塑料世界:塑料时代的海洋真菌群落

Inga Kirstein, Marlis Reich, Yanyan Yang, Maike Timmermann, Antje Wichels, Gunnar Gerdts
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引用次数: 0

摘要

真菌在生物膜中扮演着重要角色,其生态作用非常广泛,被认为是塑料降解者。在此,我们旨在提高塑料球真菌成员的分辨率,以了解真菌的基质特异性和相关的潜在生态影响。我们对北海海水中 9 种不同类型的塑料和玻璃上 15 个月大的 Plastisphere 真菌群落进行了调查。通过整合扫描电子显微镜(SEM)成像、基于 ITS 的指纹识别和基于真菌系统发育的管道重新评估 18S rRNA 基因序列数据,我们观察到了真菌塑球,并根据形态、系统发育和生物多样性确定了不同基质类型的具体特征。塑料类型会选择特定的真菌群落,其中聚烯烃群落的多样性明显高于其他所有塑料类型。此外,特定的塑料类型可能会选择特定的真菌类群及其潜在宿主,这凸显了海洋生物薄膜食物网的复杂性以及相关的生态影响。
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The Plastisphere: Marine fungi communities in the plastics age
Fungi play important roles in biofilms, are very versatile in their ecological role, and are considered as plastic degraders. Here we aim to increase the resolution of the fungal members of the Plastisphere, to understand fungal substrate specificities and related potential ecological impacts. Fifteen-month-old fungal Plastisphere communities were investigated on 9 different plastic types and glass in seawater from the North Sea. By integrating scanning electron microscopy (SEM) imaging, ITS-based fingerprinting, and re-evaluated 18S rRNA gene sequence data through a fungal-specific phylogeny-based pipeline, we observed fungal Plastispheres and identified specific characteristics based on morphotypes, phylogeny, and biodiversity across different substrate types. Plastic types selected for specific fungal communities with polyolefine communities indicating significantly higher diversity compared to all other plastic types. Furthermore, specific plastic types may select for specific fungal taxa and their potential hosts, highlighting the complexity of marine biofilm food webs, and related ecological implications.
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