Abundance and characterization of microplastic pollution in the wildlife reserve, Ramsar site, recreational areas, and national park in northern Jakarta and Kepulauan Seribu, Indonesia

Muhammad Reza Cordova; Yaya Ihya Ulumuddin; Triyoni Purbonegoro; Rachma Puspitasari; Ricky Rositasari; Deny Yogaswara; Muhammad Taufik Kaisupy; Singgih Prasetyo Adi Wibowo; Riyana Subandi; Sofia Yuniar Sani; S. Sulistiowati; Intan Kusumastuti Nugraheni; Lucky Rahman; Rahmawati; Safitri Al Rahmadhani; Tyara Aprilani Khoirunnisa; Nurhasanah; Nurhasanah; ‪Ahmad Muhtadi; Swietenia Puspa Lestari; Simon M. Cragg

doi:10.1016/j.chemosphere.2023.140761

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Abundance and characterization of microplastic pollution in the wildlife reserve, Ramsar site, recreational areas, and national park in northern Jakarta and Kepulauan Seribu, Indonesia

Chemosphere 2023 15 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.

Muhammad Reza Cordova, Yaya Ihya Ulumuddin, Triyoni Purbonegoro, Rachma Puspitasari, Ricky Rositasari, Deny Yogaswara, Muhammad Taufik Kaisupy, Singgih Prasetyo Adi Wibowo, Riyana Subandi, Sofia Yuniar Sani, S. Sulistiowati, Intan Kusumastuti Nugraheni, Lucky Rahman, Rahmawati, Safitri Al Rahmadhani, Tyara Aprilani Khoirunnisa, Nurhasanah, Nurhasanah, ‪Ahmad Muhtadi, Swietenia Puspa Lestari, Simon M. Cragg

Summary

This is the first study to measure microplastic pollution in sediments across protected areas near Jakarta, Indonesia, including a wildlife reserve, a Ramsar wetland site, and a marine national park. Microplastics were found at all locations, with higher concentrations closer to human activity and during the dry season. The results suggest that even designated conservation areas are not spared from microplastic contamination.

Polymers

PE PP PS PVC nylon

This is the first study to evaluate the presence and distribution of microplastics in sediments in the regions with a unique degree of complexity, such as wildlife reserve areas, a Ramsar site that connects directly to Greater Jakarta's mainland, recreational islands, and a marine national park. Microplastics of varying sizes and shapes are found in all places, with an increase trend in the abundance toward areas near to the epicenter of human activity. Comparatively to other marine protected areas, the amount of microplastics discovered is comparable; however, there is an upward trend. Season influences microplastic accumulation, with the dry season causing the greater accumulation. Small-sized microplastics and microplastics resulting from large plastic fragments were predominantly discovered. The properties of microplastics in the study region are dominated by polyethylene, polypropylene, polystyrene, polyvinyl chloride, and nylon. Additional in-depth research and waste reduction from all sources that involve all stakeholders are required to reduce the amount of contaminants entering the protected area.

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