Recently, several bio-based and biodegradable polymers have been introduced on the market as potential substitutes for conventional plastics to decrease their environmental impacts. Several studies are reported to have observed incomplete biodegradation of these materials at lab-scale and in conventional treatment plants, and as such, the significant content of small inert particles, including microplastics, in the final products presents an obstacle to the agricultural use of these products. In this study, four different types of bio-based biodegradable plastics were characterised by chemical-physical analysis, and the main properties such as the content of volatile and non-volatile phases, crystallinity, main elemental composition, the content of different phases by spectroscopic investigation using Fourier Transform InfraRed spectra, and metals and metalloids of potential environmental concern were investigated. The results of the chemical-physical investigations indicated that pyrolysis is a technically viable process for the treatment of all of the bioplastic samples examined.
This paper characterizes the fungal and bacterial colonizers of 5 types of plastic films (High-Density Polyethylene, Low-Density Polyethylene, Polypropylene, Polystyrene, and Polyethylene Terephthalate) throughout a 242-day incubation in the south-eastern Mediterranean and relates them to the chemical changes observed on the surface of the samples via ATR-FTIR. Neither bacterial nor fungal community structures were related[…]
This paper provides insights into the sustainable alternatives that can replace conventional plastic mulches, such as biodegradable mulches made from natural fibers and biopolymers. The microscopic and FTIR analyses conducted during the study showed the degradation of the fibers from the mulches during the exposure time to a certain extent. The nonwoven mulches provide higher[…]
This paper investigates the degradation of biodegradable polybutylene adipate terephthalate/polylactic acid (PBAT/PLA) and traditional polyethylene (PE) plastic under two typical abiotic conditions: ultraviolet (UV) irradiation and mechanical abrasion (MA) for up to nine months. The quantitative analysis of the degradation products was carried out using membrane filtration and total organic carbon determination (MF-TOCD). The results[…]
This paper identifies technological innovation, policy formulation, advocacy and sensitization, and bioremediation as some of the approaches that are currently used for the mitigation of plastic pollution in Nigeria. This chapter also highlights the need to encourage, enhance, and disseminate scientific research on mitigating the harmful effects of plastic pollution in Nigeria. It concluded with[…]
This review provides insights into the sources of microplastics, the ecotoxicity of microplastics, and the impact microplastics have on aquatic and marine life, management, and bioremediation of microplastics. Policies and strategies adopted by the government to combat microplastic pollution are also discussed in this review. Microplastics tend to accumulate in many aquatic systems, contaminate them,[…]