Show simple item record

AuthorS., Veerasingam
AuthorChatting, Mark
AuthorAsim, Fahad Syed
AuthorAl-Khayat, Jassim
AuthorVethamony, P.
Available date2022-08-25T05:19:36Z
Publication Date2022-09-10
Publication NameScience of The Total Environment
Identifierhttp://dx.doi.org/10.1016/j.scitotenv.2022.156064
CitationVeerasingam, S., Chatting, M., Asim, F. S., Al-Khayat, J., & Vethamony, P. (2022). Detection and assessment of marine litter in an uninhabited island, Arabian Gulf: A case study with conventional and machine learning approaches. Science of The Total Environment, 838, 156064.
ISSN00489697
URIhttps://www.sciencedirect.com/science/article/pii/S0048969722031618
URIhttp://hdl.handle.net/10576/33424
AbstractIn 2018, the Ministry of Municipality and Environment, Qatar removed 90 t of marine litter (ML) from the Ras Rakan Island (RRI), a remote uninhabited island in the Arabian Gulf (hereinafter referred to as Gulf). To identify the sources of ML and understand the post-cleaning ML accumulation rate, a ML survey was conducted around RRI in 2019. A total of 1341 ML items were found around RRI with an average abundance of 3.4 items/m2. In addition, a machine learning approach was applied to extract the quantity and types of ML from 10,400 images from the sampling sites (beaches) to make the ML clean-up process and monitoring effort more efficient. The image coordinates of ML objects were used to train an object detection algorithm ‘You Only Look Once (YOLO-v5)’ to automatically detect ML from video data. An image enhancement technique was performed to improve the quality of unclear images. The best performing YOLO-v5 model had 90% of mean Average Precision (mAP) while maintaining near real-time processing speeds at 2 ms/image. The abundance of ML around RRI was higher than that found on the coast of mainland Qatar. 61.5% of the sampling locations are considered as ‘extremely dirty’ based on Clean Coast Index. Windward beaches had higher ML concentrations (derived from neighbouring countries) than the leeward beaches. Like RRI, most of the uninhabited islands in the Arabian Gulf are home to many seabirds and sea turtles, and could act as major sinks for ML deposition. Therefore, implementation of this machine learning technique to all islands allows estimating and mitigating the load of ML for achieving a sustaining and a cleaner ocean.
SponsorWe thank Prof. Hamad Al-Saad Al-Kuwari, Director, Environmental Science Center, Qatar University (QU) for his constant encouragement and support. We acknowledge ORS, QU for awarding the Project (QUEX-ESC-QP-TM-18/19) funded by the Qatar Energy. This work forms part of the award ‘UNESCO Chair in Marine Sciences’ related to the theme ‘Marine pollution and Management'.
Languageen
PublisherElsevier
SubjectMarine litter
Plastics
Machine learning
YOLO-v5
Ras Rakan Island of Qatar
TitleDetection and assessment of marine litter in an uninhabited island, Arabian Gulf: A case study with conventional and machine learning approaches
TypeArticle
Volume Number838
ESSN1879-1026
dc.accessType Open Access


Files in this item

Thumbnail

This item appears in the following Collection(s)

Show simple item record