Efficiency of Water Hyacinth (Eichhornia crassipes) in the Phytoremediation of Copper-Contaminated Waters of Lake Tempe, South Sulawesi Indonesia

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Muhammad Nur, Andi Badli Rompegading, Muhammad Nasir, Ahmad Yani, Rizal Irfandi, Hilmi Magfirah Bachtiar, Siti Fauziah, Nur Insani Amir, Ayu Safitri Agustina, Vivi Dia Afrianti Sangkota, Syamsu Rijal

2024 International Journal of Design and Nature and Ecodynamics Vol. 19 Issue 3 Article Cited by 3 Quartile

Abstract

Lake Tempe, situated in Wajo Regency, South Sulawesi, Indonesia, is currently experiencing increased levels of toxicity due to heavy metal contamination stemming from industrial operations and human activities in the area. The presence of copper (Cu), a heavy metal, in water has been reported to raise concerns regarding the potential negative effects on the local ecosystem. This indicates that there is a need to develop a phytoremediation technique to efficiently reduce the levels of contamination. Therefore, this study aimed to assess the effectiveness of water hyacinth phytoremediation in reducing Cu contamination. Metal-contaminated water medium from Lake Tempe was used to cultivate water hyacinth, and the 30-day trial was carried out in a natural setting. Control was carried out as a comparison by measuring the decrease in Cu levels in the water. Measurements of the physicochemical characteristics of water were carried out both before and after phytoremediation process. The results showed that the levels of pH, total suspended solid (TSS), dissolved oxygen (DO), and Cu decreased after the procedure. Furthermore, there was an increase in the values of BOD5, total dissolved solid (TDS), total nitrogen content, and total phosphate (P). Water hyacinth capacity to absorb metals was determined by measuring the bio-concentration factor (BCF). The results showed a decrease in Cu levels with a range of 7.1692 mg/kg to 14.0202 mg/kg for 30 days. The BCF value obtained was 94.2217, indicating that there is a relationship between the BCF value and the phytoremediation time. The higher the value obtained, the longer the phytoremediation. The infrared data indicated that Cu was attached to the test plant by engaging the C=S, C=N, and O-H functional groups. Based on the results, water hyacinth could be used as a phytoremediation agent to reduce the levels of Cu in water. Copyright: ©2024 The authors.

Affiliations

Department of Biology Education, Faculty of Science Education, Universitas Puangrimaggalatung, Sengkang, 90915, Indonesia; Department of Biology Education, Faculty of Teacher Training and Education, Universitas Terbuka, Jakarta Timur, 10320, Indonesia; Department of Chemistry, Faculty of Mathematics and Natural Science, Universitas Negeri Makassar, Makassar, 90244, Indonesia; Department of Renewable Energy Engineering Technology, Vocational, Universitas Negeri Gorontalo, Gorontalo, 96128, Indonesia; Department of Bioinformatics, Faculty of Health Technology, Megarezky University, Makassar, 90234, Indonesia; Department of Chemistry, Faculty of Science, Universitas Muhammadiyah Bulukumba, Bulukumba, 92513, Indonesia; Department of Chemistry, Faculty of Mathematics and Natural Science, Universitas Negeri Gorontalo, Gorontalo, 96128, Indonesia