Leibniz Institute for Baltic Sea Research Warnemuende, Biological Oceanography, Rostock, Germany.
Department of Ecology and Evolutionary Biology, University of Michigan, Ann Arbor, Michigan, USA.
mSphere. 2021 Jun 30;6(3):e0085120. doi: 10.1128/mSphere.00851-20. Epub 2021 Jun 9.
While it is now appreciated that the millions of tons of plastic pollution travelling through marine systems carry complex communities of microorganisms, it is still unknown to what extent these biofilm communities are specific to the plastic or selected by the surrounding ecosystem. To address this, we characterized and compared the microbial communities of microplastic particles, nonplastic (natural and wax) particles, and the surrounding waters from three marine ecosystems (the Baltic, Sargasso and Mediterranean seas) using high-throughput 16S rRNA gene sequencing. We found that biofilm communities on microplastic and nonplastic particles were highly similar to one another across this broad geographical range. The similar temperature and salinity profiles of the Sargasso and Mediterranean seas, compared to the Baltic Sea, were reflected in the biofilm communities. We identified plastic-specific operational taxonomic units (OTUs) that were not detected on nonplastic particles or in the surrounding waters. Twenty-six of the plastic-specific OTUs were geographically ubiquitous across all sampled locations. These geographically ubiquitous plastic-specific OTUs were mostly low-abundance members of their biofilm communities and often represented uncultured members of marine ecosystems. These results demonstrate the potential for plastics to be a reservoir of rare and understudied microbes, thus warranting further investigations into the dynamics and role of these microbes in marine ecosystems. This study represents one of the largest comparisons of biofilms from environmentally sampled plastic and nonplastic particles from aquatic environments. By including particles sampled through three separate campaigns in the Baltic, Sargasso, and Mediterranean seas, we were able to make cross-geographical comparisons and discovered common taxonomical signatures that define the plastic biofilm. For the first time, we identified plastic-specific bacteria that reoccur across marine regions. Our data reveal that plastics have selective properties that repeatedly enrich for similar bacteria regardless of location, potentially shifting aquatic microbial communities in areas with high levels of plastic pollution. Furthermore, we show that bacterial communities on plastic do not appear to be strongly influenced by polymer type, suggesting that other properties, such as the absorption and/or leaching of chemicals from the surface, are likely to be more important in the selection and enrichment of specific microorganisms.
虽然现在人们已经意识到,在海洋系统中传播的数百万吨塑料污染携带着复杂的微生物群落,但这些生物膜群落究竟在多大程度上是特定于塑料的,或者是由周围生态系统选择的,目前还不得而知。为了解决这个问题,我们使用高通量 16S rRNA 基因测序技术,对来自三个海洋生态系统(波罗的海、马尾藻海和地中海)的微塑料颗粒、非塑料(天然和蜡)颗粒以及周围水域的微生物群落进行了特征描述和比较。我们发现,在这个广泛的地理范围内,微塑料和非塑料颗粒上的生物膜群落彼此非常相似。与波罗的海相比,马尾藻海和地中海的相似温度和盐度分布反映在生物膜群落中。我们确定了一些在非塑料颗粒或周围水域中未检测到的特定于塑料的操作分类单元(OTUs)。在所有采样地点都普遍存在 26 个特定于塑料的 OTUs。这些具有地理普遍性的特定于塑料的 OTUs 大多是其生物膜群落中的低丰度成员,并且通常代表海洋生态系统中未培养的成员。这些结果表明,塑料有可能成为稀有和研究不足的微生物的储存库,因此需要进一步研究这些微生物在海洋生态系统中的动态和作用。 本研究代表了对来自水生环境中环境采样的塑料和非塑料颗粒的生物膜进行的最大比较之一。通过在波罗的海、马尾藻海和地中海三个单独的航次中采集颗粒,我们能够进行跨地理比较,并发现了定义塑料生物膜的常见分类学特征。我们首次鉴定了在海洋区域反复出现的特定于塑料的细菌。我们的数据表明,塑料具有选择性,无论位置如何,都会反复富集相似的细菌,这可能会改变塑料污染水平较高地区的水生微生物群落。此外,我们表明,塑料上的细菌群落似乎不受聚合物类型的强烈影响,这表明其他特性,如从表面吸收和/或浸出化学物质,可能更重要在选择和富集特定微生物方面。
