Reduction of small-prey capture rate and collective predation in the bleached sea anemone Exaiptasiadiaphana

Mar Environ Res. 2024 Apr:196:106435. doi: 10.1016/j.marenvres.2024.106435. Epub 2024 Mar 6.

Abstract

Cnidarians may dominate benthic communities, as in the case of coral reefs that foster biodiversity and provide important ecosystem services. Polyps may feed by predating mesozooplantkon and large motile prey, but many species further obtain autotrophic nutrients from photosymbiosis. Anthropogenic disturbance, such as the rise of seawater temperature and turbidity, can lead to the loss of symbionts, causing bleaching. Prolonged periods of bleaching can induce mortality events over vast areas. Heterotrophy may allow bleached cnidarians to survive for long periods of time. We tested the reinforcement of heterotrophic feeding of bleached polyps of Exaiptasia diaphana fed with both small zooplantkon and large prey, in order to evaluate if heterotrophy allows this species to compensate the reduction of autotrophy. Conversely to expected, heterotrophy was higher in unbleached polyps (+54% mesozooplankton prey and +11% large prey). The increase of heterotrophic intake may not be always used as a strategy to compensate autotrophic depletion in bleached polyps. Such a resilience strategy might be more species-specific than expected.

Keywords: Bleaching; Cnidaria; Heterotrophy; Large prey; Protocooperation; Resilience; Symbiosis; Zooxanthellae.

MeSH terms

  • Animals
  • Anthozoa*
  • Coral Reefs
  • Ecosystem
  • Predatory Behavior
  • Sea Anemones*
  • Symbiosis