On the wrong track: ocean acidification attracts larval fish to irrelevant environmental cues

Tullio Rossi,Sean D Connell,Ivan Nagelkerken,Jennifer C A Pistevos

doi:10.1038/s41598-018-24026-6

Tullio Rossi, Sean D Connell + Show 2 more

Open Access

https://doi.org/10.1038/s41598-018-24026-6

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Journal: Scientific Reports	Publication Date: Apr 11, 2018
Citations: 20	License type: open-access

Affiliation: University of Adelaide

Abstract

Population replenishment of marine life largely depends on successful dispersal of larvae to suitable adult habitat. Ocean acidification alters behavioural responses to physical and chemical cues in marine animals, including the maladaptive deterrence of settlement-stage larval fish to odours of preferred habitat and attraction to odours of non-preferred habitat. However, sensory compensation may allow fish to use alternative settlement cues such as sound. We show that future ocean acidification reverses the attraction of larval fish (barramundi) to their preferred settlement sounds (tropical estuarine mangroves). Instead, acidification instigates an attraction to unfamiliar sounds (temperate rocky reefs) as well as artificially generated sounds (white noise), both of which were ignored by fish living in current day conditions. This finding suggests that by the end of the century, following a business as usual CO2 emission scenario, these animals might avoid functional environmental cues and become attracted to cues that provide no adaptive advantage or are potentially deleterious. This maladaptation could disrupt population replenishment of this and other economically important species if animals fail to adapt to elevated CO2 conditions.

Highlights

The process of larval settlement represents a bottleneck in the population dynamics of many marine species
Aside from showing a significant attraction or deterrence towards natural and/or irrelevant noises, larvae raised under present-day conditions differed in their response from those raised under elevated CO2 conditions (Fig. 1): on 16 and 18 dph for natural sounds (2-way ANOVA, CO2 treatment × dph interaction: p = 0.006) and on 13 and 21 dph for white noise (CO2 treatment × dph interaction: p = 0.037) the % time spent close to the speaker broadcasting sounds differed significantly within dph between larvae raised under the two CO2 treatments
We reveal that ocean acidification reduces attraction towards natural habitat cues, and attracts animals towards ecologically irrelevant auditory cues

Summary

Introduction

The process of larval settlement represents a bottleneck in the population dynamics of many marine species. This process is not a simple function of stochastic processes and passive passage via ocean currents. Failure to do so would reduce the chance of survival via increased risk of starvation and predation, or settlement in suboptimal habitats. During this critical life history transition, larvae depend on multiple cues such as sounds and odour plumes to orient themselves and progress from a planktonic to a demersal lifestyle[2,3]. We determined the response of larval barramundi towards soundscapes of habitats located outside of its distribution range, and towards artificially generated white noise as a proxy for irrelevant anthropogenic sounds

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Conclusion