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61,005 resultsShowing papers similar to Control strategies for microplastic pollution in groundwater
ClearResearch advances of micro/nanoplastics in groundwater: occurrence, environmental impacts and control strategies
This review examines the emerging issue of microplastic and nanoplastic contamination in groundwater systems, covering their sources, distribution patterns, potential environmental risks, and removal strategies. Researchers highlight that the strong heterogeneity and complexity of underground environments make studying microplastic migration particularly challenging. The study identifies significant knowledge gaps in sampling methods and calls for more research into how microplastics move through groundwater aquifers.
Understanding Microplastic Pollution in Groundwater: Pathways, Health Implications and Solutions
This review examines how microplastics infiltrate groundwater systems through pathways including landfills, agricultural runoff, water treatment facilities, and aging plastic pipes. Researchers found that once in groundwater, microplastics can persist for long periods and degrade water quality while interacting with other subsurface contaminants. The study highlights that groundwater microplastic contamination is an underappreciated threat to one of humanity's most important freshwater sources.
Review of Current Issues and Management Strategies of Microplastics in Groundwater Environments
This review synthesizes current knowledge on microplastic contamination in groundwater, identifying it as a substantially understudied environment compared to surface water and marine systems. The authors describe pathways by which microplastics enter aquifers and discuss management strategies for this largely invisible contamination route.
Groundwater in the age of plastic
This review examines microplastic contamination of groundwater globally, synthesizing studies on occurrence, transport pathways through soil and aquifer matrices, and the emerging implications for drinking water safety and groundwater ecosystem health.
An Overview of Microplastic Contamination in Groundwater: Sources, Transport Pathways, and Environmental Implications
This review examined microplastic contamination in groundwater systems, an area that has received less research attention compared to surface water. Researchers identified key sources and transport pathways for microplastics entering groundwater, including infiltration through soil and fractured rock, and highlighted the environmental implications for drinking water supplies.
Microplastics in Groundwater: Pathways, Occurrence, and Monitoring Challenges
This review provides a comprehensive look at how microplastics make their way into groundwater from surface water, seawater, and soil, and examines the challenges researchers face in detecting and monitoring them. The study found that a lack of standardized sampling and analysis methods makes it difficult to compare findings across different studies. Researchers emphasize the importance of understanding local geological conditions and preventing sample contamination to improve the reliability of groundwater microplastic monitoring.
Microplastics in groundwater: Environmental fate and possible interactions with coexisting contaminants
This review looked at how microplastics end up in groundwater and what happens when they interact with other pollutants already present. Researchers found that microplastic contamination in groundwater varies widely around the world, with levels ranging from zero to nearly 7,000 particles per liter. The study highlights that microplastics can act as carriers for other harmful substances, potentially increasing their ability to spread through groundwater and pose risks to ecosystems and human health.
Global status, risk assessment, and knowledge gaps of microplastics in groundwater: A bibliometric analysis
This review analyzed 215 published studies on microplastics in groundwater and found that this area of research is still in its early stages compared to surface water studies. Evidence indicates that microplastic contamination is present in groundwater worldwide, but sampling methods and reported results vary widely. The authors identified significant knowledge gaps in understanding how microplastics move through underground water systems and what risks they may pose to drinking water sources.
Global distribution, drivers, and potential hazards of microplastics in groundwater: A review
This review maps the global distribution of microplastics in groundwater and finds that contamination is widespread, with fiber-shaped particles and polyethylene being the most common types detected. The study highlights that climate change and local geology play underappreciated roles in how microplastics move through soil into groundwater, which is a drinking water source for billions of people worldwide.
Groundwater systems under siege: The silent invasion of microplastics and cock-tails worldwide
This review reveals that groundwater, a critical drinking water source for billions of people, is increasingly contaminated with microplastics from surface pollution seeping downward through soil. Unlike ocean and river pollution, groundwater microplastic contamination has received far less research attention, leaving major gaps in understanding how plastics migrate underground. The findings are alarming because contaminated groundwater directly enters drinking water supplies with little to no treatment in many regions.
The Urgent Need to Investigate Microplastic Contamination in Groundwater: Soil and Groundwater Interactions as Key Drivers
This viewpoint paper argued for urgent investigation of microplastic contamination in groundwater, highlighting soil-groundwater interactions as key drivers of subsurface MP transport and emphasizing the gap in current monitoring efforts.
Microplastic pollution in groundwater: a systematic review
This systematic review reveals that microplastics have been found in groundwater sources worldwide, raising concerns about drinking water safety. Detection methods and reported contamination levels vary widely, highlighting the need for standardized testing to fully understand the scope of the problem.
How soil moisture and flow regime drive microplastic transport in the vadose zone: insight from modelling and column experiments
Scientists studied how tiny plastic particles move through soil toward underground water sources that we use for drinking water. They found that plastic particles travel very differently depending on how wet or dry the soil is - sometimes getting trapped, other times moving quickly through the ground. This research helps us better understand how microplastics might contaminate our groundwater supplies, which is important for protecting drinking water quality.
State of knowledge and future research needs on microplastics in groundwater
This study used text-mining analysis of the scientific literature to summarize the state of knowledge on microplastics in groundwater, identifying research gaps around sources, transport through soil, and human exposure through drinking water. The review found that groundwater microplastic research lags behind surface water studies and that uniform detection methods are lacking.
Microplastics contamination of groundwater: Current evidence and future perspectives. A review
This review examines the current evidence on microplastic contamination of groundwater, which supplies drinking water to over 2 billion people worldwide. Researchers found that microplastics can reach groundwater through atmospheric deposition, surface water interaction, urban infrastructure, and agricultural soils, though detection remains challenging. The study proposes a new "Hydrogeoplastic Model" framework and calls for improved detection methods to better characterize microplastic fate in aquifer systems.
Microplastic pollution in soil and groundwater: a review
This review examines microplastic contamination in soil and groundwater, which has received less attention than ocean pollution. Littering is the main source of soil microplastics globally, and fibers and pellets are the most common shapes found. The contamination is harmful to soil organisms like earthworms and nematodes, can alter soil properties, and poses potential risks to human health through groundwater used for drinking.
Microplastics in the soil-groundwater environment: Aging, migration, and co-transport of contaminants – A critical review
This review examines how microplastics behave in the soil-groundwater environment, including how they age through weathering and oxidation, migrate through soil layers, and carry other contaminants along with them. The study suggests that aging increases the ability of microplastics to adsorb pollutants like heavy metals and pesticides, potentially facilitating their transport into groundwater supplies.
Groundwater Pollution and Contamination: Sources, Impacts, Management, and the Integration of AI/ML for Future Solutions
This review covers the sources, health impacts, and management strategies for groundwater pollution, including contamination from agricultural runoff, industrial waste, and landfill leachate. While broadly focused on water quality, the paper is relevant to microplastic concerns because contaminated groundwater is a drinking water source for billions of people, and emerging pollutants including microplastics are increasingly found in these systems.
Microplastics Pollution in the Groundwater of Three Land Use Types, Southeastern Hungary
Researchers investigated microplastic pollution in groundwater across three land use types in southeastern Hungary, providing data on the rate and distribution of microplastic contamination in a freshwater resource that has received far less study than surface water bodies.
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.
A Global Review of Microplastic Contamination in Groundwater: Empirical Evidence and Latin American Perspectives
Scientists reviewed 129 studies and found that tiny pieces of plastic (called microplastics) are contaminating groundwater around the world, which is concerning because groundwater provides drinking water to billions of people. The research shows we don't know enough about this problem, especially in Latin America where only two studies have actually tested groundwater for plastic contamination. This matters because we need better monitoring and policies to protect our underground water sources from plastic pollution that could affect human health.
Microplastics in soil and freshwater: Understanding sources, distribution, potential impacts, and regulations for management
This review synthesizes knowledge on microplastics in soil and freshwater systems, covering their sources, transport mechanisms, ecological and health impacts, and current regulatory frameworks for managing plastic pollution in terrestrial and aquatic environments.
Microplastics in soils: A comprehensive review
This comprehensive review summarizes what is known about microplastics in soil, covering their sources from agriculture, household waste, and industry, as well as how they move through and accumulate in different soil types. The review finds that current methods for measuring soil microplastics are inconsistent, making it difficult to accurately assess the true scale of contamination and its risks to food safety and human health.
Microplastics in groundwater: a global analysis
Researchers conducted a global groundwater sampling study to characterize microplastic contamination in aquifer systems worldwide, investigating transport mechanisms and fate of particles in anoxic subsurface environments where knowledge gaps remain despite extensive research on surface water systems.