高通量扩增子分析揭示了富营养化的胶州湾中潜在的新型氨氧化原核生物。

High throughput amplicon analysis reveals potential novel ammonia oxidizing prokaryotes in the eutrophic Jiaozhou Bay.

作者信息

Jiang Cuihong, Wu Jiapeng, Ye Jiaqi, Hong Yiguo

机构信息

Institute of Environmental Research at Greater Bay Area, Key Laboratory for Water Quality and Conservation of the Pearl River Delta, Ministry of Education, Guangzhou University, Guangzhou 510006, China.

出版信息

Mar Pollut Bull. 2024 Mar;200:116046. doi: 10.1016/j.marpolbul.2024.116046. Epub 2024 Jan 20.

DOI:10.1016/j.marpolbul.2024.116046

PMID:38246016

Abstract

Ammonia-oxidizing prokaryotes (AOPs) are the major contributors of ammonia oxidization with widely distribution. Here we investigated the phylogenetic diversity, community composition, and regulating factors of AOPs in Jiaozhou Bay (JZB) with high-throughput sequencing of amoA gene. Phylogenetic analysis showed most of the OTUs could not be clustered with any known AOPs, indicating there might exist putative novel AOPs. With new developed protocols for AOP community analysis, we confirmed that only 3 OTUs of ammonia-oxidizing archaea (AOA) could be affiliated to known Nitrosopumilaceae and Nitrososphaera, and the other OTUs were identified as novel AOA based on the threshold. All abstained OTUs of ammonia-oxidizing bacteria (AOB) were identified as novel clusters based on the threshold. Further analysis showed the novel AOPs had different distribution characteristics related to environmental factors. The high abundance and widespread distribution of these novel AOPs indicated that they played an important role in ammonia conversion in eutrophic JZB.

摘要

氨氧化原核生物（AOPs）是氨氧化的主要贡献者，分布广泛。在此，我们通过amoA基因的高通量测序研究了胶州湾（JZB）中AOPs的系统发育多样性、群落组成和调控因素。系统发育分析表明，大多数操作分类单元（OTUs）无法与任何已知的AOPs聚类，这表明可能存在推定的新型AOPs。通过新开发的AOP群落分析方案，我们证实只有3个氨氧化古菌（AOA）的OTUs可以隶属于已知的奇古菌科和亚硝化球菌属，而其他OTUs根据阈值被鉴定为新型AOA。基于该阈值，所有氨氧化细菌（AOB）的保留OTUs都被鉴定为新的聚类。进一步分析表明，新型AOPs与环境因素具有不同的分布特征。这些新型AOPs的高丰度和广泛分布表明它们在富营养化的胶州湾氨转化中发挥着重要作用。

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高通量扩增子分析揭示了富营养化的胶州湾中潜在的新型氨氧化原核生物。

High throughput amplicon analysis reveals potential novel ammonia oxidizing prokaryotes in the eutrophic Jiaozhou Bay.

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