微真核细胞对大盐丘地区生物碳泵的贡献。

IF 5.1 Q1 ECOLOGY
ISME communications Pub Date : 2024-11-04 eCollection Date: 2024-01-01 DOI:10.1093/ismeco/ycae136
Qingwei Yang, Yanhui Yang, Jun Xia, Hideki Fukuda, Yusuke Okazaki, Toshi Nagata, Hiroyuki Ogata, Hisashi Endo
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摘要

微真核细胞是下沉颗粒的重要组成部分,有助于碳从表层向深海输出。然而,目前对下沉微真核细胞群落及其动态的了解还很有限。在这项研究中,我们应用 18S rRNA 基因代谢编码技术研究了大盐生地区春季海洋捕雪器所分辨的下沉颗粒和悬浮颗粒中的微真核生物群落。与悬浮颗粒相比,下沉颗粒显示出独特的群落和较低的多样性。沉降颗粒的群落组成随深度的变化而变化,这表明微真核细胞在沉降过程中被选择性地分解或分解。藻类和硅藻被有效地清除,这表现在它们在下沉颗粒中的丰度随着深度的增加而降低。相反,叶绿藻在不同深度的下沉颗粒中都保持了较高的丰度,这表明它们对解离和分解具有抵抗力。螺旋藻和异养型鼎足目植物在下沉颗粒中富集,而海洋石龙子类则在悬浮颗粒中富集。深层中的异养生物主要是从表层向深层迁移的,其相对丰度增加,表明它们对下沉颗粒的转化过程做出了贡献。总之,我们的研究结果证明了微真核细胞在生物碳泵中的功能差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Taxon-specific contributions of microeukaryotes to biological carbon pump in the Oyashio region.

Microeukaryotes are critical components of sinking particles contributing to carbon export from the surface to deep oceans. However, the knowledge of the sinking microeukaryotic communities and their dynamics is currently limited. In this study, we applied 18S rRNA gene metabarcoding to investigate the microeukaryotic communities in sinking and suspended particles distinguished by marine snow catchers during spring in the Oyashio region. Sinking particles displayed distinct communities and lower diversity than suspended particles. The community compositions of the sinking particles varied with depth, suggesting that microeukaryotes were selectively disaggregated or decomposed during settling. Prymnesiophyceae and diatoms were effectively removed, as indicated by their decreased abundance in sinking particles at increasing depths. Conversely, Dinophyceae maintained a higher abundance in sinking particles across depths, indicating resistance to disaggregation and decomposition. Spirotrichea and heterotrophic Dinophyceae were enriched in sinking particles, while marine stramenopiles groups were enriched in suspended particles. The heterotrophs in the deeper layers were mainly transported from the surface layers by increasing their relative abundance towards deep layers, indicating that they contributed to the transformation processes of sinking particles. Overall, our results demonstrate the functional differences among microeukaryotes in the biological carbon pump.

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