Currently, mussel farming uses of traditional plastic nets that accumulate on beaches and on the seabed in the event of breakage and accidental dispersion, contributing to the marine litter issue. An attempt is being made to replace the polypropylene nets with alternative materials to make the aquaculture full production cycle more sustainable. However, alternative materials need to be characterised both functionally and environmentally. This article describes a characterisation study in which plastic materials were exposed for approximately three years to the marine environment in a bay dedicated to mussel farming to provide data on the degradation behaviour of the selected polymers for eco-design purposes. Samples of the different materials, in the form of 3-mm thick dumbbells, were placed on the seabed at a depth of 12 m and in the water column at 2 m below the sea surface. At different time periods (after 6, 15, 24, 32 months), the samples were recovered, their mass and thickness were measured, and the mechanical properties were characterised. The results lead to the identification of some materials as sufficiently resistant to deterioration and therefore possible candidates for the application. Other materials generally used to make bags and films showed a very fast degradation and therefore do not seem to meet the performance requirements for mussel farming. The methodology used in this study seems suitable for conducting long-term exposure tests on locations of interest and collecting specific data for eco-design purposes before the application of the product on the markets.

Baini, M., Fossi, M.C., Innocenti, F.D., Chinaglia, S., Tosin, M., Pecchiari, M., et al. (2024). Degradation of plastic materials in the marine environment: A mussel farm as a case study for the development of alternative mussel nets. JOURNAL OF CLEANER PRODUCTION, 450 [10.1016/j.jclepro.2024.141825].

Degradation of plastic materials in the marine environment: A mussel farm as a case study for the development of alternative mussel nets

Baini M.;Fossi M. C.;Panti C.
2024-01-01

Abstract

Currently, mussel farming uses of traditional plastic nets that accumulate on beaches and on the seabed in the event of breakage and accidental dispersion, contributing to the marine litter issue. An attempt is being made to replace the polypropylene nets with alternative materials to make the aquaculture full production cycle more sustainable. However, alternative materials need to be characterised both functionally and environmentally. This article describes a characterisation study in which plastic materials were exposed for approximately three years to the marine environment in a bay dedicated to mussel farming to provide data on the degradation behaviour of the selected polymers for eco-design purposes. Samples of the different materials, in the form of 3-mm thick dumbbells, were placed on the seabed at a depth of 12 m and in the water column at 2 m below the sea surface. At different time periods (after 6, 15, 24, 32 months), the samples were recovered, their mass and thickness were measured, and the mechanical properties were characterised. The results lead to the identification of some materials as sufficiently resistant to deterioration and therefore possible candidates for the application. Other materials generally used to make bags and films showed a very fast degradation and therefore do not seem to meet the performance requirements for mussel farming. The methodology used in this study seems suitable for conducting long-term exposure tests on locations of interest and collecting specific data for eco-design purposes before the application of the product on the markets.
2024
Baini, M., Fossi, M.C., Innocenti, F.D., Chinaglia, S., Tosin, M., Pecchiari, M., et al. (2024). Degradation of plastic materials in the marine environment: A mussel farm as a case study for the development of alternative mussel nets. JOURNAL OF CLEANER PRODUCTION, 450 [10.1016/j.jclepro.2024.141825].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11365/1259576