Scientific Reports (Apr 2024)

Influence of sipunculan (peanut worm) activity on orifice formation in scleractinian Heterocyathus for adaptation to soft substrates

  • Yuki Tokuda,
  • Shuya Kawakita,
  • Asuka Sentoku,
  • Yoichi Ezaki,
  • Naoki Tanaka,
  • Shotaro Nagasawa,
  • Kazumitsu Nakaguchi,
  • Shuhei Yamaguchi,
  • Yusuke Kondo,
  • Susumu Ohtsuka

DOI
https://doi.org/10.1038/s41598-023-49631-y
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 14

Abstract

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Abstract Mutualism profoundly affects the morphology and ecological evolution of both hosts and symbionts involved. Heterocyathus is a solitary scleractinian coral that lives on soft substrata, and sipunculan worms live symbiotically in the tube-like cavities (orifice) inside the coral skeletons. This habitat provides protection to the sipunculan worms against predators and—owing to the mobility of the worms—prevents the coral from being buried with sediments. The orifice growth is closely related to the symbiont sipunculan worms; however, this has not been previously elucidated. Here, we clarified the growth process of scleractinian coral orifices and the influence of sipunculan activity on this. The orifices were originally formed by rapid accretion deposits. The coral soft tissue enveloping the growth edge of the orifice repeatedly retreated to the outer side due to direct damage to the soft part and/or excessive stress caused by the rubbing of the sipunculan through locomotion, excretion, and feeding behaviour. This resulted in a toppled-domino microskeletal structure appearance and maintenance of the orifice growth. These outcomes demonstrate the first example of the direct influence of symbionts on the skeletal morphogenesis of scleractinian corals. The mutualism between the two organisms is maintained by the beneficial confrontation in forming orifices.