Scientific Reports (Jan 2021)

Deep-sea bacteria trigger settlement and metamorphosis of the mussel Mytilus coruscus larvae

  • Rui-Heng Chang,
  • Li-Ting Yang,
  • Ming Luo,
  • Yihan Fang,
  • Li-Hua Peng,
  • Yuli Wei,
  • Jiasong Fang,
  • Jin-Long Yang,
  • Xiao Liang

DOI
https://doi.org/10.1038/s41598-020-79832-8
Journal volume & issue
Vol. 11, no. 1
pp. 1 – 10

Abstract

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Abstract Bacteria from coast seawaters are widely known to induce larval recruitment of many invertebrates. However, whether and how deep-sea bacteria, that play crucial roles in the ecological and biogeochemical cycles, promote larval recruitment remains little known. Here, the interaction between deep-sea bacterial biofilms (BFs) and Mytilus coruscus larvae was tested. All these nine deep-sea bacterial isolates triggered planktonic-sessile transition, and the highest percentage of post-larvae was observed in Virgibacillus sp. 1 BF. Except for Pseudomonas sp. 3, Pseudoalteromonas sp. 32 and Bacillus sp. 13, other BF cell densities were significantly related to their corresponding inductive efficiency. The deep-sea Virgibacillus sp. 1 BFʼs cue that triggers planktonic-sessile transition was uncovered. Treating Virgibacillus sp. 1 BFs through physic-chemical approaches reduced inducing impact and cell survival. The conditioned water collaborated with formalin-fixed Virgibacillus sp. 1 BF hoisted planktonic-sessile transition efficiency in comparison to each one alone. Thus, two signals derived from deep-sea bacteria trigger planktonic-sessile transition in M. coruscus. This finding firstly demonstrates that deep-sea bacteria has good potential for application in the mussel seed production and provides novel insight to clarify the bacteria-mussel interaction.