We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
An Economic Fluorescent Method for Microplastics Detection in Soil Samples
Summary
Researchers developed a simplified, low-cost Nile red fluorescent dye method for detecting microplastics in soil samples, validating it on sand spiked with microplastics (1-5 mm) and achieving detection rates close to 100% using blue light illumination and orange filter glasses. Testing on urban lake sediment, agricultural soil, garden soil, and state park soil showed urban lake and garden samples had the highest microplastic densities, with the method suitable for educational outreach.
Microplastics from urban and industrial waste are threatening ecosystems worldwide. Quantification methods for soil samples have been proposed but typically require complex and expensive laboratory procedures, which are not accessible to the public. Therefore, we developed a simplified Nile red fluorescent dye method with low-budget materials that can be readily used as lone-standing demonstrations or implemented in environmental education modules. The method was validated on commercial coarse-grain sand spiked with microplastics (1-5 mm). Following incubation with Nile red dye, the analytes were visually inspected using blue light and orange filter glasses and counted by two independent masked assessors. Detection of particles was close to 100 percent. Four different types of environmental analytes were subsequently tested with this method: urban lake shore sediment, agricultural soil, gardening soil, and soil from a state park. Urban lake shore and garden soil samples showed the highest density of microplastic particles. Large numbers of smaller particles (<1 mm) were also identified and counted in these analytes, with very good reproducibility by the same assessor and replication of the rank order of analytes between two assessors. Visualizing microplastic pollution with this low-cost, scalable method can reach broad sections of educational settings and the broader public and thus raise awareness of the problem of microplastic pollution.
Sign in to start a discussion.
More Papers Like This
An economical fluorescent method for microplastic detection in soil samples
A simplified low-cost Nile Red fluorescent staining method was developed for detecting microplastics in soil, validated on sand spiked with 1–5 mm microplastics, and designed for accessibility in educational settings and community monitoring programs without requiring expensive laboratory equipment.
An Economic Fluorescent Method for Microplastics Detection in Soil Samples
Researchers developed a low-cost fluorescent dye (Nile red) protocol for detecting microplastics in soil that uses inexpensive equipment and requires minimal technical expertise, achieving close to 100% detection accuracy when tested on spiked sand samples. Making microplastic detection accessible and affordable is key to broadening monitoring efforts, especially in schools and community settings that cannot access laboratory-grade instruments.
Towards quality-assured measurements of microplastics in soils using fluorescence microscopy
Researchers applied fluorescence microscopy with Nile Red staining to detect and measure microplastic particles in soil samples and validated the method across eight plastic types and a range of soil types. The method performed well when adapted to account for soil matrix effects. Validated fluorescence microscopy protocols make microplastic analysis in agricultural and environmental soils more accessible and standardized.
Towards quality-assured measurements of microplastics in soil using fluorescence microscopy
Researchers tested a fluorescence microscopy method with Nile Red staining for detecting microplastics in different soil types, achieving 80-90% recovery rates for particles larger than 500 micrometers. However, recovery dropped significantly for smaller particles and biodegradable plastics, particularly in clayey soils. The study developed a semi-automated image analysis pipeline and provides quality assurance guidelines for using fluorescence microscopy as a high-throughput microplastic detection method in soil research.
Lighting Up for Learning─Fluorescence Analysis of Microplastic Particles by Secondary School Students Using Nile Red
This paper presents a practical method for secondary school students to detect microplastic particles in sediment samples using the fluorescence marker Nile Red and a low-cost DIY fluorescence photobox. The approach adapts techniques from current research into an accessible classroom activity. The study suggests this educational tool could help raise awareness about microplastic pollution among younger generations.