Non-targeted screening (NTS) technology has been showing significant potential in identifying contaminants of emerging concern (CECs) in water and has attracted great attention in academia in recent years. It is a method that analyzes samples without pre-selecting substances, enabling the detection and identification of unknown compounds, which is crucial for environmental health and public protection. This study uses the Bibliometrix package in R 4.4.1 and CiteSpace 6.3.R1 software to statistically analyze 589 relevant publications from the Web of Science Core Collection from 2007 to 2024. Our work concentrates on NTS of water bodies; thus, articles that only analyze water sediments without analyzing the water were not considered for inclusion. By conducting a quantitative analysis and visualizing the publication trends, countries, authors, journals, and keywords, the present study identifies research hotspots, compositions, and paradigms within this field, trying to analyze the horizontal and vertical development trends and structural evolution of the research area. The research found that the application of NTS in water pollution studies has progressed through three phases: theoretical exploration, rapid development, and steady progress. From the national level, China leads with the highest number of publications (131), followed by Germany (105), Spain (50), and the United States (39). The top three authors by publication volume are J. Hollender, Nikolaos S. Thomaidis, and Emma L. Schymanski, while the top three by citation count are J. Hollender, Emma L. Schymanski, and M. Krauss. However, international collaboration between countries and researchers still remains an area for improvement. Science of the Total Environment is the journal with the highest number of publications (81), and Environmental Science & Technology holds the highest number of citations. Research on NTS methodologies, suspect screening, and health risk assessments are hot topics in the academic community. Future research is expected to be multidisciplinary, with emerging hotspots likely to focus on including the identification of novel pollutants through NTS, toxicity assessments of biotransformed compounds, and the health impacts and mechanisms of related compounds.
基金:
National Natural Science Foundation of China; Shanghai Jiading District High-Quality Development Key Discipline of Environmental Health [GWGZLXK-2023-03]; Shanghai Municipal Commission of Health and the Family Foundation of the Three-Year Public Health Action Plan of Shanghai [GWV-1.1, GWV-10.1-XK11, GWVI-4, GWVI-11.1-41, 202040186, 2017YQ023]; Natural Science Foundation of Shanghai [21 ZR1438400]; Public Health Discipline Construction of Pudong New Area Health System [PWGw2020-04]; Project of the Shanghai Huangpu District health Commission [HLM202109]; [82122058]; [81773379]; [81202165]
第一作者机构:[1]Shanghai Municipal Ctr Dis Control & Prevent, Shanghai 200336, Peoples R China
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推荐引用方式(GB/T 7714):
Wu Yitian,Shi Yewen,Gu Tianmin,et al.Global Trends and Hotspots in Non-Targeted Screening of Water Pollution Research: Bibliometric and Visual Analysis[J].TOXICS.2024,12(12):doi:10.3390/toxics12120844.
APA:
Wu, Yitian,Shi, Yewen,Gu, Tianmin,Du, Xiushuai,Du, Zhiyuan...&Liu, Wei.(2024).Global Trends and Hotspots in Non-Targeted Screening of Water Pollution Research: Bibliometric and Visual Analysis.TOXICS,12,(12)
MLA:
Wu, Yitian,et al."Global Trends and Hotspots in Non-Targeted Screening of Water Pollution Research: Bibliometric and Visual Analysis".TOXICS 12..12(2024)
