4.7 Article

Plastic litter changes the rhizosphere bacterial community of coastal dune plants

Journal

SCIENCE OF THE TOTAL ENVIRONMENT
Volume 880, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.scitotenv.2023.163293

Keywords

Marine litter; Plastic pollution; Microbial community; Coastal environment; Non-biodegradable plastic; Biodegradable plastic

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Plastic litter has an impact on the rhizosphere bacterial communities associated with dune plants, increasing bacterial diversity and altering community composition. Non-biodegradable polymers reduced the survival rate of a particular dune plant species, while biodegradable/compostable polymers increased root biomass and the abundance of certain bacterial taxa. These findings highlight the importance of investigating the effects of plastics on the resilience of coastal dunes to climate change.
The presence of plastic litter in coastal environments like beach-dune systems has been well documented, and recent studies have shown that this pollutant can influence sand properties as well as dune vegetation. However, the effects of plastics on rhizosphere bacterial communities of dune plants have largely been neglected. This is an ecologically relevant issue since these communities may play an important role in improving plant growth and resilience of dune systems. Here, we explored the impact of plastic litter made of either non-biodegradable polymers (NBP) or biodegradable/compostable polymers (BP) on the structure and composition of rhizosphere bacterial communities associated with two widespread species along coastal European dunes, Thinopyrum junceum and Sporobolus pumilus, by using a one-year field experiment combined with metabarcoding techniques. Both plastics did not affect neither the survival nor the biomass of T. junceum plants, but they significantly increased alpha-diversity of rhizosphere bacterial communities. They also changed rhizosphere composition by increasing the abundance of the phyla Acidobacteria, Chlamydiae, and Nitrospirae, and of the family Pirellulaceae, and reducing the abundance of the family Rhizobiaceae. NBP reduced drastically the survival of S. pumilus while BP increased its root biomass compared to controls. BP also increased the abundance of the phylum Patescibacteria of the rhizosphere bacterial communities. Our findings provide the first evidence that NBP and BP can change rhizosphere bacterial communities associated with dune plants and highlight the importance of investigating how these changes can affect the resilience of coastal dunes to climate change.

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