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Ocean acidification has a strong effect on communities living on plastic in mesocosms

Limnology and Oceanography Letters 2023 7 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 40 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Xu Zhang, Xu Zhang, Guang Gao, Qianqian Fu, Qianqian Fu, Qianqian Fu, Ping Zhang, Yang Tian, Ping Zhang, Yang Tian, Qianqian Fu, Kunshan Gao, Kunshan Gao, Zichao Deng, Ping Zhang, Ping Zhang, Zichao Deng, Kunshan Gao, Qianqian Fu, Ping Zhang, Ping Zhang, Ruiping Huang, Qianqian Fu, Kunshan Gao, Ping Zhang, Xu Zhang, Ruiping Huang, Xu Zhang, Jason M. Hall‐Spencer, Di Zhang, Ping Zhang, Xu Zhang, Yang Tian, Jason M. Hall‐Spencer, Yang Tian, Xu Zhang, Na Wang, Guang Gao, Li He, Guang Gao, Guang Gao, Guang Gao, Xuyang Wang, Liming Qu, Jason M. Hall‐Spencer, Liming Qu, Xiaowen Jiang, Guang Gao, Jiazhen Sun, Jiazhen Sun, Qianqian Fu, Qianqian Fu, Xiangqi Yi, Liming Qu, Liming Qu, Cong Zhou, Yuming Rao, Xiaorong Zeng, Xiaorong Zeng, Jason M. Hall‐Spencer, Guang Gao, Kunshan Gao, Xin Lin

Summary

A mesocosm experiment found that simulated ocean acidification significantly changed the microbial communities colonizing plastic debris (the "plastisphere"), increasing the relative abundance of pathogenic and parasite bacteria and altering nutrient cycling. This is concerning because ocean acidification driven by climate change could make plastic pollution even more dangerous by turning floating plastics into enhanced vectors for harmful microbes.

Study Type Environmental

Abstract We conducted a mesocosm experiment to examine how ocean acidification (OA) affects communities of prokaryotes and eukaryotes growing on single‐use drinking bottles in subtropical eutrophic waters of the East China Sea. Based on 16S rDNA gene sequencing, simulated high CO 2 significantly altered the prokaryotic community, with the relative abundance of the phylum Planctomycetota increasing by 49%. Under high CO 2 , prokaryotes in the plastisphere had enhanced nitrogen dissimilation and ureolysis, raising the possibility that OA may modify nutrient cycling in subtropical eutrophic waters. The relative abundance of pathogenic and animal parasite bacteria also increased under simulated high CO 2 . Our results show that elevated CO 2 levels significantly affected several animal taxa based on 18S rDNA gene sequencing. For example, Mayorella amoebae were highly resistant, whereas Labyrinthula were sensitive to OA. Thus, OA may alter plastisphere food chains in subtropical eutrophic waters.

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