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研究生: 王敏真
Min-Chen Wang
論文名稱: 系統性研究魚類面臨溫度波動的能量調適策略
A systemic biological study on adaptive energy provision in fish under temperature variability challenges
指導教授: 曾庸哲
Tseng, Yung-Che
學位類別: 博士
Doctor
系所名稱: 生命科學系
Department of Life Science
論文出版年: 2021
畢業學年度: 109
語文別: 英文
論文頁數: 158
英文關鍵詞: energy allocation, cold resistance, metabolomic, transcriptomic, adaptive plasticity
DOI URL: http://doi.org/10.6345/NTNU202100222
論文種類: 學術論文
相關次數: 點閱:142下載:0
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  • The various seasonal thermal experience is a significant factor for inducing organisms to evolve adaptive strategies in different niches. However, the warming effects in winter season caused by climate change would decrease the thermal fluctuation and decreased thermal variability level. However, sporadic occurrences of extremely low temperatures evoked by the invasive negative Arctic Oscillation always cause profound harm to local biota, including significant damage to the aquaculture species. In contrast to endothermic mammals, water temperature has been described as the “abiotic master factor” for ectothermic fishes that is essential to performance and survival. Therefore, the effect of thermal experience has ignited a surge of scientific interest from ecologists, economists and physiologists. The present study hypothesizes that the ectothermic tropical fish would develop different adaptive energy allocation mechanisms with different thermal experience, affecting respective cold-tolerance capacities. In fish life history, basic maintenance, energy fuel storage, reproduction, and development are essential energy allocated elements. In the first and second chapters, cold-experienced (CE) and cold-naïve (CN) strains of tropical tilapia were reared to examine the transgenerational effects of thermal experience on these essential elements. The results show that the adaptive metabolic trade-off provision underlying transgenerational plasticity could meet energy demands in subsequent generations that could fit the climate variability hypothesis (CVH), which infers a positive relationship between tolerance to ambient perturbations and the level of climate variability. The third chapter further attempts to adjust the metabolic processes of fish according to those findings from the first and second chapters. Consequently, these results infer that the practical supply of the carboxyl-containing metabolites (CCMs) or altering the gluconeogenesis process will benefit the nutritional demands in fish under cold stress. These systematic works provide fundamental insights into the environmental biology of a tropical teleost with substantial implications for our understanding of the potential associations between epigenetic regulations and adaptive energy trade-off features in the future aquatic system.

    Background 1 Chapter 1. Adaptive metabolic provision in a thermostabilized system: transgenerational trade-off implications from tropical tilapia 5 Chapter 2. Thermal effects on transgenerational trade-offs: adaptive metabolism and ontogenetic features in early life stages of tropical tilapia 55 Chapter 3. Resveratrol induces expression of metabolic and antioxidant machinery and protects tilapia under cold stress 98 Conclusions 132 References 134 Appendix 155

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