A spatio-temporal analysis of marine diatom communities associated with pristine and aged plastics

Complex microbial communities colonize plastic substrates over time, strongly influencing their fate and potential impacts on marine ecosystems. Among the first colonizers, diatoms play an important role in the development of this 'plastiphere'. We investigated 936 biofouling samples and the factors influencing diatom communities associated with plastic colonization. These factors included geographic location (up to 800 km apart), duration of substrate submersion (1 to 52 weeks), plastics (5 polymer types) and impact of artificial ageing with UV light. Diatom communities colonizing plastic debris were primarily determined by their geographic location and submersion time, with the strongest changes occurring within two weeks of submersion. Several taxa were identified as early colonizers (e.g. Cylindrotheca, Navicula and Nitzschia spp.) with known strong adhesion capabilities. To a lesser extent, plastic-type and UV-ageing significantly affected community composition, with 14 taxa showing substrate-specificity. This study highlights the role of plastics types-state for colonization in the ocean.

Automated summary

Complex microbial communities on plastic substrates are strongly shaped by geographic location and duration of submersion, with the most significant changes occurring within two weeks. Certain diatom species, such as Cylindrotheca, Navicula, and Nitzschia, exhibit early colonization and strong adhesion capabilities. Plastic type and UV-ageing also affect community composition, with some taxa showing substrate-specificity. This study emphasizes the importance of plastic types for colonization in the ocean.