You can identify it from its leading role in the film Finding NEMO: the Clown Anemone Fish (Amphiprion percula). This research addresses methods to minimize social conflict, as discussed in the paper published in the journal Advances in Science.

“The Clown Anemone Fish and its stunning sea anemone host, Radianthus magnificus,” expressed Melissa Verstegue, a doctoral researcher at Newcastle University, alongside her colleague Melissa Vertegue.

“Anemonefish inhabit coral reefs in the Indo-Pacific, where heat stress events are becoming increasingly frequent and severe, yet reef dwellers often approach their thermal limits.”

“These heat stress events can adversely impact both the anemones and the clownfish that reside within them.”

“The clown anemone fish exist in a social structure comprising dominant breeding pairs and several subordinate, non-breeding individuals.”

“The growth and size of clown anemone fish correlate with their environmental and social conditions, with dominant individuals growing to match the size of their anemone and the resources available. Subordinate fish maintain a specific size ratio to avoid conflict and potential eviction.”

In this research, Versteeg and co-authors measured the lengths of 134 clownfish over five months and tracked water temperatures every 4-6 days during increasingly common ocean heat waves exacerbated by climate change.

This collaboration was conducted with the Mahonia Na Dari Conservation and Research Centre in Kimbe Bay, Papua New Guinea.

The findings reveal that clownfish can adjust their body length, potentially shrinking in response to heat stress.

This reduction increases an individual’s chances of surviving heat stress events by up to 78%.

The study also indicates that coordination among clownfish is crucial, as they are more likely to survive heat waves when paired with their breeding partners.

This marks the first documented instance of coral reef fish reducing body length in response to environmental and social factors.

“This doesn’t merely lead to weight loss under stress; these fish genuinely become shorter,” notes Versteeg.

“We are still uncertain about the exact mechanisms behind this, but it’s known that a few other species can also exhibit similar shrinkage.”

“For example, marine iguanas can reabsorb some of their bone material and decrease in size during environmental stress.”

“We were astonished to observe these fish shrink; we rigorously measured each individual across five months.”

“Ultimately, we discovered size reduction was quite common within this population.”

“During our study, 100 out of the 134 fish observed shrank.”

“It was surprising to witness how rapidly clownfish can adapt to changing environments, showcasing their ability to alter size both as individuals and breeding pairs in response to heat stress, which serves as an effective survival strategy.”

The authors also highlight that individual size reduction may help explain the declining sizes of fish in our oceans.

“Our results affirm that individual clownfish can shrink in response to heat stress, potentially affected by social dynamics and exhibiting improved survival potential.”

“If this phenomenon of individual size reduction is widespread across various fish species, many could show decreased sizes, suggesting a viable hypothesis for further research in this area.”

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Melissa A. Verstigue et al. 2025. Individual clown anemone fish shrink to survive heat stress and social conflict. Advances in Science 11 (21); doi:10.1126/sciadv.adt7079