The work planned for PLANET project aimed at reaching the 4 specific objectives of the project.
To reach the first objective, three plastic polymers were selected (including polyethylene – PE, polypropylene – PP and polylactic acid – PLA) and experiments including the exposure to ultraviolet light (to simulate light exposure) and the incubation with an algal community (to simulate the biofouling process) were performed to create simulated aged plastic.
All these materials were characterized for their chemical properties and these plastics were used to perform adsorption experiments, using two metals (aluminium and copper in solution) to evaluate the factors responsible for their adsorption.
Finally, after the statistical evaluation to assess the factors responsible for the adsorption of elements, a scaling exercise at a more relevant, lab-based scale was performed. This was made through the preparation of a simplified mesocosm at known chemical composition of water and with the presence of a synthetic algal community, created by the inoculation of 5 freshwater species. In these experiments, the control community was disturbed with a known amount of plastic (only PP was selected) with and without biofilm on its surface. The presence of a biofilm community, in fact, was observed to be the key factor in determining the adsorption of elements. This experiment helped in ranking the environmental relevance of plastic biofouling for the biogeochemical partitioning of several nutrients and minor elements in water.