AI Article Synopsis
- In coastal ecosystems, fluid motion influences the behavior of animal larvae, including their ability to select suitable habitats for settling and metamorphosis.
- Research on echinoid larvae in turbulent surf zones reveals that even short exposures (as brief as 30 seconds) to turbulence can trigger a life-history shift toward competence, enabling them to settle more quickly.
- Interestingly, these larvae can remember the turbulence effects for at least 24 hours, while also displaying immediate behavioral responses that help them sink and reach the ocean floor, highlighting the complex relationship between physical conditions and larval settlement.
Article Abstract
In coastal ecosystems, attributes of fluid motion can prompt animal larvae to rise or sink in the water column and to select microhabitats within which they attach and commit to a benthic existence. In echinoid (sea urchin and sand dollar) larvae living along wave-exposed shorelines, intense turbulence characteristic of surf zones can cause individuals to undergo an abrupt life-history shift characterized by precocious entry into competence - the stage at which larvae will settle and complete metamorphosis in response to local cues. However, the mechanistic details of this turbulence-triggered onset of competence remain poorly defined. Here, we evaluate in a series of laboratory experiments the time course of this turbulence effect, both the rapidity with which it initiates and whether it perdures. We found that larvae become competent with turbulence exposures as brief as 30 s, with longer exposures inducing a greater proportion of larvae to become competent. Intriguingly, larvae can remember such exposures for a protracted period (at least 24 h), a pattern reminiscent of long-term potentiation. Turbulence also induces short-term behavioral responses that last less than 30 min, including cessation of swimming, that facilitate sinking and thus contact of echinoid larvae with the substratum. Together, these results yield a novel perspective on how larvae find their way to suitable adult habitat at the critical settlement transition, and also open new experimental opportunities to elucidate the mechanisms by which planktonic animals respond to fluid motion.
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| http://dx.doi.org/10.1242/jeb.187351 | DOI Listing |
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