Assessing Plastic Waste Discharges into the Sea in Indonesia: An Integrated High-Resolution Modeling Approach That Accounts for Hydrology and Local Waste Handling Practices

Plastic litter is increasingly accumulating in the marine environment, with rivers considered key pathways for entry. Current estimations of plastic input into the sea from land-based sources are limited in accounting for the mobilization and transport of plastic generated in the whole catchment are...

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Bibliographic Details
Published inWater (Basel) Vol. 15; no. 6; p. 1143
Main Authors Veiga, Joana Mira, van Veen, Bastien, Buckman, Lora, van Gils, Jos, Wuriyandoko, Dhanang Tri, van der Sluys, Caroline, Philp, Kate, Acharya, Anjali
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.03.2023
Subjects
Analysis
Catchment areas
Catchments
Cities
Estimates
Handling
Households
Hydrology
Indonesia
Landfill
Local communities
Marine environment
marine litter
mismanaged plastic waste
modeling
Modelling
Normal distribution
Plastic debris
Plastic pollution
Population density
Rain and rainfall
Rainfall
Refuse and refuse disposal
riverine litter
Rivers
Rural areas
Towns
Waste load
Waste management
Indonesia
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Summary:Plastic litter is increasingly accumulating in the marine environment, with rivers considered key pathways for entry. Current estimations of plastic input into the sea from land-based sources are limited in accounting for the mobilization and transport of plastic generated in the whole catchment area or in considering local variations in waste handling practices. Here, we show that, with an integrated discharge modeling approach (based on actual rainfall and local estimates for exposed mismanaged plastic waste), more realistic temporal estimates of plastic discharges into the sea can be constructed. Applying this approach to Indonesia enabled us to estimate the total national inputs of plastic waste into the sea from rivers and coasts and how these vary with rainfall, while providing insight into those catchments, local communities, and waste handling practices that most contribute to plastic waste leakages. We found that the plastic fluxes vary significantly in both the short and long term and that the total amount of plastic waste discharged during wet years may be twice as much as during dry years. Furthermore, river size, catchment population density, local waste management, and proximity of point sources influence river plastic waste loads. Such an integrated assessment can be very effective in helping to prioritize where interventions are most needed and, in combination with frequent monitoring, can provide evidence of the impact that upstream measures have on preventing plastic inputs into the sea.
ISSN:2073-4441
2073-4441
DOI:10.3390/w15061143