Title of article
Distribution, Abundance, and Composition of Microplastics In Sediments Along the Persian Gulf Coast In 2024: A Case Study of The Genaveh, Deylam, and Imam Hassan Ports
Author/Authors
Gharaei ، Ali Department of Environmental Engineering - Faculty of Natural Resources and Environment - University of Birjand , Sayadi ، Mohammad Hossein Faculty of Natural Resources and Environment - Shahid Bahonar University of Kerman , Banaee ، Mahdi Aquaculture Department - Faculty of Natural Resources and the Environment - Behbahan Khatam Alanbia University of Technology , Zeidi ، Amir Aquaculture Department - Faculty of Natural Resources and the Environment - Behbahan Khatam Alanbia University of Technology
From page
27
To page
36
Abstract
The increasing industrial activities have led to significant microplastic pollution, particularly in coastal regions, where human and industrial activities contribute to accumulating these pollutants. This study investigates the distribution and frequency of microplastics in beach sands along the Persian Gulf coastline in Bushehr, Iran, focusing on three key ports: Genaveh, Deylam, and Imam Hassan. Microplastics were extracted using density separation methods, and their types were identified via FTIR analysis. Results showed a higher concentration of microplastics in Genaveh and Deylam ports, with fibers being the most predominant microplastic type, likely due to textile production, fishing activities, and urban wastewater discharge. Polypropylene and polyethylene were the most common plastics found, highlighting the role of consumer products and industrial waste in pollution. The study emphasizes the impact of human activities on microplastic pollution and suggests that controlling plastic waste and improving waste management strategies are crucial for mitigating environmental and health risks. These findings contribute to global efforts to understand and manage microplastic contamination in marine ecosystems.
Keywords
Coastal pollution , Environmental impact , Microplastics , Persian Gulf
Journal title
Sustainable Earth Trends
Journal title
Sustainable Earth Trends
Record number
2772242
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