Replenishment of fish populations is threatened by ocean acidification

There is increasing concern that ocean acidification, caused by the uptake of additional CO₂ at the ocean surface, could affect the functioning of marine ecosystems; however, the mechanisms by which population declines will occur have not been identified, especially for noncalcifying species such as fishes. Here, we use a combination of laboratory and field-based experiments to show that levels of dissolved CO₂ predicted to occur in the ocean this century alter the behavior of larval fish and dramatically decrease their survival during recruitment to adult populations. Altered behavior of larvae was detected at 700 ppm CO₂, with many individuals becoming attracted to the smell of predators. At 850 ppm CO₂, the ability to sense predators was completely impaired. Larvae exposed to elevated CO₂ were more active and exhibited riskier behavior in natural coral-reef habitat. As a result, they had 5–9 times higher mortality from predation than current-day controls, with mortality increasing with CO₂ concentration. Our results show that additional CO₂ absorbed into the ocean will reduce recruitment success and have far-reaching consequences for the sustainability of fish populations.