The COVID-19 pandemic "anthropause" decreased plastic ingestion in neotropic cormorants Nannopterum brasilianus in Lima, Peru

The anthropause during the recent COVID-19 pandemic provided a unique opportunity to examine the impact of human activity on seabirds. Lockdowns in Peru prevented people from visiting coastal areas, thereby reducing garbage disposal on beaches and the movement of microplastics into the ocean. This c...

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Bibliographic Details
Published in:PeerJ (San Francisco, CA) CA), 2024-05, Vol.12, p.e17407-e17407, Article e17407
Main Authors: Porras-Parra, Laura Catalina, Zavalaga, Carlos B, Rios, Alvaro
Format: Article
Language:English
Subjects:
Analysis
Animal Behavior
Animals
Anthropause
Birds
Conservation Biology
Cormorants
COVID-19
COVID-19 - epidemiology
COVID-19 - prevention & control
COVID-19 - transmission
Eating
Environmental Impacts
Epidemics
Humans
Lockdowns
Microplastics
Pandemics
Peru - epidemiology
Plastic
Plastic scrap
Plastics
Refuse and refuse disposal
SARS-CoV-2
Seabirds
Zoology
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Summary:The anthropause during the recent COVID-19 pandemic provided a unique opportunity to examine the impact of human activity on seabirds. Lockdowns in Peru prevented people from visiting coastal areas, thereby reducing garbage disposal on beaches and the movement of microplastics into the ocean. This cessation of activities likely led to a temporary decrease in plastic pollution in coastal regions. We aimed to investigate this phenomenon in inshore-feeding neotropic cormorants ( ) along the Circuito de Playas Costa Verde (CPCV), situated on the coastal strip of Lima, Peru (∼ 11 million people). We collected and analyzed fresh pellets along the CPCV before (over 11 months) and during the pandemic lockdowns (over 8 months). Our findings revealed a significant reduction in the occurrence of plastic in pellets during the pandemic period (% Oc = 2.47,  = 647 pellets) compared to pre-pandemic conditions (% Oc = 7.13,  = 800 pellets). The most common plastic debris item found in the pellets was threadlike microplastic. Additionally, our study highlights the direct correlation between human presence on beaches and the quantity of microplastics (mainly threadlike) found in cormorant pellets. We suggest that the reintroduction of these materials into the sea, previously accumulated on the coast, is likely facilitated by the movement and activity of beachgoers toward the ocean.
ISSN:2167-8359
2167-8359
DOI:10.7717/peerj.17407