Abstract
Due to the increasing demand for alternative and supposedly more sustainable single-use tableware compared to conventional fossil-based plastic items, there now exists a broad variety of innovative new bio-based and biodegradable items. The aim of this research is to conduct a monitoring of the biodegradability of selected tableware items: polylactic acid (PLA), crystallized polylactic acid (CPLA), wood, palm leaf, paper/cellulose and sugar cane bagasse, as well as a common fossil-based plastic polystyrene (PS) as a comparative material in a water column, to determine their possible use as a substitute for single-use plastic flatware. In situ experiments were performed over a one-year period to consider changes in water temperature, salinity gradients, pH values and dissolved oxygen (DO). The main findings show that tableware items composed of palm leaf, sugar cane bagasse and paper are less resistant to estuary conditions. However, wood, PLA, CPLA and PS items showed a certain resistance during the experimentation period. Furthermore, items placed in the upper incubators degraded relatively faster than those of the same material but placed in the lower incubators. The results indicate that temperature and exposure to natural light could be an important factor in terms of accelerating the degradation of the materials considered.
Highlights
Marine litter is recognized worldwide as a rising pollution problem affecting all the oceans and coastal areas of the world [1,2,3]
At S1, the results show that the degradation rate (DR) of sugar cane and palm leaf placed in the upper and lower incubators was high
Results at S2 showed that the DR of paper, palm leaf and sugar canes items of the upper incubators was high (100%) and were relatively important in most lower incubators
Summary
Marine litter is recognized worldwide as a rising pollution problem affecting all the oceans and coastal areas of the world [1,2,3]. Several studies have shown that marine litter exists in most oceans and seas, and their source and pathways have become an important focus of research [6]. This same work indicates that the identification of the origin of litter can help tackle the problem by implementing strategies to stop and avoid any pollutant reaching the water. According to the Helsinki Commission (HELCOM), marine litter is a clearly visible problem along the Baltic Sea coastline. A regional goal has been agreed within the area dealt by the Baltic Marine Environment Protection Commission on significantly reducing the amount of marine litter by 2025 and preventing harm from litter in the coastal and marine environment [12]
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