Your search keyword '"Ersoy Z"' showing total 2 results

1. Microalgal colonization of microplastics in experimental mesocosms across a biogeographical gradient

Author

Nava, V, Matias, M, Messyasz, B., Castillo-Escrivà, A, Ersoy, Z, Raposeiro, P. M., Marzinelli, E, Mayer-Pinto, M, González Sanchidrián, H., Pinedo-Troncoso, M., Leoni, B, Nava, V, Matias, M, Messyasz, B, Castillo-Escrivà, A, Ersoy, Z, Raposeiro, P, Marzinelli, E, Mayer-Pinto, M, González Sanchidrián, H, Pinedo-Troncoso, M, and Leoni, B

Subjects

epiplastic community, microalgae, Microplastic, plastisphere

Abstract

Microplastics (MPs) constitute suitable substrates for the formation of biofilms. Since local conditions and environmental factors influence the community composition of biofilm, biogeography plays an important role in the composition of MP-colonizing communities. However, there is still controversy as to whether substrate-specific properties or environmental factors prevail in determining microalgal assemblages on plastic debris. In this study, we assessed periphyton growth on two different plastic polymers in freshwater mesocosms distributed across five locations covering a variety of bioclimatic regions in the Iberian Peninsula. In each location, pellets of high-density polyethylene, polyethylene terephthalate or a mix of the two polymers were deployed inside 2L transparent bottles suspended from surface rafts inside three different 1000L mesocosms. We measured water temperature, pH, conductivity, chlorophyll-a and nutrients in each mesocosm. After one month, MPs were collected and biomass and algal species composition were assessed. Microalgae colonized all the different plastic substrates in all sites with a mean abundance of 288±36 µg cm-2, with the highest biomass reported for PET (329±70 µg cm-2). Significant differences in the biomass development for the different polymers were highlighted for diatoms, which represent on average one of the taxa with higher biomass (29% of total biomass). Our results suggest that different plastic polymers may determine different colonizing conditions for specific taxa and may affect freshwater primary productivity.

Published

2021

2. Microalgal colonization of microplastics in experimental mesocosms across the Iberian peninsula

Author

Nava, V, Matias, M, Messyasz, B, Castillo-Escrivà, A, Ersoy, Z, Raposeiro, P, Marzinelli, E, Mayer-Pinto, M, González Sanchidrián, H, Pinedo-Troncoso, M, Leoni, B, Nava, V, Matias, M, Messyasz, B, Castillo-Escrivà, A, Ersoy, Z, Raposeiro, P, Marzinelli, E, Mayer-Pinto, M, González Sanchidrián, H, Pinedo-Troncoso, M, and Leoni, B

Subjects

epiplastic community, microalgae, microplastic, phytobenthos

Abstract

Microplastics (MPs) can be colonized by a wide range of species (“plastisphere”). Even though plastisphere research mostly focused on heterotrophic bacteria, the presence of epiplastic microalgae has been repeatedly documented. However, studies investigating the colonization of MPs by microalgae are still limited, and mainly performed in marine environments. In this study, we assessed periphyton growth and diversity on two different plastic polymers (i.e., high-density polyethylene - HDPE, polyethylene terephthalate - PET) in freshwater mesocosms distributed across five locations in the Iberian Peninsula. Our results showed that colonization occurred in a range of diverse freshwater ecosystems, since we observed biofouling of the MP surfaces in all conditions, regardless of the sites and the plastic polymer type. The amount of biomass developed on substrates differed based on the polymer type, with higher biomass developed on PET substrate compared to HDPE. We observed a rich community of microalgae on both substrates (242 species), but we did not observe species-specificity in colonization of the different plastic polymers. Indeed, local species pool rather than polymeric composition seems to be the determinant factor defining community diversity.

Published

2021