Mapping the sources and strands of marine debris via particle modelling and In-situ sampling approaches in archipelagic countries

Mapping the sources and strands of marine debris via particle modelling and In-situ sampling approaches in archipelagic countries

Marine debris (MD) is a global issue that remains unresolved in Indonesia where the accumulation of this kind of pollution poses a significant threat to the marine ecosystem and health of the ocean. Understanding the sources and locations of stranded debris is crucial in identifying the required reg...

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Bibliographic Details
Published in:Scientific reports Vol. 14; no. 1; pp. 25804 - 14
Main Authors: Purba, Noir P., Faizal, Ibnu, Christie, David, Pratama, Munawir B., Valino, Darryl A., Martasuganda, Marine K., Herawati, Titin, Wulandari, Ajeng, Utami, Sanny T., Aryanto, Noor C.D., Ilmi, Muhammad H., Alfarez, Raffy R., Pasaribu, Buntora
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 28-10-2024
Nature Publishing Group
Nature Portfolio
Subjects:
704/106
704/158
704/172
704/829
Beach clean-up
Coastal ecosystems
Coastal zone
Ecosystem
Environmental Monitoring - methods
Floating debris
Humanities and Social Sciences
Humans
Indonesia
Makassar Strait
Marine debris
Marine ecosystems
Marine litter
Models, Theoretical
Monsoons
multidisciplinary
Ocean currents
Ocean health
Oceans and Seas
Rivers
Sampling
Sampling methods
Science
Science (multidisciplinary)
Seawater - analysis
Seawater - chemistry
Simulation
Stranding
Tourism
Waste Products - analysis
Water Pollutants - analysis
Indonesia
Beach clean-up
Makassar Strait
Marine litter
Ocean health
Ocean currents
Floating debris
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Summary:Marine debris (MD) is a global issue that remains unresolved in Indonesia where the accumulation of this kind of pollution poses a significant threat to the marine ecosystem and health of the ocean. Understanding the sources and locations of stranded debris is crucial in identifying the required regulations and mitigation strategies. This study used the hypothetical sources to identify the stranded debris along the coastline of Selayar Island and its surrounding seas. Using a combination of simulation and in-situ sampling methods, the simulation considered 13 hypothetical sources based on external factors such as river locations and surface ocean currents. This simulation result was then validated the simulation against beach litter observations and interview results with people. The results successfully mapped the sources and stranded MD in Selayar Island, indicating that the majority of MD originates from the island itself and the surrounding areas, influenced by oceanographic factors. The most frequently encountered locations of stranded MD are in the western coastal region including tourism areas and coastal ecosystem. Due to the oceanographic conditions, the stranded debris has varied quantities over the months, and higher in December represent the northwest monsoon (NWM) season, exceeding levels observed during the southeast monsoon (SEM). The study also identified that the main sources of debris are from Selayar Island and rivers from surrounding islands. This study also confirmed that oceanographic conditions such as surface ocean currents and wind pattern influenced the spreading of MD in Selayar Island. Due to the different ocean characteristics in different regions, a more detailed understanding and stranded of marine debris source which might provide more information for the explanation of the mechanism of marine debris pathways in Archipelagic Countries.
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ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-024-73373-0