Multigenerational inspections of environmental thermal perturbations promote metabolic trade-offs in developmental stages of tropical fish*

Wang Min-Chen; Furukawa Fumiya; Wang Ching-WeiPeng Hui-WenLin Ching-ChunLin Tzu-HaoTseng Yung-Che

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Multigenerational inspections of environmental thermal perturbations promote metabolic trade-offs in developmental stages of tropical fish*

机译：Multigenerational inspections of environmental thermal perturbations promote metabolic trade-offs in developmental stages of tropical fish*

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Global warming both reduces global temperature variance and increases the frequency of extreme weather events. In response to these ambient perturbations, animals may be subject to trans- or intra-generational phenotype modifications that help to maintain homeostasis and fitness. Here, we show how temperatureassociated transgenerational plasticity in tilapia affects metabolic trade-offs during developmental stages under a global warming scenario. Tropical tilapia reared at a stable temperature of 27 degrees C for a decade were divided into two temperature-experience groups for four generations of breeding. Each generation of one group was exposed to a single 15 degrees C cold-shock experience during its lifetime (cold-experienced CE group), and the other group was kept stably at 27 degrees C throughout their lifetimes (cold-naive CN group). The offspring at early life stages from the CE and CN tilapia were then assessed by metabolomics-based profiling, and the results implied that parental cold-experience might affect energy provision during reproduction. Furthermore, at early life stages, progeny may be endowed with metabolic traits that help the animals cope with ambient temperature perturbations. This study also applied the feature rescaling and Uniform Manifold Approximation and Projection (UMAP) to visualize metabolic dynamics, and the result could effectively decompose the complex omic-based datasets to represent the energy trade-off variability. For example, the carbohydrate to free amino acid conversion and enhanced compensatory features appeared to be hypothermic-responsive traits. These multigenerational metabolic effects suggest that the tropical ectothermic tilapia may exhibit transgenerational phenotype plasticity, which could optimize energy allocation under ambient temperature challenges. Knowledge about such metabolism-related transgenerational plasticity effects in ectothermic aquatic species may allow us to better predict how adaptive mechanisms will affect fish populations in a climate with narrow temperature variation and frequent extreme weather events.

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来源
《Environmental Pollution》 |2022年第9期|119605.1-119605.11|共11页
作者
Wang Min-Chen; Furukawa Fumiya; Wang Ching-WeiPeng Hui-WenLin Ching-ChunLin Tzu-HaoTseng Yung-Che;
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作者单位

Acad Sin||Acad Sin||Natl Taiwan Normal Univ||Natl Taiwan Normal Univ;

Kitasato Univ;

Acad Sin;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种英语
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关键词
Hypothermic experience; Multigeneration; Energy trade-off; Transgenerational plasticity; Dynamic visualization;

Multigenerational inspections of environmental thermal perturbations promote metabolic trade-offs in developmental stages of tropical fish*

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