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 Microplastics in Sewage Sludge: A review
ClearMicroplastics in Sewage Sludge: A Known but Underrated Pathway in Wastewater Treatment Plants
This review finds that wastewater treatment plants effectively transfer microplastics from effluent into sewage sludge, creating a significant but underrated pathway for MP contamination when sludge is applied to agricultural soils.
Microplastics in sewage sludge: Distribution, toxicity, identification methods, and engineered technologies
This review examines how microplastics accumulate in sewage sludge from wastewater treatment plants, which then becomes a major pathway for spreading these particles into the environment. Researchers found that sludge can contain extremely high concentrations of microplastics, ranging from thousands to hundreds of thousands of particles per kilogram. The study evaluates current detection methods and emerging technologies for removing microplastics from sludge before it is applied to agricultural land or disposed of.
Microplastic contamination in sewage sludge: Abundance, characteristics, and impacts on the environment and human health
This review focuses on microplastics found in sewage sludge, which is often spread on agricultural land as fertilizer. The practice introduces microplastics directly into farm soil, where they can be taken up by crops or leach into groundwater. This creates a pathway for microplastics to reach human food and drinking water, raising concerns about the safety of using sewage sludge in agriculture.
Microplastics in Sludges and Soils: A Comprehensive Review on Distribution, Characteristics, and Effects
This review summarizes research on microplastics in sewage sludge and soil, noting that when contaminated sludge is used as fertilizer, it turns farmland into a major reservoir for microplastic pollution. The accumulated microplastics can alter soil properties, harm soil organisms, and potentially enter crops and groundwater, creating pathways for human exposure through food and drinking water.
Sampling, pre-treatment, and identification methods of microplastics in sewage sludge and their effects in agricultural soils: a review
This review examines methods for sampling, pre-treating, and identifying microplastics in sewage sludge, which accumulates microplastics removed during wastewater treatment. Researchers found that standardized protocols for sludge analysis are still lacking, making it difficult to compare results across studies. The study also highlights that when microplastic-laden sludge is applied to agricultural soils, it may introduce persistent plastic contamination into terrestrial ecosystems.
Sewage sludge as a source of microplastics in the environment: A review of occurrence and fate during sludge treatment
This review assessed how wastewater treatment plants concentrate microplastics from influent into sludge, estimating that sewage sludge applied to agricultural land represents a major secondary pathway for MPs entering terrestrial ecosystems, with estimated releases of millions to billions of particles per hectare.
Fate of microplastics in sewage sludge and in agricultural soils
Researchers reviewed how microplastics accumulate in sewage sludge at wastewater treatment plants and then spread into agricultural soils when that sludge is applied as fertilizer, finding that sludge treatment processes can alter microplastic size and shape but do not eliminate them. The review calls for standardized methods to study how different sludge treatments affect microplastic properties and their downstream risks to soil health.
Sewage Sludge-Mediated Microplastic Transfer to Agroecosystem: A Comprehensive Review on Detection, Fate and Ecological Impacts
This review study shows that tiny plastic particles called microplastics are getting into farm soil through sewage sludge that's used as fertilizer. When wastewater treatment plants process our sewage, they capture these plastic bits in the leftover sludge, which farmers then spread on their fields. This matters because these microplastics could potentially affect our food supply and soil health, but scientists still need more research to understand the full risks.
[Microplastics in wastewater treatment: current status and future trends].
This review summarizes current research on microplastic occurrence, removal, and fate in wastewater treatment plants, noting that while plants capture most microplastics in activated sludge, significant numbers still escape into effluent. The sludge itself then becomes a major pathway for microplastics to enter agricultural soils when applied as fertilizer. Future treatment improvements and sludge management policies are needed to reduce these release pathways.
Microplastics as pollutants in agricultural soils
This review examines how microplastics end up in agricultural soils through sewage sludge application, wastewater irrigation, plastic mulch films, and atmospheric deposition. Researchers found that microplastics interact with soil organisms and can alter soil structure and microbial communities, but standardized detection methods are still lacking. The study highlights the need for research on how microplastics move through soil, their effects on crop health, and global policies to address this growing agricultural concern.
Variation in microplastic concentration, characteristics and distribution in sewage sludge & biosolids around the world
Researchers systematically reviewed 65 studies on microplastics in sewage sludge and biosolids from wastewater treatment plants around the world. They found that while treatment processes remove 57% to 99% of microplastics from wastewater, the removed particles concentrate in sludge that is often applied to agricultural land. The review highlights that land application of biosolids may be a significant, underappreciated pathway for microplastic pollution in soils.
Removal of Microplastic Pollution through Waste Water Treatment: A Review
This review examines how wastewater treatment plants reduce microplastic contamination, comparing biological and advanced treatment methods and highlighting that residual microplastics in sewage sludge applied to agricultural land remain a significant pathway for environmental release.
Microplastics in Sewage Sludge: Effects of Treatment
This study examined the effects of various sewage sludge treatment processes on microplastic content, finding that treatment methods differ substantially in their ability to reduce microplastic concentrations before sludge is disposed of or land-applied.
Approaching the environmental problem of microplastics: Importance of WWTP treatments
This review examines the role of wastewater treatment plants as sources and sinks of microplastics, noting that while treatment removes significant quantities, remaining particles concentrate in sewage sludge which is then applied to agricultural land as fertilizer. The authors survey available technologies for improving microplastic removal and call for better policy to address this gap.
Microplastics in an agricultural soil following repeated application of three types of sewage sludge: A field study
Researchers investigated microplastics in agricultural soil after repeated sewage sludge application, finding that sludge-amended soils contained significantly more small microplastic particles than unamended soils, with particle accumulation varying by sludge type.
Seasonal Variation, Distribution and Characteristics of Microplastic in Sewage Sludge
Researchers investigated seasonal variation in microplastic concentration, distribution, and characteristics within sewage sludge at wastewater treatment plants, examining how precipitation patterns and sludge treatment processes influence microplastic retention and the pathways by which sludge-borne microplastics enter agricultural soils upon land application.
Application of Sewage Sludge as an Agricultural Soil Amendment
This review examines the use of sewage sludge as agricultural soil amendment, noting that while it provides valuable nutrients, it also introduces contaminants. Sewage sludge is one of the primary pathways for microplastics to enter agricultural soils, as sludge accumulates plastic particles from wastewater.
Source, occurrence, migration and potential environmental risk of microplastics in sewage sludge and during sludge amendment to soil
This review examines microplastics in sewage sludge and the risks of applying sludge as agricultural fertilizer, finding that sludge acts as both a sink for sewage microplastics and a source when spread on fields. Co-accumulated heavy metals, antibiotics, and antibiotic resistance genes on microplastics further complicate the environmental risks of sludge amendment to soils.
Extent and impact of microplastics on soil nutrients and biota: a trade-off assessment
This review examines the extent of microplastic inputs from sewage sludge applied to agricultural soils, synthesizing evidence on how sludge-derived microplastics affect soil nutrient availability, soil biota, plant performance, and crop productivity, concluding that the benefits of sludge as a soil amendment must be weighed against its role as a vector for microplastic contamination.
Wastewater treatment plant as microplastics release source – Quantification and identification techniques
This review examines wastewater treatment plants as sources of microplastic release into the environment, along with current methods for separating and identifying these particles. While conventional treatment plants remove over 90% of incoming microplastics, they remain major point sources due to the enormous volumes of effluent they discharge. The review also highlights that over 80% of microplastics entering treatment plants become trapped in sewage sludge, which when used as agricultural fertilizer represents a potential pathway for soil contamination.
Microplastics and Wastewater Treatment Plants—A Review
This review examines the role of wastewater treatment plants in retaining microplastics before they enter the environment. Studies show that no wastewater treatment method achieves complete microplastic removal, making treatment plants themselves point sources of microplastic discharge into aquatic environments. The review also discusses concerns about microplastic-laden sewage sludge being applied to agricultural land.
Review on the occurrence and fate of microplastics in Sewage Treatment Plants
This review compiled occurrence and fate data for microplastics across influent, effluent, and sludge from sewage treatment plants, finding that concentrations range up to 3,160 particles/L in raw wastewater and that treatment achieves up to 98% removal, with the retained microplastics concentrated in sludge. The authors highlight that while WWTPs protect receiving waters, sludge disposal transfers the plastic burden to soils.
Microplastics in sewage sludge: Captured but released?
This book chapter reviews how wastewater treatment plants capture microplastics from sewage but then release them back into the environment through the application of sewage sludge to agricultural land. Treating sewage sludge as a microplastic disposal route transfers the pollution problem from water to soil.
The overlooked pathway: A systematic review on sewage sludge treatment as a critical secondary source of terrestrial micro(nano)plastics
This systematic review examines sewage sludge as an overlooked pathway for microplastics to contaminate land, with concentrations reaching over 1,300 particles per kilogram. When this sludge is applied to farmland as fertilizer, aged and chemically modified microplastics enter agricultural soil, where they may be more toxic than fresh particles and can potentially be taken up by crops.