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沿海洋-河口生态渐变带的热可塑性可以使热带鱼类免受升温的影响。

Thermal plasticity over a marine-estuarine ecocline can buffer a tropical fish from warming.

机构信息

Graduate Course in Ecology and Evolution (PPGEE), University of Rio de Janeiro State (UERJ), São Francisco Xavier St, 524 - PHLC/R220, CEP, 20550-900, Rio de Janeiro, RJ, Brazil; Laboratory of Theoretical and Applied Ichthyology (LICTA), Federal University of the State of Rio de Janeiro (UNIRIO), Av. Pasteur, 458 - R314A, CEP, 22290-240, Rio de Janeiro, RJ, Brazil.

CCMAR, Centre of Marine Sciences, University of Algarve, Campus de Gambelas, 8005-139, Faro, Portugal; MARE - Marine and Environmental Sciences Centre, Universidade de Lisboa, Faculdade de Ciências, Campo Grande, 1749-016, Lisboa, Portugal.

出版信息

Mar Environ Res. 2023 Jun;188:105998. doi: 10.1016/j.marenvres.2023.105998. Epub 2023 Apr 18.

Abstract

Intraspecific variation in thermal tolerance can favor species persistence in a warmer ocean, but is often overlooked in fine-scale studies. Nonetheless, local drivers (e.g. salinity) interact with temperature to shape species' thermal response. Here, we acclimated juveniles of Brazilian silversides Atherinella brasiliensis captured at the limits of a marine-estuarine ecocline under reciprocal-cross conditions, to test for phenotypic plasticity in heat tolerance. We also tested whether silversides acclimated to temperatures predicted for 2100 (+3-4.5 °C). Fish in warm-brackish waters showed higher CTMax (Critical Thermal Maximum) than those in cold-marine conditions, regardless of their origin. Silversides' CTMax reached up to 40.6 °C, but it did not increase after exposure to temperatures predicted for 2100. Lack of acclimation response suggests that silversides heat tolerance has reached a "ceiling", despite thermal plasticity. Our findings show that fine-scale environmental heterogeneity can promote phenotypic plasticity for tropical species, reducing the risk of short-term extirpation.

摘要

种内耐热性变异可以有利于物种在温暖的海洋中生存,但在精细尺度的研究中往往被忽视。尽管如此,局部驱动因素(例如盐度)与温度相互作用,塑造了物种的热响应。在这里,我们使在海洋-河口生态梯度极限处捕获的巴西银汉鱼 Atherinella brasiliensis 的幼鱼在相互交叉的条件下适应,以测试耐热性的表型可塑性。我们还测试了银汉鱼是否适应 2100 年预测的温度(升高 3-4.5°C)。无论其起源如何,处于温暖的半咸水水域的银汉鱼比处于寒冷的海洋条件下的银汉鱼具有更高的 CTMax(临界热最大值)。银汉鱼的 CTMax 达到 40.6°C,但在暴露于 2100 年预测的温度后并未增加。缺乏适应反应表明,尽管具有热可塑性,但银汉鱼的耐热性已经达到了“上限”。我们的研究结果表明,精细尺度的环境异质性可以促进热带物种的表型可塑性,降低短期灭绝的风险。

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