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61,005 resultsShowing papers similar to Scientometric analysis and scientific hotspots on microplastics/antibiotics interaction
ClearImpact of antibiotics on microbial community in aquatic environment and biodegradation mechanism: a review and bibliometric analysis
A bibliometric analysis of 6143 papers on antibiotic effects on aquatic microbial communities found exponential growth in publications and identified three research clusters, including the important topic of microplastics combined with antibiotics as a key hotspot.
Insight into the Interaction Between Microplastics and Microorganisms Based on a Bibliometric and Visualized Analysis
A bibliometric and visualized analysis of research on microplastic-microorganism interactions identified rapid growth in this field and key themes including plastisphere formation, biodegradation potential, and microbial community changes driven by microplastic exposure.
A comprehensive review of the circulation of microplastics in aquatic ecosystem using scientometric method
A scientometric analysis mapped global research trends on microplastics in aquatic ecosystems, identifying key research themes, leading countries, and major journals in the field while synthesizing evidence on plastic transport, toxicity, and food web circulation. The review documents exponential growth in microplastic research publications and highlights emerging topics including nanoplastics and combined pollutant effects.
Global trends and prospects in microplastics research: A bibliometric analysis
Researchers conducted a bibliometric analysis of global microplastics research using the Web of Science database from 1986 to 2019. The study found that publications on microplastics increased significantly since 2011, with research hotspots and trends shifting from marine contamination surveys toward understanding ecological impacts and human health implications.
Scientometric analysis and scientific trends on microplastics research
Researchers performed a scientometric analysis of microplastics research using 2,872 publications from the Web of Science database spanning 2004 to 2020. The bibliometric analysis mapped contributing countries, institutions, key authors, trending keywords, and future research directions in the field. The study found that microplastics research has grown rapidly, with increasing attention to environmental pollution across various ecosystems.
The emerging issue of microplastics in marine environment: A bibliometric analysis from 2004 to 2020
This bibliometric analysis of marine microplastic research from 2004 to 2020 revealed rapid growth in publications, identified key research themes and collaborations, and highlighted emerging topics including microplastic impacts on marine organisms and human health.
Microplastics’ and Nanoplastics’ Interactions with Microorganisms: A Bibliometric Study
A bibliometric analysis mapped the growing literature on interactions between microplastics, nanoplastics, and microorganisms, identifying major research themes including biodegradation, pathogen transport, and effects on soil and geochemical cycles. The field has expanded rapidly since 2016, with European and Asian institutions leading publication output.
Bibliometric analysis of microplastics research: Advances and future directions (2020–2024)
This bibliometric study analyzed trends in microplastics research from 2020 to 2024, finding a rapid increase in publications with growing specialization in areas like ecotoxicology, detection methods, and pollution control. Key research hotspots include microplastic effects on human health, interactions with other pollutants, and removal technologies. The analysis reveals that while the field is maturing rapidly, significant gaps remain in understanding real-world health impacts and developing effective remediation strategies.
How do humans recognize and face challenges of microplastic pollution in marine environments? A bibliometric analysis
Researchers performed a bibliometric analysis of 1,898 publications on marine microplastics, mapping research growth, collaboration networks, and thematic trends over time, and predicting that future research will increasingly focus on biological effects, human health impacts, and policy-relevant risk characterization.
Global research hotspots and trends on microplastics: a bibliometric analysis
A bibliometric analysis of microplastics publications from 1990 to 2022 found a 19-fold increase in publications and 35-fold increase in citations since 2015, with research clustering around distribution, toxicity, analytical methods, and adsorption of co-pollutants.
Microplastics and nanoplastics in global food webs: A bibliometric analysis (2009–2019)
This bibliometric analysis examined 330 publications on microplastics and nanoplastics in global food webs published between 2009 and 2019, finding a dramatic increase in research output since 2013 and identifying key journals, funding patterns, and interdisciplinary research trends in the field.
Micro(nano)plastics as Emerging Pollutants in Global Aquatic and Terrestrial Ecosystems: A Bibliometric Analysis
This bibliometric analysis mapped the global landscape of micro- and nanoplastic research in aquatic and terrestrial ecosystems using data from major scientific databases. Researchers identified key research trends, leading countries, and the most active institutions contributing to the field. The study reveals that while research output has surged in recent years, significant knowledge gaps remain around nanoplastics and their long-term ecological effects.
Trends, challenges, and research pathways in emerging contaminants: a comprehensive bibliometric analysis
This large-scale bibliometric analysis reviewed over 62,000 studies on emerging contaminants published between 2000 and 2024, finding that microplastics are among the fastest-growing areas of environmental health research. The analysis highlights that understanding how microplastics interact with other pollutants like pharmaceuticals and endocrine disruptors is a critical frontier for protecting human health.
Bibliometrics and visualization analysis regarding research on the development of microplastics
Researchers conducted a bibliometric analysis of microplastic research published from 2009 to 2019 using visualization software. The study found that publications grew exponentially during this period, with research hotspots shifting from zooplankton ingestion and surface water surveys toward adsorption, biodegradation, and toxicity analysis, and predicts that constructed wetlands, biotechnology, and photocatalysis for microplastic removal will become emerging research areas.
Global microplastics pollution: a bibliometric analysis and review on research trends and hotspots in agroecosystems
Researchers conducted a bibliometric analysis of over 1,600 publications on microplastic pollution in agricultural ecosystems from 2012 to 2024, identifying China, the USA, Germany, and India as leading contributors. The analysis revealed emerging research hotspots including biochar remediation, biodegradable microplastics, and antibiotic resistance genes associated with plastic contamination. The study provides a comprehensive overview of how microplastics affect soil properties, microbial communities, and crop productivity, while identifying key knowledge gaps for future research.
Unveiling the Microplastics Menace: A Bibliometric Analysis from 2011 to 2023
A bibliometric analysis of microplastic research from 2011 to 2023 maps the rapid growth of this field, identifying bioaccumulation in marine organisms, ecological impacts, and detection techniques as areas with significant remaining knowledge gaps. The analysis highlights that while publication volume has surged, critical questions about long-term ecosystem effects and exposure risks remain underexplored, pointing to where future research investment is most needed.
The Bibliometric Analysis of Microplastics in Soil Environments: Hotspots of Research and Trends of Development
This bibliometric analysis used CiteSpace to map research trends in soil microplastic contamination, identifying hotspots including microplastic effects on soil properties, organism interactions, and pollutant transport as key areas of growing scientific interest.
Scientometric Analysis and Visualization of Research on the Effects of Microplastics on Marine Life
Researchers conducted a scientometric analysis and visualization of the global research literature on the effects of microplastics on marine life, mapping publication trends, key contributing institutions, and thematic clusters in the field. The study characterized the growth and geographic distribution of research output to identify leading contributors and emerging topics in microplastic-marine organism interaction studies.
Microplastics in the marine environment: Current trends and future perspectives
Using a scientometric analysis of published literature, researchers mapped global trends in marine microplastic research from 2010 onward, finding rapid growth in publications, increasing geographic diversity, and a shift toward impacts and solutions. The analysis provides a high-level view of how the field has evolved and where research attention is currently concentrated.
A bibliometric analysis on the current situation and hot trends of the impact of microplastics on soil based on CiteSpace
This bibliometric analysis used CiteSpace and VOSviewer to map soil microplastics research published from 2013–2024 in the Web of Science, identifying key research clusters, institutional contributors, and emerging themes including microplastic-antibiotic resistance interactions and soil food web effects.
Current patterns and trends of microplastic pollution in the marine environment: A bibliometric analysis
This bibliometric analysis maps research trends on marine microplastic pollution from 2011 to 2022, showing a dramatic increase in scientific publications on the topic. Key research themes include microplastic ingestion by marine life, wastewater as a source, and contamination in specific regions like the Mediterranean Sea. The growing body of research reflects increasing concern about how marine microplastics enter the human food chain through seafood consumption.
Microplastics and human health: A scientometric analysis
Researchers conducted a scientometric analysis of the scientific literature on microplastics and human health, mapping research trends and publication patterns. The study reveals a rapidly growing body of evidence exploring how ubiquitous microplastic contamination may affect human health, while identifying gaps in current research that need further investigation.
A mixed method assessment of research productivity on microplastics in various compartments in the environment
This bibliometric study assessed global research productivity on microplastics across different environmental compartments, revealing literature growth trends, geographic distribution of research output, and identifying gaps in coverage across environmental media.
A Brief Bibliometric Analysis of Microplastic and Nanoplastic Particles in Food
This bibliometric analysis mapped the scientific literature on microplastic and nanoplastic particles in food, identifying publication trends, key research institutions, dominant topics, and knowledge gaps from 2000 to the time of analysis. The study found rapidly growing research interest in food-borne microplastics, with hotspots in seafood contamination and analytical method development.