10.1080/10643389.2019.1681051

Abstract: The atmosphere occurrence of the most frequency used halogenated flame retardants (HFRs), including “old” chemicals such as polybrominated diphenyl ethers (PBDEs), tetrabromobisphenol A, hexabromocyclododecanes, and “new” chemicals such as decabromodiphenyl ethane, dechlorane plus, and short-chain chlorinated paraffins (SCCPs) were mainly reviewed. From data collected, these chemicals have reached all corners of the globe, and the atmospheric concentrations of HFRs were closely associated with production and usage of commercial products. The highest air concentrations of HFRs were measured at industrial and urban area with higher population density. The levels of “old” HFRs are decreasing or leveling off, while the “new” groups continue to grow. In addition, a large number of potential transformation products were also tentatively discovered and a few were structurally identified in both atmosphere and biota. Dehalogenation appears to be the most important atmospheric degradation processes. While, in animals and human body, the hydroxylated metabolites are of significant concern due to enhanced toxicological effects. However, due to limited availability of authentic standards, only a few compounds, such as hydroxylated PBDEs have been identified in the atmospheric environments and biota. Further studies are needed to elucidate possible transformation pathways and to enhance the monitoring of transformation products.

Keywords: Halogenated flame retardants; human exposure; biota transformation products; metabolites




点击下方蓝字阅读原文


环境科技评论CREST


回溯展望·美丽世界

公众号投稿、合作:CREST_China@outlook.com 


往期推荐

CREST 编委团队 | Scott Bradford

2021-07-27

她说|马奇英:爱生如子,敬业如山,甘于奉献,实现大我

2021-07-19

CREST期刊投稿指南——中英文版

2021-07-14


您可能也对以下帖子感兴趣

文章有问题?点此查看未经处理的缓存