# Ciliated Epibionts Modify the Cardiac Stress Reaction to Perceived Predation in Daphnia

**Authors:** Andrew K. Davis, Helen Gloege

PMC · DOI: 10.3390/microorganisms12061219 · Microorganisms · 2024-06-18

## TL;DR

Tiny water fleas called Daphnia with ciliated epibionts show stronger heart rate responses to perceived predation stress than those without.

## Contribution

This study reveals that ciliated epibionts enhance, rather than hinder, Daphnia's stress-induced cardiac responses.

## Key findings

- Daphnia with Vorticella epibionts showed immediate heart rate increases after simulated predation stress.
- Heavily burdened Daphnia had heart rates up to 17% higher than baseline for 1.5 hours after stress exposure.
- Epibionts may enhance stress responses by agitating water and amplifying chemical alarm cues.

## Abstract

When animals perceive an acute stressor like a predator, they typically undergo a suite of physiological changes that function to improve survival during the encounter, such as elevation in cardiac output, to supply more energy to muscles. If bodily energy is limited, such as by parasites or infections, these functions could become less efficient and lessen host survival. In the aquatic world of microorganisms, individuals can become colonized by other organisms on their surface (epibionts), which could sap energy from their host from their weight, or even compete with the host for food. Here, we tested if one epibiont (a ciliated protozoan, Vorticella spp.) affects its hosts’ ability to mount a physiological stress reaction. We collected wild daphnia (Daphnia ambigua) that had varying burdens of these on their bodies and exposed them to a simulated stressor (crushed daphnia, to simulate nearby predation) under a microscope while monitoring for changes in their heart rates in real time. Out of 121 daphnia, those with no Vorticella epibionts showed no meaningful changes in their heart rate after exposure, but those with light or heavy burdens showed immediate elevations (within 5 min). Moreover, the heart rates of heavily burdened daphnia continued to rise for 1.5 h thereafter, to as much as 17% higher than at baseline. These patterns were unexpected, as they suggest that the ciliated epibionts act to elevate their hosts’ physiological reaction, rather than dampen it, perhaps by churning the water column around the host, thereby enhancing the chemical alarm cue. The procedures used in this study may be useful for future investigations into the acute stress reactions of daphnia or other microorganisms.

## Linked entities

- **Species:** Daphnia ambigua (taxon 77756)

## Full-text entities

- **Species:** Vorticella (genus) [taxon 60849], Daphnia ambigua (species) [taxon 77756]

## Full text

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## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11205733/full.md

## References

48 references — full list in the complete paper: https://tomesphere.com/paper/PMC11205733/full.md

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Source: https://tomesphere.com/paper/PMC11205733