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Papers
61,005 resultsShowing papers similar to Characterization of Phosphorus Recovered from Sewage Sludge Ash: A Brazil Case Study
ClearBiochar-Based Phosphorus Recovery from Different Waste Streams: Sources, Mechanisms, and Performance
This paper is not relevant to microplastics research — it reviews biochar-based methods for recovering phosphorus from wastewater and waste streams, focusing on nutrient cycling and eutrophication prevention rather than microplastic contamination.
Sewage Sludge Valorization via Hydrothermal Carbonization: Optimizing Dewaterability and Phosphorus Release
This study optimized conditions for hydrothermal carbonization of sewage sludge, finding that the process improves sludge dewaterability and can release phosphorus for potential nutrient recovery. While not directly about microplastics, sewage sludge is a major reservoir of microplastics that accumulates during wastewater treatment, and managing sludge safely is important for preventing plastic particles from reaching agricultural soils.
P-recovery versus current sewage sludge treatment policy in the Czech Republic and Japan
This paper is not about microplastics; it compares phosphorus-recovery policies from sewage sludge in the Czech Republic and Japan, finding both countries lose significant recoverable phosphorus through current treatment and disposal practices.
Stabilized Sewage Sludge as Fertilizer: Risks Related to the Presence of Microplastics
Researchers analyzed microplastic content in sewage sludge-derived fertilizer collected in June and July, finding an average of ~460 mg of microplastics per 100 g of fertilizer with fragments and fibers predominating — raising concerns about agricultural land contamination from sewage sludge application.
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.
Microplastics 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.
Organomineral fertilizer from sewage sludge: nutrient recycling and environmental safety for tropical agriculture
Not relevant to microplastics — this study evaluates an organomineral fertiliser derived from sewage sludge for tropical agriculture, focusing on nutrient recycling and heavy metal safety.
Microplastics removal from a primary settler tank in a wastewater treatment plant and estimations of contamination onto European agricultural land via sewage sludge recycling
Researchers found that primary settling in wastewater treatment removes significant microplastics from sewage, but these particles concentrate in sludge that is often recycled onto agricultural land, creating a pathway back into the environment.
Biosolids-derived fertilisers: A review of challenges and opportunities
This review examines the use of treated sewage sludge (biosolids) as farm fertilizer and the concern that it introduces microplastics and persistent organic contaminants into agricultural soil. While biosolids provide valuable nutrients for crops, the microplastics they contain can accumulate in soil over time and potentially enter the food chain. The authors discuss thermal processing and nutrient recovery technologies that could help remove contaminants while preserving the fertilizer value of biosolids.
Risk of re-release of microplastics from sewage fertilisers into the environment
This paper reviews the risk that microplastics in sewage sludge (biosolids used as agricultural fertilizer) will be re-released into soils and water when the sludge is land-applied. Microplastics from cosmetics and clothing fibers concentrate in sludge during wastewater treatment and persist because they resist biodegradation. Applying microplastic-contaminated biosolids to farmland is one of the major pathways through which microplastics enter agricultural soils.
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.
Fate of microplastics in a centralized biogas plant treating mainly sewage sludge
Researchers tracked the fate of microplastics through a centralized biogas plant treating sewage sludge, examining how anaerobic digestion and subsequent dewatering partition microplastics between solid and liquid digestate fractions. The study informs efforts to develop safer digestate-based recycled fertilizers that minimize microplastic introduction to agricultural soils, where 20-55% of microplastics entering wastewater treatment plants are estimated to end up in sludge.
Microplastics in Sewage Sludge: A review
This review examines the presence and fate of microplastics in sewage sludge from municipal wastewater treatment plants, a topic that has received less attention than microplastics in the water treatment line. The study highlights that agricultural application of sewage sludge is a primary source of microplastic contamination in soils, and provides a comprehensive overview of detection methods, concentrations, and the environmental implications of sludge-borne microplastics.
Combined application of analytical techniques for microplastic determination to achieve comprehensive results for sewage sludge samples
Researchers combined multiple analytical techniques for comprehensive microplastic determination in sewage sludge samples, addressing the challenge that more than 90% of microplastics entering wastewater treatment plants are retained in sludge and require robust multi-method characterization.
A method for the characterisation of microplastics in sludge
Researchers developed a method for detecting and characterizing microplastics in sewage sludge, which concentrates the majority of microplastics removed during wastewater treatment. This method is important because sludge is widely spread on agricultural land, making it a key pathway for microplastics entering soils.
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.
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 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.
Variation in microplastic concentration, characteristics and distribution in sewage sludge & biosolids around the world
This review synthesizes global data on microplastic concentrations, characteristics, and distribution in sewage sludge and biosolids, drawing on studies showing wastewater treatment works remove 57-99% of incoming microplastics, concentrating them in sludge byproducts. The review highlights the significance of this concentration pathway and what happens to these microplastics when sludge is applied to land or otherwise managed.
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.
Assessing metal contamination and speciation in sewage sludge: implications for soil application and environmental risk
This systematic review estimated that global sewage sludge production could triple to 160 million tons if all wastewater were treated to EU standards, and found that metals in sludge applied to farmland are predominantly in less bioavailable forms. The research is relevant to microplastics because sewage sludge is a major pathway for microplastic contamination of agricultural soils, carrying both metal and plastic pollutants to farmland.
Effects of microplastics on the properties of different types of sewage sludge and strategies to overcome the inhibition: A review
This review examined how microplastics trapped in sewage sludge during wastewater treatment affect sludge properties, microbial communities, and treatment efficiency, while discussing strategies to overcome microplastic-induced inhibition of sludge processing.
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.
Standardization: A Necessary Support for the Utilization of Sludge/Biosolids in Agriculture
Not relevant to microplastics — this paper discusses standardization of characterization procedures for sewage sludge and biosolids used in agricultural applications, covering quality, safety, and European regulatory frameworks.