We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Papers
61,005 resultsShowing papers similar to Microplastic background levels in German soils: The influence of site-specific characteristics and land-use practices
ClearAmount, distribution and composition of large microplastics in typical agricultural soils in Northern Germany
Researchers surveyed agricultural soils in Northern Germany for large microplastics and found contamination across all sampled fields, with polyethylene and polypropylene being the most common polymer types. Concentrations varied widely depending on farming practices, with fields receiving compost and sewage sludge showing higher contamination levels. The study provides important baseline data on microplastic pollution in European agricultural soils and identifies fertilization practices as a key contamination pathway.
Development of an extraction and determination method for microplastics in compost and soil matrices
Scientists found tiny plastic particles (called microplastics) in compost and farm soil samples, with higher amounts in surface soil and areas with more organic matter. This matters because these microplastics can get into our food through crops grown in contaminated soil, potentially affecting human health. The study also showed that microplastics are everywhere in our environment - even floating in laboratory air - highlighting how widespread this pollution problem has become.
Mechanisms of microplastic accumulation in the root zones of agricultural soils
Scientists found that tiny plastic pieces from farm materials like mulch films get stuck in soil and don't wash away easily, causing them to build up over time in areas where food is grown. This matters because these microplastics can potentially enter our food supply through crops that absorb them from contaminated soil. The research shows it's very difficult to remove these plastic particles once they're in farmland, suggesting we need better prevention methods to protect our food system.
A nationwide assessment of microplastic abundance in agricultural soils: The influence of plastic crop covers within the United Kingdom
A nationwide study of 108 agricultural sites across the United Kingdom found microplastics in all soil samples, with concentrations averaging 3,680 particles per kilogram. Fields where plastic crop covers were used had significantly higher microplastic levels than those without plastic covers. This study shows that common agricultural plastic use is a major source of soil microplastic contamination, which could ultimately affect crop quality and enter the food chain.
Occurrence characteristics and risk assessment of microplastics in agricultural soils in the loess hilly gully area of Yan' an, China
Researchers measured microplastic levels in agricultural soil, water, and fertilizer in a farming region of central China and found an average of about 4,500 particles per kilogram of soil. Over 90% of the particles were smaller than 100 micrometers, and the main types were polyethylene and PET from sources like plastic mulch and compost. The findings show that farming practices are introducing significant microplastic contamination into the soil where food is grown.
Significant influence of land use types and anthropogenic activities on the distribution of microplastics in soil: A case from a typical mining-agricultural city
Scientists surveyed microplastic pollution across five types of land in a Chinese mining-agricultural city and found the highest levels in greenhouse farmland, with nearly 3,738 particles per kilogram of soil. Agricultural plastic waste, irrigation water, and fertilizers were identified as the main sources of contamination. The study shows that farming practices are major contributors to microplastic buildup in the soil that produces our food.
Spatial and temporal variance of microplastics in agricultural soils
This study reviewed how microplastic concentrations in agricultural soils vary by location and over time across multiple European field sites. The findings highlight that farming practices are direct sources of soil plastic contamination, and that long-term monitoring is needed to understand accumulation trends and their effects on soil health.
Existence and fate of microplastics in terrestrial environment: A global fretfulness and abatement strategies
This review covers the global spread of microplastics in soils, farmland, and other land environments, finding contamination from sources like sewage sludge, plastic mulch, and irrigation water. The study highlights that terrestrial microplastic pollution may actually be greater than marine pollution and poses risks to soil organisms, crop growth, and human health through the food chain.
Microplastics abundance associated with farmland use types and the impact on soil microbial communities: A case study in Southern China
Researchers surveyed microplastic contamination across orchard, paddy field, and vegetable field soils in Southern China and analyzed how it affected soil microbial communities. They found microplastic levels ranging widely across sites, with very small particles under 30 micrometers being most common, and identified 32 different polymer types. The study shows that farmland use type and agricultural practices like plastic mulching significantly influence both the amount and type of microplastic contamination in soils.
A global review on the abundance and threats of microplastics in soils to terrestrial ecosystem and human health
This review examines microplastic pollution levels across agricultural, roadside, urban, and landfill soils worldwide, finding wide variation but consistent contamination. Microplastics alter soil pH, density, and water movement, disrupt microbial communities, inhibit plant growth, and affect soil animals. For humans, the concern is that microplastics in soil can enter the food chain through crops and contaminated water.
Abundance, spatial distribution, and characteristics of microplastics in agricultural soils and their relationship with contributing factors
Researchers found microplastic concentrations of 2,800 to 82,500 particles per kilogram in agricultural soils of Hainan Island, China, with plastic mulching, farming practices, and environmental factors all contributing to spatial variation in contamination levels.
Microplastics occurrence and frequency in soils under different land uses on a regional scale
A regional-scale survey measured microplastic occurrence in soils under different land uses (agricultural, urban, natural), finding that concentrations varied by land use type and that real-world field concentrations were often lower than those used in laboratory ecotoxicology studies.
Continents of plastics: An estimate of the stock of microplastics in agricultural soils
Researchers estimated for the first time the total amount of microplastics in the world's agricultural soils, finding between 1.5 and 6.6 million tonnes globally. This is one to two orders of magnitude higher than the estimated amount floating on the ocean surface. The study highlights that farmland, especially in regions using plastic mulch and sewage sludge as fertilizer, may be a larger reservoir of microplastic pollution than the oceans.
Influences of land use and depth profile on the characteristics of microplastics in agricultural soils
Researchers examined how land use and soil depth profile influence microplastic characteristics in agricultural soils, finding that wastewater and sludge application, plastic mulching, and atmospheric deposition are key sources, and that MP type and abundance vary with soil management practice and depth, highlighting the importance of vertical distribution in soil MP studies.
Soil contamination by microplastics in a small French agricultural watershed
Researchers characterized microplastic contamination in agricultural soils across a small French watershed, examining how various farming practices influence microplastic sources, distribution, and fate in soil environments outside of previously studied regions like China.
The extent and impacts of soil pollution by microplastics
This study examines the extent and impacts of soil pollution by microplastics, reviewing evidence of how microplastic particles accumulate in terrestrial environments and affect soil ecosystems, organisms, and agricultural systems.
The distribution of microplastics in soil aggregate fractions in southwestern China
Researchers investigated microplastic distribution across different soil types in agricultural and forested areas near a lake in southwestern China and found plastic particles in every sample, with concentrations as high as 42,960 particles per kilogram. Approximately 95% of the particles fell within the microplastic size range, and fibers were the dominant form, likely originating from textiles and agricultural materials. The study demonstrates that microplastic contamination in soils is extensive and varies with land use practices.
The characteristics and influencing factors of farmland soil microplastic in Hetao Irrigation District, China
Researchers surveyed microplastic contamination in farmland soil across a major grain-producing region in China, finding concentrations ranging from about 1,800 to over 86,000 particles per kilogram. Polyethylene film fragments from agricultural plastic mulch were the dominant type, and 90% of the particles were smaller than 180 micrometers. The study shows that farming practices are introducing large amounts of microplastics into the soil where food crops are grown, raising questions about potential transfer into the food supply.
Sources, environmental fate, and impacts of microplastic contamination in agricultural soils: A comprehensive review
This review examines how microplastics from fertilizers, irrigation, and atmospheric fallout are contaminating agricultural soils worldwide. Once in the soil, microplastics interact with soil organisms, disrupt plant growth, and can carry other harmful chemicals deeper into the environment. Because these tiny plastics can move up the food chain, they represent a growing threat to both food safety and human health.
Spatial Distributions, Compositional Profiles, Potential Sources, and Intfluencing Factors of Microplastics in Soils from Different Agricultural Farmlands in China: A National Perspective
Researchers conducted a nationwide survey of microplastics in Chinese agricultural soils, collecting 477 samples from 109 cities across 31 regions, and identified spatial distribution patterns and key factors influencing farmland microplastic contamination.
Macro and microplastics in the soil: abundance, characterization, identification, and interactions under different land uses in an agricultural sub-basin
Researchers examined the abundance, characterization, identification, and interactions of macro- and microplastics in soils under different land uses within an agricultural sub-basin, assessing how land-use patterns influence plastic pollution distribution and potential interactions with the soil environment.
Quantification and analysis of surface macroplastic contamination on arable areas
Researchers quantified macroplastic contamination on German farmland, finding that fields fertilized with compost had 42 times more plastic particles per hectare than unfertilized fields, indicating that compost application and roadside littering are major pathways for plastic entering agricultural soils.
Microplastics in soils: A review of methods, occurrence, fate, transport, ecological and environmental risks
This review examines the sources, detection methods, and environmental behavior of microplastics in soils, an area that has received far less attention than marine microplastic pollution. Researchers found that microplastics interact with soil properties and organisms in complex ways, potentially entering the human food chain. The study calls for standardized methods and more research into how these tiny plastic particles move through and affect terrestrial ecosystems.
Spatial analysis of riverine microplastic in a Rhine floodplain soil in Germany
Researchers mapped microplastic distribution in floodplain soils along Germany's Rhine River, finding that flood events spread microplastics far from the riverbank into surrounding land. This shows flooding can contaminate agricultural soils with microplastics, potentially entering food crops.