MICROPLASTICS POLLUTION IN THE GROUNDWATER OF THREE LAND USE TYPES, SOUTHEASTERN HUNGARY
DOI:
https://doi.org/10.65760/sjgs.v3.i1.21Keywords:
Groundwater,, Land Use,, Microplastics,, Landfill,, Greenhouse,, Grassland,, Hungary.Abstract
Groundwater is one of the sources of freshwater for drinking and agricultural activities, yet it is
continuously threatened by emerging contaminants and pollutants such as microplastics (MiP). Contrary
to the surface water bodies, there is a paucity of knowledge about the rate and distribution of the
horizontal movement of microplastics in the groundwater of different land use areas. This study examined
18 groundwater samples collected from three land use types greenhouse, grassland, and landfill across
four locations in southeastern Hungary (Szeged, Szarvas, Szentes, and Hódmezővásárhely). The research
aimed to quantify microplastic contamination levels, analyze their morphological characteristics, and
compare pollution levels among the land uses. After filtering 1 litre and digesting organic matter with
hydrogen peroxide, microplastics were identified and counted under a microscope. The mean microplastic
concentration across all samples was 7.6 ± 3.4 pieces/L, with the landfill area recording the highest level
(27.50 ± 11.29 pieces/L), followed by the greenhouse (2.88 ± 0.65 pieces/L) and grassland (0.20 ± 0.20
pieces/L) areas. Statistical analysis revealed a significant difference in microplastic abundance among the
three land use types, indicating that landfill areas are the primary contributors to groundwater
contamination. The dominant microplastic forms were green and red fibers and fragments measuring
between 1.0 and 2.1 mm. No evidence of horizontal movement of microplastics between the areas was
found. The study concludes that groundwater from all land use types contains microplastics,
recommending treatment before consumption or irrigation and emphasizing the need for proper plastic
waste management and further research on groundwater contamination dynamics.