# Effects of the Allelopathic Macroalga Galaxaura divaricata on the Foraging Behaviors of Reef Fishes Across Herbivorous and Nonherbivorous Feeding Guilds

**Authors:** Chen‐Lu Lee, Pi‐Jen Liu, Shao‐Lun Liu, Hsing‐Juh Lin

PMC · DOI: 10.1002/ece3.73106 · Ecology and Evolution · 2026-02-17

## TL;DR

The macroalga Galaxaura divaricata reduces feeding in herbivorous reef fish and affects some nonherbivorous species, potentially altering coral reef food webs.

## Contribution

This study reveals species-specific allelopathic effects of Galaxaura on both herbivorous and nonherbivorous reef fish foraging behaviors.

## Key findings

- Herbivorous fish reduced feeding by over 60% when exposed to Galaxaura divaricata.
- Nonherbivorous fish like Haemulidae and Lutjanidae showed reduced feeding due to physical effects of Galaxaura.
- Opportunistic corallivorous fish exhibited high variability in feeding responses to Galaxaura.

## Abstract

Macroalgal overgrowth‐induced phase shifts pose a significant threat to coral reef ecosystems. While herbivores can help control macroalgae biomass in reefs, some allelopathic macroalgae can resist herbivores from foraging. This resistance can lead to a decrease in herbivory levels. However, the impact of these allelopathic effects on other feeding groups of reef fish remains unclear. We examined the presence of the allelopathic macroalga: Galaxaura divaricata on the foraging behaviors of various reef fish species from different feeding guilds, including ten herbivorous and ten nonherbivorous species, in designed tank experiments. Most herbivorous fishes exhibited reductions of more than 60% in feeding on palatable macroalgae when exposed to Galaxaura. Nevertheless, the extent of feeding reduction differed among herbivorous species and feeding guilds, suggesting species‐specific variation in tolerance. Galaxaura had varying effects on the feeding quantity of shrimp among different species of nonherbivorous fish. The presence of Galaxaura did not significantly affect the feeding quantity of most Labridae, Balistidae, and Pomacanthidae fishes, but did physically reduce the feeding quantity of some large carnivorous fishes (e.g., Haemulidae, Lutjanidae, and Serranidae). There was a high variation in the effect on the feeding quantity of opportunistic corallivorous fishes. Our results indicate that allelopathic macroalgal dominance can influence not only herbivorous fishes that regulate algal biomass, but also nonherbivorous fishes. Such changes in foraging may alter trophic interactions in coral reef ecosystems. This also suggests that maintaining functional diversity in fish feeding guilds and preserving specific herbivorous functions are crucial for the resilience of coral reefs against the phase shift caused by macroalgal overgrowths.

Herbivorous fishes reduce their feeding with allelopathic macroalga: Galaxaura, while nonherbivorous fishes didn't change their feeding with Galaxaura. Feeding reduction with Galaxaura differed across fish species and may vary by morphology or chemical resistance of different fish species.

## Linked entities

- **Species:** Galaxaura divaricata (taxon 242855), Haemulidae (taxon 30840), Lutjanidae (taxon 30850), Serranidae (taxon 30871), Labridae (taxon 8247), Balistidae (taxon 31024), Pomacanthidae (taxon 30862)

## Full-text entities

- **Diseases:** weight loss (MESH:D015431), toxicity (MESH:D064420), weakness (MESH:D018908)
- **Chemicals:** Galaxaura (-), water (MESH:D014867)
- **Species:** Naso lituratus (orangespine unicornfish, species) [taxon 75028], Dictyota bartayresiana (species) [taxon 672008], Epinephelus merra (honeycomb grouper, species) [taxon 215346], Pomacanthus semicirculatus (semicircle angelfish, species) [taxon 109713], Chaetodon auripes (oriental butterflyfish, species) [taxon 215361], Penaeus (genus) [taxon 133894], Chaetodon lunula (raccoon butterflyfish, species) [taxon 109694], Acanthurus dussumieri (eyestripe surgeonfish, species) [taxon 238051], Siganus spinus (little spinefoot, species) [taxon 225758], Cetoscarus ocellatus (spotted parrotfish, species) [taxon 2578260], Scarus ghobban (blue-barred parrotfish, species) [taxon 242806], crustaceans [taxon 6657], Kyphosus cinerascens (blue seachub, species) [taxon 163144], PX clade (clade) [taxon 569578], Coris aygula (clown coris, species) [taxon 241280], Lutjanus fulviflamma (dory snapper, species) [taxon 260525], Actinopterygii (fishes, superclass) [taxon 7898], Porites cylindrica (species) [taxon 126659], Kyphosus (genus) [taxon 163142], Oxymonacanthus longirostris (harlequin filefish, species) [taxon 303724], Plectorhinchus chaetodonoides (harlequin sweetlips, species) [taxon 531329], Acanthurus nigricauda (black-barred surgeonfish, species) [taxon 753644], Chaetodon vagabundus (vagabond butterflyfish, species) [taxon 109709], Calotomus carolinus (Caroline's parrotfish, species) [taxon 188112], Galaxaura divaricata (species) [taxon 242855], Siganus fuscescens (mottled spinefoot, species) [taxon 225757], Halichoeres nebulosus (nebulous wrasse, species) [taxon 317497], Pocillopora damicornis (cauliflower coral, species) [taxon 46731], Chlorodesmis fastigiata (species) [taxon 189431], Echinoidea (sea urchin, class) [taxon 7625], Acanthurus olivaceus (orangespot surgeonfish, species) [taxon 238053], Rhinecanthus aculeatus (blackbar triggerfish, species) [taxon 245705]
- **Mutations:** C-26 C

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12913219/full.md

## References

46 references — full list in the complete paper: https://tomesphere.com/paper/PMC12913219/full.md

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Source: https://tomesphere.com/paper/PMC12913219