Symbiont diversity within Loripes orbiculatus and the case for multiple hosts.

The ISME Journal Pub Date : 2026-04-15 DOI:10.1093/ismejo/wrag094

Margaret A Vogel,Fragkiskos Machairas,Sophia Ferchiou,Jay Osvatic,Hanin Alzubaidy,Joana Séneca,Bela Hausmann,Katja Klun,Jillian M Petersen

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Abstract

Seagrasses support immense biodiversity and are critical for maintaining coastal ecosystem health. These foundation species benefit from a 'three-way' facultative relationship with one of the common inhabitants of seagrass meadows, lucinid bivalves, which host specific bacterial Ca. Thiodiazotropha symbionts. Relatives of the bivalve symbionts have been detected on seagrass roots raising the possibility that these symbionts may colonize both animals and plants; however, no study has yet compared bivalve- and seagrass-associated symbionts at the same site and time. Our combination of 16S rRNA gene amplicon and metagenome sequencing revealed a greater diversity than was previously observed within both lucinid bivalves and on seagrass roots from the Adriatic Sea and resulted in the closed genome of one prominent symbiont species. We show that two of the Ca. Thiodiazotropha ASVs found on seagrass roots are identical to those found in bivalve hosts at the same site. This suggests that symbiont sharing may occur in the seagrass habitat between these two host species, which has important evolutionary and ecological implications for both hosts and symbionts.

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圆形圆蚧内的共生体多样性及多寄主的情况。

海草支持巨大的生物多样性，对维持沿海生态系统的健康至关重要。这些基础物种受益于与海草草甸的常见居民之一lucinid双壳类的“三向”兼性关系，lucinid双壳类是特定细菌Ca. thiiodiazotropha共生体的宿主。在海草根部发现了双壳类共生体的近亲，这提高了这些共生体可能在动物和植物中定居的可能性；然而，目前还没有研究在同一地点和同一时间比较双壳类和海草相关的共生体。我们将16S rRNA基因扩增子和宏基因组测序相结合，发现了比以前在lucinid双壳类和亚得里亚海海草根中观察到的更大的多样性，并得出了一个突出的共生物种的封闭基因组。我们发现在海草根部发现的两个Ca. thiiodiazotropha asv与在同一地点的双壳类宿主中发现的asv相同。这表明这两种寄主在海草栖息地可能存在共生体共享，这对寄主和共生体都具有重要的进化和生态意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The ISME Journal

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