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20 resultsShowing papers similar to A Bibliometric Analysis of Soil Pollution due to Microplastics
ClearThe microplastics pollution in agricultural soils global trends and prospects research: bibliometric analysis
This bibliometric analysis reviewed global research trends on microplastic pollution in agricultural soils, finding rapidly growing scientific interest and identifying key knowledge gaps. Soil microplastic contamination poses risks to soil health, crop growth, and ultimately human food safety.
Bibliometric Analysis and Research Trends on Microplastic Pollution in the Soil and Terrestrial Ecosystems
This bibliometric analysis tracks research trends on microplastic pollution in soil and terrestrial ecosystems, revealing a rapidly growing field with increasing global collaboration. Researchers identified key themes including microplastic sources, soil organism impacts, and interactions with other pollutants. The study maps out knowledge gaps and suggests future research priorities for understanding how microplastics affect land-based environments.
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.
Research progress and hotspot analysis of soil microplastics: a bibliometrics-based review
This bibliometric review analyzes research trends and hotspots in the study of soil microplastics, mapping the field's growth and key focus areas over recent years. Researchers found that topics like microplastic transport, ecological effects on soil organisms, and interactions with other pollutants have become increasingly prominent research themes.
Global trends and hotspots evolution in soil microplastic pollution research: A bibliometric analysis based on the Web of Science
Researchers analyzed global trends in soil microplastic research using bibliometric tools and found the field is still developing compared to water-based studies, with hotspots growing rapidly since 2018. China, the US, the Netherlands, and Australia lead publications, and the field needs to shift focus from measuring toxicity to understanding how microplastics affect entire soil ecosystems.
Effect and environmental behaviour of microplastics in soil
This bibliometric analysis and review covers research on microplastic environmental behavior in soils from 2012 to 2022, documenting rapid growth in publications and identifying key research themes including transport, persistence, and interactions with soil biota and chemicals. The review highlights remaining knowledge gaps and emerging trends in the field of soil microplastic pollution.
A bibliometric analysis of global research hotspots and progress on microplastics in soil‒plant systems
This bibliometric analysis reviews the rapidly growing field of research on microplastics in soil and plant systems. Researchers identified key research hotspots including how microplastics affect agricultural productivity and enter the food chain through crops. The study provides a roadmap of current knowledge and points to critical gaps in understanding the long-term effects of microplastic contamination on agricultural ecosystems.
Health risk analysis of microplastics in soil in the 21st century: A scientometrics review
This bibliometric review mapped global research on health risks of microplastics in soil from 2001 to the present, finding a sharp increase in publications after 2016 and identifying plastic mulch, plastic waste, and sewage sludge as the most studied MP sources in soil. The review highlighted growing concern about dietary exposure through MPs taken up by food crops grown in contaminated soils.
Review and future trends of soil microplastics research: visual analysis based on Citespace
A bibliometric analysis of soil microplastic research revealed that the field is still in early development compared to aquatic microplastic science, with growing focus on agricultural soil contamination, food security risks, and the role of sewage sludge and plastic mulch films as primary soil inputs. The authors identify key knowledge gaps and predict future research directions.
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.
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.
Global research landscape of microplastics and their impact on earthworm: a bibliometric analysis
Researchers conducted a bibliometric analysis — a statistical review of published research — to map global trends in studies on how microplastics affect earthworms, finding steady growth in publications through 2022 with China and Europe leading the research. Earthworms are a key focus because they live in soil, help decompose organic matter, and serve as an indicator species for measuring how microplastics disrupt soil health.
Microplastics in Terrestrial Ecosystems: A Scientometric Analysis
A scientometric analysis of global microplastic literature in terrestrial ecosystems (Web of Science, 1986–2020) used co-occurrence visualization and citation mapping to characterize the rapid growth of terrestrial MP research and identify emerging focus areas such as soil health, agricultural plastics, and food safety.
A bibliometric perspective on the occurrence and migration of microplastics in soils amended with sewage sludge
Researchers used bibliometric analysis to map the growing body of research on microplastics in soils that receive sewage sludge. The study suggests that applying sewage sludge to farmland introduces thousands to hundreds of thousands of microplastic particles per kilogram into the soil, with estimated annual accumulations reaching into the trillions of particles across China and Europe.
Micro- and nanoplastics in soils: Tracing research progression from comprehensive analysis to ecotoxicological effects
Researchers conducted a large-scale analysis of 2,451 scientific publications on micro- and nanoplastics in soil published between 2006 and 2023, mapping global research trends and identifying key gaps. The review found rapidly growing interest in soil microplastic pollution and highlighted the need for interdisciplinary approaches to understand how these particles harm earthworms, soil microbes, and ultimately human health.
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 bibliometric analysis on microplastic pollution in groundwater
Researchers conducted a bibliometric analysis of publications on microplastic contamination in groundwater, identifying 695 relevant studies published between 2011 and 2022. They found that while microplastic research has surged overall, groundwater as a specific focus area remains significantly understudied compared to ocean and surface water environments. The study highlights critical knowledge gaps in understanding how microplastics transport through and contaminate subsurface water sources.
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.
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.