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61,005 resultsShowing papers similar to Microplastic distribution in monitoring well water in the final landfill area Putri Cempo Surakarta Indonesia
ClearMicroplastics in Landfill Environments: Distribution, Characteristics, and Risks from Gampong Jawa, Indonesia
Researchers examined microplastic distribution across soil, leachate, river water, and well water surrounding a landfill in Gampong Jawa, Indonesia. They found alarmingly high concentrations in well water (up to 979 particles per liter) and soil (over 23,000 particles per kilogram), with fragments, fibers, and films being the most common types. The study demonstrates that landfills are significant sources of microplastic contamination that can spread to surrounding communities through water and soil pathways.
Microplastic Contamination in Urban Groundwater: A Case Study From Jakarta Megacity, Indonesia
Groundwater sampled across 121 locations in Jakarta contained between 28 and 236 microplastic particles per liter, with fragment-shaped pieces dominating and concentrations rising near temporary waste disposal sites. This is significant because millions of people in urban Indonesia still rely on groundwater for drinking, meaning microplastics from poorly managed waste are entering a direct route to human consumption.
Analysis on microplastics in dug wells around Tamangapa Landfills, Makassar City, Indonesia
Researchers determined microplastic abundance in dug wells within 1 km of the Tamangapa Landfill in Makassar, Indonesia, finding that fibers (72%) and fragments (28%) were the dominant forms, with microplastic sizes ranging from 0.069 mm to 4.459 mm, suggesting landfill proximity as a contamination source.
Spatial distribution of microplastic concentration around landfill sites and its potential risk on groundwater
Researchers found microplastic contamination in groundwater near two municipal waste dump sites in South India, with levels ranging from 2 to 80 particles per liter. Nylon was the most common type found, making up 70% of particles, and the contamination was traced back to degrading buried plastic waste. This is concerning because many communities rely on groundwater for drinking, and these findings show landfills can be a direct source of microplastics in drinking water.
Microplastic pollution in landfill soil: Emerging threats the environmental and public health
Researchers measured microplastic contamination in soil at a landfill near residential areas in Indonesia and found extremely high levels of over 60,000 particles per kilogram. The most common types were fragments of polyethylene, PVC, polystyrene, and polypropylene. The study raises public health concerns because landfills near populated areas can release microplastics into surrounding soil and water, creating exposure pathways for nearby communities.
Exploring the abundance of microplastics in Indian landfill leachate: An analytical study
Researchers analyzed microplastics in leachate from two major landfills in India and found concentrations of 1,473 to 2,067 particles per liter, with most particles smaller than 100 micrometers. Polyethylene terephthalate, polypropylene, cellulose acetate, and PVC were the most common plastic types identified. Since landfill leachate can seep into groundwater and nearby water bodies, these findings raise concerns about microplastic contamination of drinking water sources near dump sites.
Contamination, morphological and chemical characterization, and hazard risk analyses of microplastics in drinking water sourced from groundwater in a developing nation
Researchers analyzed groundwater from six coastal districts in a developing nation and found widespread microplastic contamination, with fibers and fragments of polyethylene and polypropylene being the most common types. Since groundwater is the primary drinking water source in many developing countries, this contamination represents a direct pathway for microplastic ingestion by millions of people.
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.
Distribution and ecological risk of microplastics in soil at the Jatibarang landfill in Semarang, Indonesia
Researchers found up to 2,340 microplastic particles per kilogram of soil at the Jatibarang Landfill in Indonesia, with polypropylene being the most hazardous pollutant based on risk assessment scores. The study highlights that poorly managed landfills — especially those near residential areas — are significant sources of microplastic contamination in surrounding soils.
Microplastics contamination in groundwater of a drinking-water source area, northern China
Researchers investigated microplastic contamination in shallow groundwater from a major drinking-water source area in northern China. The study found microplastics present in groundwater samples, with their abundance, morphology, and chemical composition varying across the study area and correlating with nearby human activities.
Distribution and transport of microplastics in groundwater (Shiraz aquifer, southwest Iran)
Researchers investigated microplastic contamination in groundwater from an alluvial aquifer in a semi-arid region of Iran. They identified microplastics in all sampled wells, with fibers and fragments being the most common shapes and polyethylene the dominant polymer type. The study demonstrates that groundwater, an important source of drinking water, is not immune to microplastic contamination and calls for more research on transport mechanisms in subsurface environments.
Microplastic Contamination in Well Water in Coastal Area of Jember Regency: Study of Characteristics, Abundance and Potential Causal Factors
Researchers analyzed microplastic content in well water consumed by coastal households in Kalimalang Hamlet, Jember, Indonesia, a sandy coastal area where microplastics can migrate easily through soil. Microplastics were detected in all 10 sampled wells, with potential causal factors including nearby coastal plastic debris and agricultural runoff identified as sources of contamination.
Microplastic Abundance and Characteristics in The Soil Around the Jambi Talang Gulo Landfill
Researchers measured microplastic abundance and characterized particle types in soil surrounding the Talang Gulo landfill in Jambi, Indonesia, finding that the high volume of plastic waste at the facility contributes to elevated microplastic contamination in surrounding soils through environmental weathering and fragmentation.
Implications of solid waste dumps on the microplastic abundance in groundwater in Kollam, India
Groundwater wells near waste dump sites in Kollam, India contained an average of 12 microplastic particles per liter, with fibers being the most common type. Larger dump sites were associated with higher microplastic levels, and the groundwater near heavy dumping sites was also more acidic, suggesting leachate from waste dumps is contaminating the water supply. This is a direct human health concern because many communities depend on well water for drinking, and microplastics in groundwater are difficult to remove.
Occurrence and Sources of Microplastics in groundwater divided by well depth and Hydrogeology in South Korea
Researchers investigated microplastic occurrence in South Korean groundwater stratified by well depth and hydrogeological setting, finding microplastics in wells across all depths and identifying surface connectivity as a key factor controlling contamination levels.
Microplastic Abundance and Characteristics in The Soil Around the Jambi Talang Gulo Landfill
Researchers measured microplastic abundance and characterized particle types in soil surrounding the Talang Gulo landfill in Jambi, Indonesia, finding elevated microplastic concentrations in areas adjacent to the high-volume waste disposal facility due to fragmentation of plastic debris under environmental weathering.
Analisis Kandungan Mikroplastik pada Sedimen di Perairan Semarang, Jawa Tengah
Researchers analyzed microplastic contamination in sediments from Semarang waters in Central Java, Indonesia, documenting the types, abundance, and distribution of microplastics across multiple sampling campaigns linked to the city's high population density and waste generation.
Spatial and temporal trends of microplastic contamination in surface sediment of Benoa Bay: An urban estuary in Bali-Indonesia
Researchers examined microplastic contamination in sediments of Benoa Bay, an urban estuary in Bali, Indonesia, across rainy and dry seasons. The study found concentrations ranging from 9.51 to 90.60 particles per kilogram, with the highest levels near a landfill site, and polyethylene, polypropylene, and polystyrene were the most commonly identified polymers.
Microplastics in groundwater of two rural communities in Mexico
Researchers detected microplastics in drinking water from ten rural wells in two Mexican communities, finding diverse polymer types and morphologies at concentrations that suggest widespread groundwater MP contamination even in areas distant from major urban pollution sources.
High abundance of microplastics in groundwater in Jiaodong Peninsula, China
Researchers detected microplastics in groundwater at all five sampling sites in the Jiaodong Peninsula of China, with concentrations ranging from 87 to 6,832 particles per liter and averaging 2,103 particles per liter. Particles smaller than 100 micrometers accounted for over 90% of the total, and concentrations correlated with proximity to industrial and agricultural activities above ground.
Analysis of microplastics in spring water
Researchers sampled six natural springs in Batu City, Indonesia, and detected microplastics in all of them at concentrations of 208–354 particles per cubic meter, even though the water otherwise met drinking water quality standards. The most common plastic types found were nylon, LDPE, PET, and PVC, suggesting that microplastic contamination reaches even groundwater-fed spring sources.
Coexistence of microplastic particles and heavy metals in landfill leachate: A case study of a landfill in Indonesia
Researchers analyzed microplastic and heavy metal contamination in leachate from an Indonesian landfill and found between 2,100 and 4,385 microplastic particles per liter, with older areas of the landfill producing higher concentrations. The dominant plastics were polyethylene, polypropylene, and polyamide fragments and films, with zinc, lead, and other heavy metals attaching to the plastic particles. The study highlights that landfill leachate is a significant and underappreciated pathway for both microplastic and heavy metal contamination to enter surrounding environments.
Abundance and characteristics of microplastics in different zones of waste landfill site: A case study of Hamadan, Iran
Researchers conducted the first study of microplastic abundance across different zones of a landfill in Hamadan, Iran, finding staggeringly high concentrations — up to 76,513 particles per kilogram of dry soil — in leachate lagoon areas where plastic-contaminated liquid collects. Fibers made up 71% of particles and LDPE and HDPE plastics dominated, highlighting landfills as a major but overlooked source of microplastic pollution.
The occurrence and abundance of microplastics in surface water of the midstream and downstream of the Cisadane River, Indonesia
Researchers investigated microplastic contamination in the Cisadane River, Indonesia, finding 13 to 113 particles per cubic meter in surface water with higher abundance downstream, dominated by polyethylene, polystyrene, and polypropylene fragments from household and industrial sources.