Persistent interactive effects of developmental salinity and temperature in Atlantic killifish (Fundulus heteroclitus)

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Madison L. Earhart , Myra Thapar , Tessa S. Blanchard , William S. Bugg , Patricia M. Schulte
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Abstract

Climate change alters multiple abiotic environmental factors in aquatic environments but relatively little is known about their interacting impacts, particularly in developing organisms where these exposures have the potential to cause long-lasting effects. To explore these issues, we exposed developing killifish embryos (Fundulus heteroclitus) to 26 °C or 20 °C and 20 ppt or 3 ppt salinity in a fully-factorial design. After hatching, fish were transferred to common conditions of 20 °C and 20 ppt to assess the potential for persistent developmental plasticity. Warm temperature increased hatching success and decreased hatch time, whereas low salinity negatively affected hatching success, but this was only significant in fish developed at 20 °C. Temperature, salinity, or their interaction affected mRNA levels of genes typically associated with thermal and hypoxia tolerance (hif1a, hsp90b, hsp90a, hsc70, and hsp70.2) across multiple developmental timepoints. These differences were persistent into the juvenile stage, where the fish that developed at 26 °C had higher expression of hif1a, hsp90b, hsp90a, and hsp70.2 than fish developed at 20 °C, and this was particularly evident for the group developed at both high temperature and salinity. There were also long-lasting effects of developmental treatments on body size after four months of rearing under common conditions. Fish developed at low salinity or temperature were larger than fish developed at high temperature or salinity, but there was no interaction between the two factors. These data highlight the complex nature of the developmental effects of interacting stressors which has important implications for predicting the resilience of fishes in the context of climate change.

Abstract Image

大西洋鳉鱼(Fundulus heteroclitus)发育过程中盐度和温度的持续交互影响。
气候变化会改变水生环境中的多种非生物环境因素,但人们对这些因素之间的相互影响知之甚少,尤其是对发育中的生物,因为这些因素有可能造成长期影响。为了探讨这些问题,我们采用全因子设计将发育中的鳉鱼胚胎暴露于 26 °C 或 20 °C 以及 20 ppt 或 3 ppt 的盐度环境中。孵化后,将鱼转移到 20 °C 和 20 ppt 的普通条件下,以评估持续发育可塑性的潜力。温暖的温度提高了孵化成功率并缩短了孵化时间,而低盐度对孵化成功率有负面影响,但这只对在20 °C条件下发育的鱼类有显著影响。温度、盐度或它们之间的相互作用影响了与耐热和耐缺氧相关基因(hif1a、hsp90b、hsp90a、hsc70和hsp70.2)在多个发育时间点的mRNA水平。这些差异持续到幼鱼阶段,在26 °C下发育的鱼类比在20 °C下发育的鱼类有更高的hif1a、hsp90b、hsp90a和hsp70.2表达量,尤其是在高温和高盐度下发育的鱼类。在普通条件下饲养四个月后,发育处理对鱼体大小的影响也是持久的。在低盐度或低温条件下发育的鱼体比在高温或高盐度条件下发育的鱼体大,但这两个因素之间没有相互作用。这些数据凸显了相互作用的压力因素对鱼类发育影响的复杂性,这对预测鱼类在气候变化背景下的恢复能力具有重要意义。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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