Identification Of The Microplastic Accumulation Potential in Lemna Minor Plant
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Lemna sp., Microplastics, Citarum River water, Absorption
Abstract
Microplastics are plastic particles smaller than 5 mm that pollute soil, water, and living organisms, and can carry toxic substances into environment. Therefore, efficient methods are needed to remove microplastics from the environment. Lemna minor is a small, fast-growing aquatic plant that is tolerant of pollution and is believed to be capable of absorbing microplastics from water bodies. This study aims to examine the potential of Lemna minor to absorb microplastics using water samples from the Citarum River, which contains microplastics with specific characteristics. The research focuses on analyzing microplastic accumulation, absorption efficiency, plant growth, characteristics of absorbed microplastics, and recommendations for ideal absorption conditions. The plants were incubated in the water samples for 14 days, with a 3-day acclimatization period to ensure optimal environmental adaptation. Observations were conducted periodically on days 1, 3, 5, 7, and 14 to measure microplastic accumulation and biomass changes. Results showed that the most effective absorption occurred between days 5 and 7, with a removal rate reaching 6% per gram of plant biomass (with 15 g biomass). Additionally, the plants exhibited rapid growth until day 7, with a growth rate of 25%. The most absorbed microplastics were fiber-shaped (87%), blue in color (54.5%), and sized 1001–3000 μm.
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References
Ceschin, S., Mariani, F., Di Lernia, D., Venditti, I., Pelella, E., & Iannelli, M. A. (2023). Effects of Microplastic Contamination on the Aquatic Plant Lemna minuta (Least Duckweed). Plants, 12(1), 207. https://doi.org/10.3390/plants12010207
Priya, A., Avishek, K., & Pathak, G. (2012). Assessing the potentials of Lemna minor in the treatment of domestic wastewater at pilot scale. Environmental Monitoring and Assessment, 184(7), 4301–4307. https://doi.org/10.1007/s10661-011-2265-6
Indonesian Ministry of Environment and Forestry (KLHK). (2024). Study of microplastic content in the Citarum River (water, sediment, and fish).
Tang, K. H. D. (2023). Phytoremediation of Microplastics: A Perspective on Its Practicality. Industrial and Domestic Waste Management, 3(2), 90–102. https://doi.org/10.53623/idwm.v3i2.291
Tanković, M. S., Perusco, V. S., Godrijan, J., Pfannkuchen, D. M., & Pfannkuchen, M. (2015). Marine plastic debris in the north-eastern Adriatic . In A. Kržan & P. Horvat (Eds.), Proceedings of the MICRO2015 Seminar on microplastics issues, Book of Abstracts (p. 26).
Yin, J., Zhu, T., Li, X., Wang, F., & Xu, G. (2025). Phytoremediation of microplastics by water hyacinth. Environmental Science and Ecotechnology, 24, 100540. https://doi.org/10.1016/j.ese.2025.100540
Ziegler, P., Adelmann, K., Zimmer, S., Schmidt, C., & Appenroth, K. ‐J. (2015). Relative in vitro growth rates of duckweeds (Lemnaceae) – the most rapidly growing higher plants. Plant Biology, 17(s1), 33–41. https://doi.org/10.1111/plb.12184
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