<p>Outbreaks of the corallivorous gastropod <i>Drupella</i> spp. are increasingly recognised as a major driver of coral reef degradation across the Indo-Pacific. While <i>Drupella</i> is typically associated with predation on scleractinian corals, particularly <i>Acropora</i>, interactions with milleporids remain understudied. Here, we report the first observation of <i>Drupella</i> feeding on <i>Millepora</i> spp. in the Indo-Pacific, based on field observations from shallow reefs (1–4&#xa0;m) at Gili Asahan, Lombok, Indonesia (8.739482&#xa0;N, 115.890852 E). During a 90-minute survey, <i>Drupella</i> snails were observed within six colonies of <i>Millepora dichotoma</i>, <i>M. tenera</i> and <i>M. intricata.</i> Adult snails were found in deep skeletal recesses, with white scars directly underneath the snails suggesting active feeding. Occasional spillover of <i>Drupella</i> aggregations onto adjacent <i>Acropora</i> colonies was also observed. The predominance of adult <i>Drupella</i> within <i>Millepora</i> colonies may suggest an ontogenetic shift in habitat use and prey choice, likely driven by feeding plasticity, refuge availability and energetic demands. We propose that the complex skeletal structure of <i>Millepora</i> provides both shelter and an alternative prey source, facilitating <i>Drupella</i> persistence under variable resource conditions. This interaction may have cascading ecological consequences, as milleporids provide important habitat for reef-associated fauna and are vulnerable to climate change. These findings highlight an underappreciated local corallivore-hydrozoan interaction and emphasise the need for targeted monitoring of <i>Millepora</i> during <i>Drupella</i> outbreaks in Lombok to better understand emerging reef trophic dynamics.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

First reported field observations of Drupella spp. feeding on milleporids in Indo-Pacific reefs

  • Febrianne Sukiato,
  • Kok Lynn Chew,
  • Tanya Toofany

摘要

Outbreaks of the corallivorous gastropod Drupella spp. are increasingly recognised as a major driver of coral reef degradation across the Indo-Pacific. While Drupella is typically associated with predation on scleractinian corals, particularly Acropora, interactions with milleporids remain understudied. Here, we report the first observation of Drupella feeding on Millepora spp. in the Indo-Pacific, based on field observations from shallow reefs (1–4 m) at Gili Asahan, Lombok, Indonesia (8.739482 N, 115.890852 E). During a 90-minute survey, Drupella snails were observed within six colonies of Millepora dichotoma, M. tenera and M. intricata. Adult snails were found in deep skeletal recesses, with white scars directly underneath the snails suggesting active feeding. Occasional spillover of Drupella aggregations onto adjacent Acropora colonies was also observed. The predominance of adult Drupella within Millepora colonies may suggest an ontogenetic shift in habitat use and prey choice, likely driven by feeding plasticity, refuge availability and energetic demands. We propose that the complex skeletal structure of Millepora provides both shelter and an alternative prey source, facilitating Drupella persistence under variable resource conditions. This interaction may have cascading ecological consequences, as milleporids provide important habitat for reef-associated fauna and are vulnerable to climate change. These findings highlight an underappreciated local corallivore-hydrozoan interaction and emphasise the need for targeted monitoring of Millepora during Drupella outbreaks in Lombok to better understand emerging reef trophic dynamics.