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Chemosphere
基本信息
期刊名称 Chemosphere
CHEMOSPHERE
期刊ISSN 0045-6535
期刊官方网站 https://www.sciencedirect.com/journal/chemosphere
是否OA No
出版商 Elsevier Ltd
出版周期 Weekly
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始发年份 1972
年文章数 1190
影响因子 8.1(2023)  scijournal影响因子  greensci影响因子
中科院SCI期刊分区
大类学科 小类学科 Top 综述
环境科学与生态学2区 ENVIRONMENTAL SCIENCES 环境科学2区
CiteScore
CiteScore排名 CiteScore SJR SNIP
学科 排名 百分位 15.8 1.806 1.520
Medicine
Public Health, Environmental and Occupational Health
11/665 98%
Environmental Science
Health, Toxicology and Mutagenesis
8/148 94%
Environmental Science
Environmental Engineering
11/197 94%
Environmental Science
Pollution
12/167 93%
Chemistry
General Chemistry
30/408 92%
补充信息
自引率 2.5%
H-index 212
SCI收录状况 Science Citation Index Expanded
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网友分享审稿时间 数据统计中,敬请期待。
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PubMed Central (PMC) http://www.ncbi.nlm.nih.gov/nlmcatalog?term=0045-6535%5BISSN%5D
投稿指南
期刊投稿网址 https://www.editorialmanager.com/CHEMOSPHERE
收稿范围
Chemosphere is an international journal designed for the publication of original communications as well as review articles on chemicals in the environment. Chemosphere, as a multidisciplinary journal, offers maximum dissemination of investigations related to all aspects of the identification, quantification, behavior, fate, toxicology, treatment, and remediation of chemicals in the bio-, hydro-, litho- and atmosphere.

Chemosphere will publish:
• Original communications (Research Papers) describing important new discoveries or further developments in important fields of investigation
• Review Articles, mainly of new developing areas (note that we do NOT publish bibliometric reviews)
• Short communications
• Letters to the Editor
• Special, themed issues on relevant topics

All papers should demonstrate a high level of novelty, originality and uniqueness. The following sections and subject fields are included:

Environmental Chemistry

This section will publish manuscripts dealing with fundamental processes in the environment that are related to the analysis, behavior, fate, and alteration of organic and inorganic contaminants focused on the dynamics of contaminants in environmental compartments such as water, soil, sediment, particulate matter, organisms, dust and indoor/outdoor air. Only studies that are of significance to an international audience, include sites of particular global interest, or lend themselves to interpretation at the global level should be submitted.

Topics of specific interest include, but not limited to, are:
• All aspects of emerging contaminants, such as pharmaceuticals, pesticides, flame retardants, other industrial chemicals, persistent organic pollutants, endocrine disruptors, etc.
• All aspects of trace elements, organometals, metalloids (e.g., arsenic) and radionuclides
• Environmental fate studies including transport, biodegradation, bio-accumulation and/or deposition, atmospheric (photo)chemical processes, hydrolysis, adsorption/desorption
• Transformation and mineralisation of chemicals (e.g., by bio- and photo degradation, redox processes and hydrolysis)
• Novel environmental analytical methods including case studies
• Environmental modelling and quantitative structure-activity
relationships to study fate and environmental dynamics
• Monitoring studies presenting new strategies, report of novel contaminants, findings or interpretations of interest for an international readership.
• Passive sampling
• Non-target and suspect screening (e.g. effect-directed analysis)
• Natural marine toxins

• Nanopolymers, nanocomposites, and microplastics in the environment
The following studies are not considered for publication: studies on (micro)organisms (unless chemicals are clearly involved), monitoring studies based on standard methodology, and/or only of regional importance, studies dealing only with nutrients in agricultural ecosystems, pesticide application studies, plant physiology studies, studies on improvement of crops and purely analytical methodology studies. As regards papers on air pollution, we focus on contaminants in air, particulate matter studies and also consider papers on NOX, SOX or ozone.

Toxicology and Risk Assessment

The section on Environmental Toxicology and Risk Assessment covers all aspects of toxicology, i.e., the science of adverse effects of chemicals on living organisms including humans, and the scientific risk assessment.

Topics of specific interest include, but not limited to, are:
• Adverse effects of chemicals in environmental, aquatic and terrestrial, organisms
• Similar studies in experimental organisms (under laboratory conditions)
• Epidemiological studies on effects of chemicals in humans
• Biochemical studies related to mechanisms of adverse effects
• Toxicokinetics and metabolic studies on chemicals related to adverse effects
• Development and validation of testing methods based on living organisms or biological materials
• Adaptation
• Human biomonitoring
• Elucidation of mechanisms of toxic effects
• DNA and protein adducts
• In vitro assays and omics techniques
• Phytotoxicity

Not considered are, e.g., studies that report only concentrations of chemicals in the environment, living organisms, food or other materials etc. and studies on biochemical effects of chemicals non-relevant to toxicology.

Treatment and Remediation

This section deals with papers about technologies that manage and/or reduce environmental contaminants, including reuse and recycling processes. The technology must be beyond a basic laboratory study or have obvious implications for current or potential treatment or remediation technologies and, for example, for any advanced oxidation process, the intermediates and/or the extent of mineralization of the targeted compound(s) and wastes must be quantified.

Topics of specific interest include, but not limited to, are:
• Advanced water and wastewater treatment processes and sludge management
• Produced water
• Drinking water
• Incineration
• Remediation including bio/phytoremediation employing new strategies
• Hydraulic fracturing
• Use of biochar amended soil to bind (e.g., herbicides)
• Nanotechnology
• Advanced oxidation processes
• Photolysis/photocatalysis and electrochemical and photo-assisted electrochemical methods
• Sonolysis/sonocatalysis
• Mechanochemical destruction (MCD)
• Natural treatment systems (riverbank filtration and aquifer recharge/recovery)
• Characterization of natural and effluent organic matter
• Technologies for recycle/reuse ( e.g., of microbial fuel cell techniques)
• Gasification/pyrolysis for biomass-to-energy and energy recovery from waste streams

Not considered are studies that focus on the synthesis of new materials to be used in waste water purification or remediation. Studies focusing on the removal of single contaminants are often less interesting for publication.
收录体裁
Research Papers, Review Papers, Short Communications, Letters to the Editor, Replies and Discussion Papers
投稿指南 https://www.sciencedirect.com/journal/chemosphere/publish/guide-for-authors
投稿模板
参考文献格式 https://www.elsevier.com/journals/chemosphere/0045-6535/guide-for-authors
编辑信息
Co-Editors-in-Chief
Free University of Amsterdam Department of Environment and Health, De Boelelaan 1085, 1081 HV, Amsterdam, Netherlands  Non-dl-POPs, FRs, levels, trends, analytical methods, food chain accumulation, interlab studies, biomonitoring, fate, exposure, fish, shellfish toxins
University of Arizona, Tucson, Arizona, 85721-0001, United States Drinking water, hydraulic fracturing, produced water, water treatment processes (particularly advanced oxidation), use of cellular bioassays for characterizing complex mixtures of contaminants
Special Issues Editor
Environment and Climate Change Canada, Aquatic Contaminants Research Division, 867 Lakeshore Road, Burlington, L7S1A1, Ontario, Canada  Environmental chemistry; Biogeochemistry; Bioaccumulation; Persistent organic pollutants; Chemicals of emerging concern; Chemical inventories; Mercury; Polycyclic aromatic compounds; Arctic; Marine mammals; Fish
Associate Editors
Environmental Chemistry
Free University of Amsterdam Department of Environment and Health, Amsterdam, Netherlands  Non-dl-POPs, FRs, levels, trends, analytical methods, food chain accumulation, interlab studies, biomonitoring, fate, exposure, fish, shellfish toxins
Shanghai Jiao Tong University - Fahua Campus, Shanghai, China  Soil remediation, contaminant removal from water, flue gas, metal speciation, metals in soil, bioavailability and human health, arsenic, phosphate, development, application of solid waste-derived environmentally functional materials, biochar, recycling, groundwater
Helmholtz Centre Geesthacht Centre for Materials and Coastal Research, Geesthacht, Germany  PM2.5, air pollution, organic and inorganic contaminants, mercury, POPs, emerging contaminants, marine environment, polar environment, atmosphere
VU Amsterdam, Amsterdam, Netherlands  trace elements, speciation, nanomaterials, environment, health, exposure, (hyphenated) analytical techniques, method development, validation
Leuphana University of Lüneburg Institute for Sustainable and Environmental Chemistry, Lüneburg, Germany  Sustainable Chemistry; Green Chemistry; Green and Sustainable Pharmacy; Resources; Benign by Design; Environmental Chemistry; Time and sustainability
VUB University, Brussel, Belgium  Trace metals, organometals, metalloids, radionuclides, analytical techniques, geochemical cycling, metals and human health, gel diffusion techniques ,for in situ trace metal speciation DGT (diffusive gradients in thin films) and DET (diffusive equilibrium in thin films), mining

Lena Ma

University of Florida, Gainesville, Florida, United States  Biogeochemistry of trace metals in soils, wastes, and plants; Soil contamination and remediation; Phytoremediation; Chemical stabilization; Metal speciation; Metal bioavailability and bioaccessibility; Metal exposure and human health; Plant metal uptake and transport; Microbial transformation of metals; Metal availability and food safety
Southern California Coastal Water Research Project, Costa Mesa, California, United States  Sources, fate, effects of emerging contaminants, natural organohalogens, aquatic ecosystems, bioanalytical tools, passive samplers, POPs, HOCs, contaminated sediments, recycled water
Environment and Climate Change Canada, Aquatic Contaminants Research Division, Burlington, Ontario, Canada  Environmental chemistry; Biogeochemistry; Bioaccumulation; Persistent organic pollutants; Chemicals of emerging concern; Chemical inventories; Mercury; Polycyclic aromatic compounds; Arctic; Marine mammals; Fish
Maria Curie-Sklodowska University, Lublin, Poland  Biochar; organic contaminants; heavy metals; polycyclic aromatic hydrocarbons; nanoparticles; sewage sludge; ecotoxicology; remediation
California Department of Toxic Substances Control Berkeley Laboratory, Berkeley, California, United States  Levels, trends, dl-POPs, BFRs, analytical methods, bioaccumulation, biomonitoring, exposure assessment, emission, production, generation
Centers for Disease Control and Prevention, Atlanta, Georgia, United States  Human health; Analytical methods; Dl- and non-dl-POPs
Toxicology and Risk Assessment
University of Exeter, Exeter, United Kingdom  Nanopolymers and nanocomposites, microplastics as marine pollutants, ecotoxicology, adaptation, oil fracking and drilling, human biomonitoring
Umweltbundesamt Aussenstelle Berlin-Grunewald, Berlin, Germany Bioassays, human biomonitoring, ecotoxicology, epidemiology, indoor air, oil fracking and drilling
Peking University College of Urban and Environmental Sciences, Beijing, China  Bioassays, human biomonitoring, effects of EDCs on reproduction and development, health risk assessment, ecological risk assessment, Biomagnification in aqueous food-web, epidemiology, and drinking water quality.
National Exposure Research Laboratory, Cincinnati, Ohio, United States  Effect of EDCs on fish populations; Estrogenicity of WWTP discharge; G expression; Toxicity effects on a population; Invasive toxic algae; DNA and protein adducts; Impact of coal; Mineral, gas and oil extraction; Pharmaceuticals; Water quality criteria
Leiden University Institute of Environmental Sciences, Leiden, Netherlands  Risk assessment; Ecological risk assessment; Environmental fate and effect assessment; Nanoparticles; Bioavailability; Metals; Organics; Quantitative structure-activity relationships (QSARs); Transformation of chemical substances; Biodegradation; Abiotic transformations
University of California Riverside Department of Environmental Sciences, Riverside, California, United States  Fish toxicology; hepatotoxicity; cardiovascular toxicity; neurotoxicity; early life-stage toxicity; pesticides; high-volume chemicals; flame retardants; chemicals policy and regulation; human and ecological risk assessment; high-throughput screening; mechanistic toxicology;
Treatment and Remediation
University of Barcelona, Barcelona, Spain  Non-dl-POPs, FRs, levels, trends, analytical methods, food chain accumulation, interlab studies, biomonitoring, fate, exposure, fish, shellfish toxins
University of Akron, Akron, Ohio, United States  bioremediation, phytoremediation, environmental engineering
Tsinghua University, Beijing, China  Advanced oxidation/reduction process; Emerging contaminants (PFAS, PPCPs, flame retardants, dioxins, etc.); Non-combustion technology for waste disposal or soil remediation
University of Seoul Department of Environmental Engineering, Seoul, Korea, Republic of Biological removal of organic compounds, nutrient removal, analysis and degradation of trace organics, odorants from water/wastewater

Yongmei Li

Tongji University, Shanghai, China  Removal and recovery of phosphorus from wastewater and sludge; nitrification and denitrification; anaerobic fermentation of biosolids; fate and attenuation of emerging organic contaminants in wastewater treatment plants
National Cheng Kung University, Tainan, Taiwan  identification, treatment, and process modeling relevant to cyanobacteria, taste and odor compounds and cyanotoxins present in reservoirs and water treatment plants; monitoring and treatment of arsenic and chlorinated hydrocarbons in ground water
Nanyang Technological University, Singapore, Singapore  Anaerobic degradation, nutrient recovery
Stanford University, Stanford, California, United States  Environmental organic chemistry, disinfection byproduct formation mechanisms, nitrosamines, other research interests include the formation of nitrosamines formed by the reaction of NOx with amines used to capture CO2 from power plants, the effect of halides on the natural (i.e., sunlight) or engineered (i.e., advanced oxidation) photodegradation of contaminants, and the reductive transformation of contaminants sorbed to black carbons.
National Autonomous University of Mexico, Mexico City, Mexico Biological wastewater treatment, anaerobic process for wastewater and sludge treatment, biological nitrogen removal, biofiltration of odorous gases, control of GHG emissions from wastewater treatment facilities
University of Arizona, Tucson, Arizona, United States  Drinking water, hydraulic fracturing, produced water, water treatment processes (particularly advanced oxidation), use of cellular bioassays for characterizing complex mixtures of contaminants
University of South Carolina Department of Civil & Environmental Engineering, Columbia, South Carolina, United States  Water treatment; Membrane filtration; Adsorption; Sonodegradation; Oxidation; Micropollutants; Nanotechnology
National Taiwan University, Taipei, Taiwan  Environmental biotechnology, environmental microbiology, biodegradation, microbial electrochemical technology, biological wastewater treatment, bioremediation
Treatment and Remediation, Chemosphere, Hong Kong University of Science and Technology Department of Civil and Environmental Engineering, Hong Kong, Hong Kong Water treatment, drinking water, emerging compounds, disinfection byproducts
Editorial Board

Mari Asami

National Institute of Public Health Department of Environmental Health, Saitama, Japanwater quality

Georg Becher

University of Oslo Department of Chemistry, Oslo, Norway Assessment of Human Exposure to Organic Pollutants and Toxicants
University of Surrey Department of Civil and Environmental Engineering Disinfection byproducts, Microplastics, Water treatment, Wastewater treatment, Drinking water disinfection

Henk Bouwman

North-West University, Potchefstroom, South Africa dioxins, DDT, POPs

Bella Chu

Texas A&M University College Station, College Station, Texas, United StatesBiodegradation, Bioremediation, Endocrine-disrupting compounds, Emerging contaminants, Bioenergy and value-added products.

Simonetta Corsolini

University of Siena, Siena, Italy Legacy and emergent POPs, environmental monitoring, bioaccumulation, distribution in abiotic and biotic compartments, POPs in polar ecosystem, POPs in tropical ecosystem, toxicity risk assessment, gaschromatography, ecology, penguins and seabirds, marine trophic webs, turtles, sharks, Ecotoxicology

Shiming Ding

Nanjing Institute of Geography and Limnology Chinese Academy of Sciences, Nanjing, China Bioavailability; Freshwater; Passive sampling; Metal; Nutrient; Water quality; Remediation; Geoengineering; Sediment; Soil

Shinya Echigo

Kyoto University, Kyoto, Japan disinfection by-products, fate of micropollutants in the aquatic environment and water treatment processes, ozonation, advanced oxidation
Nanyang Technological University, Singapore, Singapore Metabolomics; Risk Assessment; Environmental Analytical Chemistry; Gut microbiome; Biomarkers; Exposome; Mixture Effect; Non-targeted identification

Loretta Fernandez

Northeastern University, Boston, Massachusetts, United States environmental organic chemistry, contaminated sediment, fate and transport modeling, persistent organic pollutants, passive sampling
Orebro University, Orebro, Sweden Persistent Organic Pollutants and Dioxins
Nanjing Agricultural University, Nanjing, China Organic contaminant; Soil-plant system; Soil contamination and remediation; Rhizosphere; Root exudates; Soil environmental chemistry; Bioremediation; Plant contamination

Sergio Garcia-Segura

Arizona State University, Tempe, Arizona, United States Water treatment; Persistent organic pollutants; Electrochemically driven processes; Electrochemical Advanced Oxidation Processes; Electrochemical oxidationElectro-Fenton; Photoelectrocatalysis; Electrochemical management of nitrogen cycle; Photocatalysis; Nanotechnology

Jiarui Han

Hong Kong University of Science and Technology Department of Civil and Environmental Engineering, Hong Kong, Hong Kong Water treatment, Disinfection byproducts, Emerging micropollutants, Toxicity risk assessment

Tom Harner

Environment and Climate Change Canada, Downsview, Ontario, Canada Persistent Organic Pollutants and their environmental fate, transport and passive sampling methods

Rachel Ann Hauser-Davis

Oswaldo Cruz Foundation, Rio de Janeiro, Brazil ecotoxicology, bioassays, proteomics, metallomics, metal contamination, biomarkers, metallothionein, oxidative stress, analytical techniques, POPs, enzymes, PAH, biomonitoring, bioaccumulation, HPLC-ICP-MS, ICP-MS, protein and DNA electrophoresis, fish, mussels, marine mammals, in vitro assays

Ron Hoogenboom

Wageningen University, Wageningen, Netherlands dioxins, PCBs, transfer, bioassay, PFASs, analysis, risk assessment, exposure assessment
South Dakota State University, Department of Civil and Environmental Engineering, Brookings, United States Water Treatment, Natural Organic Matter, Disinfection Byproducts, Stormwater Treatment, Nutrient Removal

Gwenaël Imfeld

University of Strasbourg, Strasbourg, France wetland biogeochemistry; microbial ecology; pollutant transfer; biodegradation; pesticides

Roland Kallenborn

Norwegian University of Life Sciences, Ås, Norway Arctic, emerging contaminants
Utrecht University, Utrecht, Netherlands 3R; In vitro toxicology; Distribution kinetics; Toxicokinetics; PBPK; Protein binding; QIVIVE; Chemical safety assessment; Toxicological risk assessment; Environmental chemistry
Wageningen University, Wageningen, Netherlands PFASs; BFRs; dioxins/PCBs; Fish; Exposure assessment; Human biomonitoring; Analytical techniques; Interlaboratory studies; Effect-directed analysis; Food safety

Pim Leonards

VU University Amsterdam Institute for Environmental Studies, Amsterdam, Netherlandsmetabolomics, analytical chemistry, flame retardants, dust

Domen Lestan

University of Ljubljana, Ljubljana, Slovenia Soil washing, phytoextraction, immobilisation of toxic elements, metals in soil, metals bioavailability and bioaccessibility, soil functioning, soil ecosystem services

Xingfang Li

University of Alberta Division of Analytical and Environmental Toxicology, Edmonton, Alberta, Canada Keywords: HPLC-MS, water disinfection byproducts, toxicology
Harbin Institute of Technology, School of Environment, Harbin, China Membrane, Drinking water treatment; Water reuse; Advanced oxidation; Desalination
Nanyang Technological University, Singapore, Singapore Waste to energy; Waste to materials; Circular economy; Waste management; Soil remediation; Municipal solid wastes; Gasification; Pyrolysis; Application of waste derived materials; Waste upcycling and recycling

Jian Lu

Yantai Institute of Coastal Zone Research, Yantai, China Emerging contaminants; Endocrine -disrupting chemicals; Antibiotics and heavy metals; Antibiotic resistance genes; Microplastics; Biodegradation; Persistent organic pollutants; Fate and transport; Coastal and marine pollution; Aquaculture and pollution
University of Arizona, Tucson, Arizona, United States Antibiotic resistance; Water quality; Indicator bacteria; Contaminant source tracking; Recycled wastewater

Xiang-Zhou Meng

Tongji University, Shanghai, China persistent organic pollutants; wastewater; sewage sludge; soil; occurrence; fate; risk assessment

Hyo-Bang Moon

Hanyang University Department of Marine Science and Convergence Engineering, Ansan, Korea, Republic of Persistent organic pollutant (POPs), Emerging contaminants, Environmental fate, Human exposure

Jochen Müller

University of Queensland, Brisbane, Queensland, Australia emerging contaminants, dioxins

Junfeng Niu

Beijing Normal University, Beijing, China environmental technology

Pongsak Noophan

Kasetsart University, Bangkok, Thailand biological treatment processes
Korea University Division of Environmental Science and Ecological Engineering, Seoul, Korea, Republic of Biochar, Resilience, Soil remediation, Biomass, Bioenergy

Guillermo Quijano

National Autonomous University of Mexico Research Laboratory of Advanced Water Treatment Processes, Querétaro, Mexico Biological treatment of gas pollutants; Biogas desulfurization; Biogas upgrading; greenhouse gases; Odors; Renewable energy from residues; Volatile organic compounds

Gerhard Rimkus

Intertek Caleb Brett Germany GmbH, Hamburg, Germany Synthetic fragrances and personal care products in the environment; Bioaccumulation and metabolism in biota like fish, seals, birds etc.; Bioaccumulation in human tissue/breast milk; Analysis of contaminants in biota and food samples; Residues and contaminants in food, EU food legislation

Paolo Roccaro

University of Catania, Catania, Italy environmental engineering; water treatment and reuse; emerging contaminants; disinfection by-products.

Virender K Sharma

Texas A&M University College Station, College Station, Texas, United States

Reyes Sierra-Alvarez

University of Arizona, Tucson, Arizona, United States Biodegradation, biological treatment, bioremediation, microbial toxicity; engineered nanomaterials; nanotoxicity; metal-microbe interactions; wastewater treatment; metal bioremoval

Werner Tirler

Eco Research Srl, Bolzano, Italy air pollution, dioxins
The Hong Kong Polytechnic University Department of Civil and Environmental Engineering, Hong Kong, Hong Kong Green chemistry/engineering; Soil/sediment remediation; Engineered biochar; Waste valorization; Resource recovery; Wastewater/stormwater treatment; Catalytic conversion/degradation; Pollutant transport; Environmental pollution | Sustainable urban development, urban wastes, contaminated land and water, waste management (food, wood, plastic agro, sludge), green remediation, wastewater treatment.

Katrin Vorkamp

Aarhus University Danish Centre for Environment and Energy, Roskilde, Denmark Fate of organic pollutants in the environment;Persistent organic pollutants in the Arctic;New contaminants (e.g. brominated flame retardants);Analytical methods in complex matrices

Qilin Wang

University of Technology Sydney, Sydney, Australia Biological wastewater treatment; Anaerobic digestion; Sludge treatment; Nutrient removal; Process modelling of biological wastewater treatment; Greenhouse gas production; Algae; Biochar; Bioenergy and value-added products; Aerobic digestion

Jana Weiss

Uppsala University, Uppsala, Sweden analytical chemistry, human exposure, non-target screening, effect-directed analysis
South China Normal University, Guangzhou, China Aquatic toxicology; Endocrine disrupting chemicals; Effects of PPCPs in aquatic organisms; Metal biodynamic modeling; Metal toxicity; Dietary exposure; Trophic transfer; Evolution of resistance; Antibiotic resistance; Biomarkers
University of Nevada Reno, Reno, Nevada, United States the biogeochemical cycles of carbon/nitrogen, the reductive degradation of emergent organohalide, fate and transport of engineering nano-materials in agricultural ecosystem and recover of energy/nutrient from wastewater.
Environment Canada Emergencies Science and Technology Division, Ottawa, CanadaOrganic contaminants; Oil fingerprinting; Fate and behavior of oil and organic contaminants; Analytical method development; Bioavailability assessment of organic contaminants; Passive sampling technologies; Polycyclic aromatic hydrocarbons; Petroleum biomarkers; Naphthenic acidsChromatography

Minghui Zheng

Research Centre for Eco-Environmental Sciences Chinese Academy of Sciences, Beijing, China Persistent Organic Pollutants, Dioxins, Incineration, POPs Emission, POPs Monitoring

Bingsheng Zhou

Institute of Hydrobiology Chinese Academy of Sciences, Wuhan, China Fish; In vitro toxicology; Developmental and reproductive toxicology; Neurotoxicology; Oxidative stress; Molecular response and adverse outcome; Endocrine disruptors; Emerging pollutants; Nanoparticles and toxicity


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