Bacterial Diversity of Discarded Face Masks from Landfills, Mangroves, and Beaches, in Java, Indonesia

Anna Rakhmawati; Bernadetta Octavia; Siti Marwati; S Abuzahrah; M Baeshen; A Alkaladi; N Bataweel; A Alhejen; H Abdelkader; O Adamovsky; Bisesi Jr; J Martyniuk; C; Al Farraj; D Alkufeidy; R Alkubaisi; N Alshammari; M; B Ali; W Sajjad; P Ghimire; S Khan; G Din; S Kang; H Alzubaidy; M Essack; T Malas; A Bokhari; O Motwalli; F Kamanu; S Jamhor; N Mokhtar; A Antunes; M Simes; I Alam; S Bougouffa; F Lafi; V Bajic; Jac Archer; T Aragaw; V Babaahmadi; H Amid; M Naeimirad; S Ramakrishna; V Balasubramanian; Mij Maran; D Ramteke; D Vijaykumar; A Rajendran; P Ramachandran; R Ramachandran; L Benidire; El Khalloufi; F Oufdou; K Barakat; M Tulumelloj; P Ortet; T Heulin; W Achouak; S Bhandari; D Poudel; R Marahatha; S Dawadi; K Khadayat; S Phuyal; S Shrestha; S Gaire; K Basnet; U Khadka; N Parajuli; G Bhattacharjee; N Gohil; S Vaidh; K Joshi; G Vishwakarma; V Singh; N Bokulich; S Subramanian; J Faith; D Gevers; J Gordon; R Knight; D Mills; J Caporaso; L Cabral; Stp De Sousaa; Lacerda Jniora; G Hawley; E Andreo; F Hess; M De Oliveira; V; D Ceccon; H Faoro; P Lana; Maltempi De Souza; E Pedrosa; F; J Chakraborty; V Rajput

doi:10.54319/jjbs/170117

0

Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Environmental Sources Marine & Wildlife Sign in to save

Bacterial Diversity of Discarded Face Masks from Landfills, Mangroves, and Beaches, in Java, Indonesia

Jordan Journal of Biological Sciences 2024 1 citation ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 35 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Anna Rakhmawati, Bernadetta Octavia, Siti Marwati, S Abuzahrah, M Baeshen, A Alkaladi, N Bataweel, A Alhejen, H Abdelkader, O Adamovsky, Bisesi Jr, J Martyniuk, C, Al Farraj, D Alkufeidy, R Alkubaisi, N Alshammari, M, B Ali, W Sajjad, P Ghimire, S Khan, G Din, S Kang, H Alzubaidy, M Essack, T Malas, A Bokhari, O Motwalli, F Kamanu, S Jamhor, N Mokhtar, A Antunes, M Simes, I Alam, S Bougouffa, F Lafi, V Bajic, Jac Archer, T Aragaw, V Babaahmadi, H Amid, M Naeimirad, S Ramakrishna, V Balasubramanian, Mij Maran, D Ramteke, D Vijaykumar, A Rajendran, P Ramachandran, R Ramachandran, L Benidire, El Khalloufi, F Oufdou, K Barakat, M Tulumelloj, P Ortet, T Heulin, W Achouak, S Bhandari, D Poudel, R Marahatha, S Dawadi, K Khadayat, S Phuyal, S Shrestha, S Gaire, K Basnet, U Khadka, N Parajuli, G Bhattacharjee, N Gohil, S Vaidh, K Joshi, G Vishwakarma, V Singh, N Bokulich, S Subramanian, J Faith, D Gevers, J Gordon, R Knight, D Mills, J Caporaso, L Cabral, Stp De Sousaa, Lacerda Jniora, G Hawley, E Andreo, F Hess, M De Oliveira, V, D Ceccon, H Faoro, P Lana, Maltempi De Souza, E Pedrosa, F, J Chakraborty, V Rajput

Summary

Researchers analyzed the bacterial community composition of discarded face masks collected from landfills, mangrove ecosystems, and beaches across Java, Indonesia using 16S rRNA sequencing. They found that Proteobacteria dominated across all environments, with Bacillus predominant in landfill masks and Vibrio most prevalent in masks from mangrove and beach sites, revealing distinct microbial gradients across disposal environments.

As the number of Covid-19 cases has increased, the production and use of face masks have also increased accordingly. This widespread use of face masks generates millions of tons of mask waste. This study analyzed the bacterial community composition of discarded masks from landfills (Piyungan, Jatibarang, Burangkeng); mangroves (Wanatirta, Tirang, Teluk Naga); and beaches (Parangtritis, Marina, Tanjung Pasir) in Yogyakarta, Semarang, Bekasi, and Tangerang, Java, Indonesia using 16S rRNA sequencing. Analyzing all samples from landfills, mangroves, and beaches revealed that the Proteobacteria phylum is the predominant. In addition, Firmicutes was the second-highest phylum in the samples from landfills and mangroves. In the meantime, Actinobacteria and Cyanobacteria dominated the phyla found in samples from beaches. Analyses at the genus level revealed that Bacillus members predominated in samples of discarded face masks from landfills. In addition, the most prevalent genus found in samples from mangroves and beaches was Vibrio. According to the findings, the distribution of bacterial communities differed among the various regions. Dissimilar bacterial communities and gradient distributions were found among discarded face masks in landfills, mangroves, and beaches. It was the first examination of bacterial distribution in discarded disposable face masks from various locations.

Read via DOI Download PDF

Sign in to start a discussion.

More Papers Like This

Article Tier 2

Bacterial pathogens associated with the plastisphere of surgical face masks and their dispersion potential in the coastal marine environment

Researchers deployed face masks in coastal seawater for two months and used advanced DNA sequencing to identify bacterial pathogens colonizing the plastic surfaces. The study found that face masks selectively enriched certain putative pathogens rarely found in surrounding seawater and released considerable microfibers during degradation, suggesting that pandemic-related mask waste in oceans may serve as vectors for transporting harmful bacteria across marine environments.

Article Tier 2

Potency of Face Mask-Degrading Bacteria Isolated from Parangtritis Beach, Yogyakarta, Indonesia

Researchers isolated and characterised face mask-degrading bacteria from discarded masks at Parangtritis Beach in Yogyakarta, Indonesia, using Mineral Salt Media containing black duckbill, blue surgical, and white KF94 mask materials as selective substrates. The study aimed to identify microbial agents capable of degrading COVID-19 pandemic-related mask waste that had become a significant environmental contaminant at coastal sites.

Article Tier 2

Comparison between discarded facemask and common plastic waste on microbial colonization and physiochemical properties during aging in seawater

Researchers found that discarded surgical facemasks in seawater hosted more diverse microbial communities than conventional plastic waste, with higher degradation-related enzyme activity and more pronounced physicochemical changes during aging, raising concerns about their environmental impact.

Article Tier 2

Identifikasi Bakteri Pendegradasi Polipropilen Pada Limbah Masker Dari Tpa Piyungan

This Indonesian study identified bacteria capable of degrading polypropylene in disposable face mask waste collected from a landfill. Bacteria that can break down synthetic polymers offer a potential biological tool for reducing microplastic formation from the large volumes of mask waste generated during the COVID-19 pandemic.

Article Tier 2

[Microbial Ecology in the Mask-derived Plastisphere in a Water Environment].

Researchers studied the microbial ecology of plastisphere communities forming on different layers of discarded face masks in aquatic environments over time. Each mask layer harbored a unique microbial community with increasing richness over time; functional analysis revealed pathogenic, phototrophic, and compound-degrading capabilities, as well as roles in carbon and nitrogen cycling, indicating ecological significance of mask-derived plastisphere.

View more similar papers →

Share this paper

Post Share Share Pin Email