胚胎孵化温度对白鲟后续生长和耐热性的影响

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-04-01 DOI:10.1016/j.jtherbio.2024.103860
Katherine Cheung , Martha J. Nelson-Flower , Steve McAdam , Colin J. Brauner
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引用次数: 0

摘要

发育早期经历的环境变化会导致持续的表型改变,即所谓的携带效应。这种效应增加了白鲟(Acipenser transmontanus)等濒危物种的担忧,特别是考虑到气候变化导致的预期热变化。我们评估了胚胎发育期间的温度如何影响生理参数,如幼体和早期幼体的生长以及热耐受性。在12 °C(该种群的自然产卵温度)、15 °C(孵化场孵化温度)和18 °C(全球气候变化导致河流温度可能升高)的不同环境温度(Te)下孵化内卡科河白鲟胚胎。孵化后,鱼类在普通的 15 °C 温度下饲养 80 天(孵化后 80 天)。采用临界最大热量法(CTmax)对每种温度处理下的个体进行耐热性测试、安乐死和测量。从 13 到 80 dph,即从开始外源喂养到过渡到幼鱼的这段时间内,每隔一段时间对鱼类进行一次检查。我们发现高胚胎Te在短期内对耐热性和生长都有影响。在18 °C下发育的鱼类在开始外源摄食期间的耐热性最低。然而,早期幼鱼的耐热性差异较小,不太可能对长期生态产生影响。在18 °C下发育的鱼类在观察期内体型最小,这表明在胚胎发育期间,环境温度的升高可能会使鱼类的生存付出代价。这项研究为了解鱼类发育的关键时期提供了一个窗口,在这一时期,鱼类特别容易受到气候变化的影响,研究结果表明,孵化期间较低的温度(12 °C)对这一鱼类种群来说是最适宜的。研究结果可为环境管理者提供信息,帮助他们制定最佳策略,保护目前白鲟在其分布范围内的种群。
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The carryover effects of embryonic incubation temperature on subsequent growth and thermal tolerance in white sturgeon

Environmental variation experienced during early periods of development can lead to persistent phenotypic alteration, known as carryover effects. Such effects increase concern for threatened or endangered species such as the white sturgeon (Acipenser transmontanus), particularly considering expected thermal changes due to climate change. We evaluated how temperature during embryonic development affects physiological parameters such as larval and early juvenile growth and thermal tolerance. Nechako River white sturgeon embryos were incubated at different environmental temperatures (Te) of 12 °C (the natural spawning temperature of this population), 15 °C (the hatchery incubation temperature), and 18 °C (representing potential increases in river temperatures given global climate change). After hatch, fish were reared at a common 15 °C for 80 days post-hatch (dph). Individuals from each temperature treatment were tested for thermal tolerance using the critical thermal maximum method (CTmax), euthanized, and measured. Fish were examined at regular intervals from 13 to 80 dph, which bridged the time from the start of exogenous feeding through the transition into early juveniles. We found carryover effects of high embryonic Te in the short term for both thermal tolerance and growth. Fish that developed at 18 °C had the lowest thermal tolerance during the start of exogenous feeding. However, differences in thermal tolerance were small for early juveniles and were unlikely to be ecologically relevant in the longer term. Fish that developed at 18 °C were smallest over the observation period, indicating a possible cost for survival from increasing environmental temperatures during embryonic development. This research represents a window into a critical period of development during which fish are particularly vulnerable to climatic variation, and shows that cooler temperatures (12 °C) during incubation are optimal for this population. The results can inform environmental managers on the best strategies to help conserve current white sturgeon populations across their range.

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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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