暗礁
珊瑚礁
珊瑚
生物
珊瑚虫
微生物群
生物多样性
生态学
无脊椎动物
生态系统
珊瑚礁的环境问题
海洋生态系统
全生物
航程(航空)
珊瑚礁保护
珊瑚礁的复原力
珊瑚养殖
共生
无脊椎动物
分类等级
寄主(生物学)
作者
Fabienne Wiederkehr,Lucas Paoli,Daniel J. Richter,Dora Racunica,Hans-Joachim Ruscheweyh,Martin Sperfeld,James O’Brien,Samuel Miravet-Verde,Alena B. Streiff,Jessica Ransome,Clara Chepkirui,Taylor Priest,Anna Sintsova,Guillem Salazar,Kalia Bistolas,Teresa Sawyer,Karine Labadie,Kim-Isabelle Mayer,Aude Perdereau,Maggie M. Reddy
出处
期刊:Nature
[Nature Portfolio]
日期:2026-02-25
标识
DOI:10.1038/s41586-026-10159-6
摘要
Coral reefs are marine biodiversity hotspots that provide a wide range of ecosystem services1. They are reservoirs of bioactive metabolites, many produced by microorganisms associated with reef invertebrate hosts2. However, for the keystone species of coral reefs-the reef-building corals-we still lack a systematic assessment of their microbially encoded biosynthetic potential and the molecular resources at stake due to the alarming decline in reef biodiversity. Here we analysed microbial genomes reconstructed from 820 reef-building coral samples of three representative coral genera collected at 99 reefs across 32 islands throughout the Pacific Ocean (Tara Pacific expedition)3. By contextualizing our analyses with the microbiomes of other reef species, we found that only 10% of the 4,224 microbial species and less than 1% of the 645 species exclusively identified in Tara Pacific samples had genomic information available. Furthermore, the biosynthetic potential of reef-building coral microbiomes rivalled or surpassed that of traditional natural product sources such as sponges. Among the biosynthetically rich bacteria in the reef microbiome, we identified new groups of Acidobacteriota that encode previously unknown enzymology, in turn opening promising avenues for functional protein engineering. Together, this study underscores the importance of conserving coral reefs as vital reservoirs of molecular diversity.
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