1）Team

Environmental Toxicology and Health

2）Introduction

The team of Environmental Toxicology and Health, based on the focus and hot issues of China's environment and health, it mainly focuses on research and development of individual air exposure measurement methods, exposure biomarkers, Identification of human exposure and environmental pollution sources, characteristics of human environmental exposure behavior patterns, environmental benchmarks and standards, and water environmental pollution and control. The academic team has 1 academician, 1 professor, 5 lecturers, 8 international students, 4 doctoral students and 8 master students to date. The team has undertaken more than 40 projects, including national key research and development programs, environmental protection public welfare projects, National Natural Science Foundation, 973 sub-projects, provincial-level special scientific research projects, and international cooperation projects. They have published more than 400 academic papers, including more than 300 SCI papers, and edited and published 17 monographs, issued 32 applications for invention/utility model patents and software works; issued or participated in the compilation of 2 standards/technical guidelines. To date, they have won 3 Second prizes of National Science and Technology Progress award, 5 first prizes and 3 second prizes of provincial and ministerial Science and technology Award, and 2 Excellent Prizes of Chinese Patent of State Intellectual Property Office.

3）Main Research Field

a）Environmental exposure behavior patterns and exposure parameters;

b）Multi-medium and multi-pathway exposure assessment and exposure biomarker measurement for heavy metals, polycyclic aromatic hydrocarbons and other pollutants;

c）Health risk assessment of heavy metals, polycyclic aromatic hydrocarbons, environmental endocrine disruptors, etc;

d）Measurement of human exposure to air pollution and analysis of sources of health risks；

e）Pollution and control of water environment；

f）Environmental benchmarks and standards, environmental health risk assessment and management standards and policies

4）Team Members

	Wu Fengchang Professor，Doctoral supervisor，PhD Major: Environmental Science and   Engineering Email: wufengchang@vip.skleg.cn
	Duan (Jamine) Xiaoli Professor，Doctoral supervisor，PhD Major: Environmental Science and   Engineering Email: jasmine@ustb.edu.cn
	Qin Ning Lecturer，PhD                               Major: Environmental   Geography Email: qinning@ustb.edu.cn
	Cao Suzhen Lecturer，Master Supervisor,   PhD Major:   Environmental Science and Engineering Email: love-lmd@163.com
	Wang Beibei Lecturer，PhD Major:   Environmental Science and Engineering Email:
	Qi Ling Lecturer，PhD Major:   Environmental Science Email: qiling0420@gmail.com
	Liu Jiaying Lecturer，PhD Major: Analysis   and environmental toxicology Email: jiaying@pku.edu.cn

5）Representative achievements in recent years

a）Papers

[1]     Xie F, Wu F*, Liu G, Mu Y, Feng C, Wang H, Giesy JP. Removal of phosphate from eutrophic lakes through adsorption by in situ formation of magnesium hydroxide from diatomite. Environmental Science & Technology, 2014, 48(1):582-590

[2]     Feng CL, Wu F*, Mu YS, Meng W, Dyer SD, Fan M, Raimondo S, Barron MG. Interspecies Correlation Estimation-Applications in Water Quality Criteria and Ecological Risk Assessment. Environmental Science & Technology, 2013, 47(20): 11382-11383

[3]     Zhu YR, Wu F*, He ZQ, Guo JY, Qu XX, Xie FZ, Giesy JP, Liao HQ, Guo F. Characterization of Organic Phosphorus in Lake Sediments by Sequential Fractionation and Enzymatic Hydrolysis. Environmental Science & Technology, 2013, 47(14): 7679-7687

[4]     Wu FC, Mu YS, Chang H, Zhao XL, Giesy JP, Wu KB. Predicting Water Quality Criteria for Protecting Aquatic Life from Physicochemical Properties of Metals or Metalloids. Environmental Science & Technology, 2013, 47(1): 446-453 (Second Runner-Up Best Article– Science 2012).

[5]     Wu FC, Zheng J, Liao HQ, Yamada M, Wan GJ. Anomalous plutonium isotopic ratios in sediments of lake Qinghai from the Qinghai-Tibetan Plateau, China. Environmental Science & Technology, 2011, 45(21), 9188-9194

[6]     Duan XL, Shen GF, Yang HB, et al. Measurement of human cyp1a2 induction by inhalation exposure to benzo(a)pyrene based on in vivo isotope breath method. Environmental Pollution, 2016, 208: 506-511.

[7]     Duan XL, Jiang Y, Wang, BB, et al. Household fuel use for cooking and heating in china: results from the first Chinese environmental exposure-related human activity patterns survey (CEERHAPS).Applied Energy, 2014, 136: 692-703.

[8]     Duan XL, Wang BB, Zhao XG, et al. Personal inhalation exposure to polycyclic aromatic hydrocarbons in urban and rural residents in a typical northern city in china. Indoor Air, 2014, 24(5): 464–473.

[9]     Cao SZ, Duan XL, Zhao XG, et al. Levels and source apportionment of children's lead exposure: could urinary lead be used to identify the levels and sources of children's lead pollution? Environmental Pollution, 2015, 199: 18-25.

[10]  Cao SZ, Duan XL, Zhao XG, et al. Health risk assessment of various metal(loid)s via multiple exposure pathways on children living near a typical lead-acid battery plant, China. Environmental Pollution, 2015, 200c: 16-23.

[11]  Cao SZ, Duan XL, Zhao XG, et al. Isotopic ratio based source apportionment of children's blood lead around coking plant area. Environment International, 2014, 73(1): 158-166.

[12]  Cao SZ, Duan XL, Ma YQ, Zhao XG, Qin YW, Liu Y, Li S, Zheng BH, Wei FS. Health benefit from decreasing exposure to heavy metals and metalloid after strict pollution control measures near a typical river basin area in China. Chemosphere, 2017, 184: 866-878.

[13]  Qi L, Wang SX. Fossil fuel combustion and biomass burning sources of global black carbon from GEOS-Chem simulation and carbon isotope measurements, Atmos. Chem. Phys., 2019, 19, 11545-11557.

[14]  Qi L, Li Q B, Li Y R, He C L. Factors controlling black carbon distribution in the Arctic, Atmos. Chem. Phys., 2017, 17, 1037-1059.

[15]  Qi L, Li Q B, He C L, Wang X, Huang J P. Effects of the Wegener-Bergeron-Findeisen Process on Global Black Carbon Distribution, Atmos. Chem. Phys, 2017, 17, 7459-7479.

[16]  Qi L, Li QB, He CL, Henze D. Sources of springtime surface black carbon in the Arctic: an adjoint analysis for April 2008, Atmos. Chem. Phys., 2017, 17, 9697-97167.

[17]  Liu JY, Martin J W. Comparison of Bisphenol A and Bisphenol S Percutaneous Absorption and Biotransformation. Environ. Health Perspect., 2019, 127 (6): 67008.

[18]  Liu JY, Wattar N, Field C J, Dinu I, Dewey D, Martin J W. Exposure and Dietary Sources of Bisphenol A (BPA) and BPA-Alternatives among Mothers in the APrON Cohort Study. Environ. Int., 2018, 119: 319–326.

[19]  Liu JY, Martin J W. Prolonged Exposure to Bisphenol A from Single Dermal Contact Events. Environ. Sci. Technol., 2017, 51 (17): 9940–9949.

[20]  Liu JY, Li J, Wu Y, Zhao Y, Luo F, Li S, Yang L, et al. Bisphenol A Metabolites and Bisphenol S in Paired Maternal and Cord Serum. Environ. Sci. Technol., 2017, 51 (4), 2456–2463.

[21]  Qin Ning, He Wei, Kong XZ; Liu WX; He QS, Yang B, et al. Distribution, partitioning and sources of polycyclic aromatic hydrocarbons in the water-SPM-sediment system of Lake Chaohu, China, Science of the Total Environment, 2014, 496: 414-423.

[22]  Wang BB, Lin CY *, Zhang X, et al. A soil ingestion pilot study for teenage children in China. Chemosphere, 2018, 202:40-47.

[23]  Wang BB, Lin CY *, Zhang X, et al. Effects of geography, age, and gender on Chinese children’s soil ingestion rate. Human and Ecological Risk Assessment, 2018, 24(7):1983-1989.

[24]  Wang BB, Duan XL, Feng WY, et al. Health risks to metals in multimedia via ingestion pathway for children in a typical urban area of China. Chemosphere, 2019, 226:381-387.

b）Important Project

[1]    National Natural Science Foundation of China - Innovation Research Group. Theory and method on water quality datum, 12 million, 2016.1-2022.1, Wu Fengchang  (PI)

[2]    Environmental protection public welfare industry research projects, Research on the technology and Method of setting water quality standards for major Heavy metals in China, 5.95 million, 2014.1-2017.1, Wu Fengchang  (PI)

[3]    National Natural Science Foundation of China - key project, Study on the biochemical composition structure and effect of organophosphorus in lake water environment in China，3.2 million, 2017.1-2021.12, Wu Fengchang  (PI)

[4]    National key Research and development program, Technology in the exposure assessment of air pollution and source apportionment of health risks, 26.88 million, 2016.7-2019.12, Duan Xiaoli  (PI)

[5]    Environmental protection special project, Study on total exposure of Heavy metals in Chinese population, 5.30 million, 2016.1-2016.12, Duan Xiaoli  (PI)

[6]    Environmental protection special project, Study on total exposure of Heavy metals in Chinese population (Children), 6.46 million, 2013.1-2014.12, Duan Xiaoli  (PI)

[7]    Environmental protection special project, Study on total exposure of Heavy metals in Chinese population (Adult), 5.94 million，2011.1-2012.12, Duan Xiaoli  (PI)

[8]    Rockefeller Brothers Fund，Progress report on environmental and Health research，0.69 million，2019.1-2019.12, Duan Xiaoli  (PI)

[9]    Energy Foundation，Progress report on air Pollution and health research，0.68million，2019.1-2019.12, Duan Xiaoli  (PI)

[10] National Natural Science Foundation of China - Science Foundation for Youth, Effects of morphology and mixing state on the optical properties of black carbon aerosol, 0.245million，2019.01-2021.12, Qi Ling  (PI)

[11] National key Research and development program，Technology and Integrated demonstration of joint air pollution prevention and control and heavy pollution emergency response in Beijing-Tianjin-Hebei and surrounding areas, 8.04million, 2019.12-2021.05, Qi Ling  (Project Leader)

[12] Key projects on the causes and Control of heavy atmospheric pollution, Research on heavy air pollution case base and early warning support technology, 1.20million，2017-2020，Qi Ling  (Sub-project Leader)

[13] General project of China Postdoctoral Science Foundation, Study on exposure assessment of typical Non-persistent environmental endocrine disruptors and reproductive health, 0.08million，2019/06-2020/12, Liu Jiaying (PI)

[14] National Natural Science Foundation of China - Science Foundation for Youth, Study on the influence mechanism of particulate organic matter (POM) on the particle/water distribution of hydrophobic organic pollutants (HOCs) in lakes , 0.249million，2016.01-2018.12, Qin Ning (PI)

[15] National Natural Science Foundation of China - Science Foundation for Youth, Source apportionment of lead exposure for children living around lead-related manufactures, based on dog's biomarker and isotope technique, 0.24million, 2019.01-2021.12, Cao Suzhen (PI)

[16] National key Research and development program, Methodology and index system of soil environmental exposure parameters in localized sites, 1.24million, 2020.1-2023.12, Wang beibei  (Sub-project Leader)

[17] National key Research and development program, Study on biomarker measurement technology of air pollution, 0.56million，2016.7-2019.12, Cao Suzhen  (Sub-project Leader)

c）Awards

[1]     “The second National Innovation First Award”（2020）

[2]     “Theory, technology and application of risk prevention and control of heavy metal pollution in watershed water environment”, Second Prize of National Science and Technology Progress Award（2017）

[3]     “Technology and application of risk prevention and control for regional environmental pollution population”, Second Prize of National Science and Technology Progress Award（2018）

[4]     ““Theory and Application of lake sediment pollution control” , Second Prize of National Science and Technology Progress Award（2013）

[5]     Technology of population exposure and health risk assessment for municipal solid waste treatment and disposal”, Second prize of Environmental Protection Science and Technology Progress award of The Ministry of Ecology and (2017)

[6]     The title of National Leading Talent of one million people Plan（2016）

[7]     National Labor Medal（2016）

[8]     National Natural Science Foundation of China - Innovation Research Group（2015）

[9]     Government Service Award of the International Society for Environmental Toxicology and Environmental Chemistry（SETAC Government Service Award）（2015）

[10]  Ministry of Science and Technology innovation talent promotion plan key areas of innovation team（2015）

[11]  Ho Leung Ho Lee Foundation Science and Technology Progress Award - Resource environmental Technology Award（2014）

[12]  The National Advanced Collective of outstanding professional and technical personnel（2014）

[13]  Outstanding Scientific and technological workers nationwide（2014）

[14]  The title of the first batch of national leading technical talents in environmental protection（2013）

[15]  The first prize of national Environmental Protection Science and Technology Award（2012）

[16]  Special government allowance under the State Council（2010）