生物
基因组
硅藻
背景(考古学)
生态学
海洋酸化
微生物生态学
生物膜
营养物
微生物种群生物学
生态生理学
细菌
基因
植物
气候变化
生物化学
遗传学
古生物学
光合作用
作者
Dorsaf Kerfahi,Ben P. Harvey,Hyoki Kim,Ying Yang,Jonathan M. Adams,Jason M. Hall‐Spencer
标识
DOI:10.1007/s00248-022-01987-w
摘要
Plastics are accumulating in the world's oceans, while ocean waters are becoming acidified by increased CO2. We compared metagenome of biofilms on tethered plastic bottles in subtidal waters off Japan naturally enriched in CO2, compared to normal ambient CO2 levels. Extending from an earlier amplicon study of bacteria, we used metagenomics to provide direct insights into changes in the full range of functional genes and the entire taxonomic tree of life in the context of the changing plastisphere. We found changes in the taxonomic community composition of all branches of life. This included a large increase in diatom relative abundance across the treatments but a decrease in diatom diversity. Network complexity among families decreased with acidification, showing overall simplification of biofilm integration. With acidification, there was decreased prevalence of genes associated with cell-cell interactions and antibiotic resistance, decreased detoxification genes, and increased stress tolerance genes. There were few nutrient cycling gene changes, suggesting that the role of plastisphere biofilms in nutrient processes within an acidified ocean may not change greatly. Our results suggest that as ocean CO2 increases, the plastisphere will undergo broad-ranging changes in both functional and taxonomic composition, especially the ecologically important diatom group, with possible wider implications for ocean ecology.
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