JUNE 28, 2024
Drowning in waste: Pollution hotspots in aquatic environments
An IIASA study explores waste management systems and reveals that achieving zero waste leakage by 2030 is unlikely, potentially jeopardizing related Sustainable Development Goals. The authors emphasize the need for global cooperation, particularly across four regions, to responsibly manage waste disposal. The work is published in the journal Nature Communications.
Waste leakage to aquatic ecosystems is a major concern threatening biodiversity as well as human health. Inadequate disposal of waste, particularly plastic waste, has been documented in all the major ocean basins, beaches, rivers, lakes, and even in remote environments such as the Arctic and Antarctic.Previous studies have focused on estimating specifically plastic emissions into the oceans. However, no study has comprehensively assessed waste leakage into aquatic environments from a waste management perspective.
IIASA researchers adopted a waste systems perspective to identify hotspots of land-waste leakage, and determined which rivers, lakes, and coastal areas are particularly at risk.
"Our study shows that the majority of leakage of municipal solid waste—everyday items that are discarded by people—into aquatic environments occur in Africa, China, India, and South Asia. It's necessary to start focusing on improving waste management systems in these affected areas," explains study lead author Adriana Gomez Sanabria, a researcher in the Pollution Management Research Group of the IIASA Energy, Climate, and Environment Program.
- For example, as single-use plastic cups are replaced with paper cups, the amount of paper waste has increased.
- Therefore, it is crucial to set targets that address multiple waste streams simultaneously. Additionally, the study emphasizes the importance of universal waste collection as the primary strategy to prevent waste leakage into terrestrial and aquatic environments, even in a scenario where overall waste generation is reduced.
The research team notes that their study addresses a crucial gap in our understanding of how waste management systems play an important role in addressing various environmental impacts.
By examining the interaction between waste management and waste leakage, effective strategies can be identified to reduce pollution in aquatic environments and preserve ecosystems. This knowledge is vital for shaping policies and promoting sustainable development practices that minimize the environmental footprint of our consumption habits.
"We need to understand that the primary function of waste management systems is to protect human health and the environment.
More information: Adriana Gómez-Sanabria et al, The crucial role of circular waste management systems in cutting waste leakage into aquatic environments, Nature Communications (2024). DOI: 10.1038/s41467-024-49555-9
Journal information: Nature Communications
No comments:
Post a Comment