A Field Guide for Monitoring Riverine Macroplastic Entrapment in Water Hyacinths
550
hydrology
01 natural sciences
Filter (signal processing)
Importance of Mangrove Ecosystems in Coastal Protection
Pathology
GE1-350
Business
Environmental resource management
Marketing
Ecology
Geography
[SDE.IE]Environmental Sciences/Environmental Engineering
600
macroplastics
Environmental monitoring
Hydrology (agriculture)
Geology
Road Ecology
Remote sensing
Sampling (signal processing)
16. Peace & justice
Microplastic Pollution in Marine and Terrestrial Environments
Pollution
6. Clean water
Vietnam
Physical Sciences
Medicine
[SDE.IE] Environmental Sciences/Environmental Engineering
floating vegetation
Vegetation (pathology)
Environmental engineering
Plastic
Environmental science
FOS: Economics and business
Meteorology
Field (mathematics)
FOS: Mathematics
14. Life underwater
0105 earth and related environmental sciences
FOS: Environmental engineering
Pure mathematics
Aquatic Ecology
riverine debris
SWOT analysis
FOS: Earth and related environmental sciences
15. Life on land
Computer science
Environmental sciences
Geotechnical engineering
13. Climate action
FOS: Biological sciences
Environmental Science
Ecological Effects of Roads on Wildlife and Habitat Connectivity
Computer vision
Debris
Mathematics
DOI:
10.3389/fenvs.2021.716516
Publication Date:
2021-07-19T08:51:21Z
AUTHORS (12)
ABSTRACT
River plastic pollution is an environmental challenge of growing concern. However, there are still many unknowns related to the principal drivers of river plastic transport. Floating aquatic vegetation, such as water hyacinths, have been found to aggregate and carry large amounts of plastic debris in tropical river systems. Monitoring the entrapment of plastics in hyacinths is therefore crucial to answer the relevant scientific and societal questions. Long-term monitoring efforts are yet to be designed and implemented at large scale and various field measuring techniques can be applied. Here, we present a field guide on available methods that can be upscaled in space and time, to characterize macroplastic entrapment within floating vegetation. Five measurement techniques commonly used in plastic and vegetation monitoring were applied to the Saigon river, Vietnam. These included physical sampling, Unmanned Aerial Vehicle imagery, bridge imagery, visual counting, and satellite imagery. We compare these techniques based on their suitability to derive metrics of interest, their relevancy at different spatiotemporal scales and their benefits and drawbacks. This field guide can be used by practitioners and researchers to design future monitoring campaigns and to assess the suitability of each method to investigate specific aspects of macroplastic and floating vegetation interactions.
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CITATIONS (19)
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