Risk-induced trait response in planktonic larvae is altered under an acidified scenario

Climate Change Ecology Pub Date : 2021-12-01 DOI:10.1016/j.ecochg.2021.100040

J.C.F. Pardo , A.L. Arvigo , C.A. Miyai , T.M. Costa

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Abstract

Our changing climate is affecting predator-prey interactions in different ways. Increasing atmospheric CO₂ is acidifying the ocean and disrupting the chemosensation of several species. Here, we evaluated a risk-induced trait response to a potential predator under an acidified scenario. Using planktonic crab larvae as a prey model, we first analysed their swimming avoidance response to different potential fish predators and conspecific odours. Prey intensified their avoidance response to conspecific and predator odours, but not to all predators, with no maternal effect. Then, larvae were exposed to a responsive predator odour under a predicted acidified scenario. A similar response was observed for both saltwater and predator odour under low pH conditions. Thus, acidification seems to affect the chemosensation of planktonic larvae, leading them to not distinguish between a non-harmful stimulus and a potential predator and potentially bringing a cascade of ecological impairments.

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酸化环境下浮游生物幼虫风险诱导的性状反应发生了改变

不断变化的气候正以不同的方式影响着捕食者与猎物之间的相互作用。大气中不断增加的二氧化碳正在使海洋酸化，并破坏了一些物种的化学感觉。在这里，我们评估了酸化情景下对潜在捕食者的风险诱导性状反应。本文首先以浮游蟹幼体为捕食对象，分析了浮游蟹幼体对不同潜在捕食者和同种气味的回避反应。猎物对同种和捕食者气味的回避反应增强，但对所有捕食者的回避反应增强，没有母性效应。然后，在预测的酸化情景下，将幼虫暴露在有反应的捕食者气味中。在低pH条件下，对咸水和捕食者气味也有类似的反应。因此，酸化似乎影响了浮游生物幼虫的化学感觉，导致它们无法区分无害的刺激和潜在的捕食者，并可能带来一连串的生态损害。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Climate Change Ecology

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