Time-dependent Changes in Shrimp Armor and Escape Kinematics under Ocean Acidification and Warming.

IF 2.2 3区 生物学 Q1 ZOOLOGY Integrative and Comparative Biology Pub Date : 2024-09-17 DOI:10.1093/icb/icae035
Jennifer R A Taylor, Mia Astbury, Elizabeth C Childers, Kanisha Contractor, Xinyu Lin, Jenna Mencarelli, Elisa J Prohroff, Kendra Tapia
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Abstract

Pandalid shrimp use morphological and behavioral defenses against their numerous fish and invertebrate predators. Their rapid tail-flip escape and rigid exoskeleton armor may be sensitive to changes in ocean temperature and carbon chemistry in ways that alter their efficacy and impact mortality. Here we tested the hypothesis that ocean warming and acidification conditions affect the antipredator defenses of Pandalus gurneyi. To test this hypothesis, we exposed shrimp to a combination of pH (8.0, 7.7, 7.5) and temperature (13°C, 17°C) treatments and assessed their tail-flip escape and exoskeleton armor after short-term (2 weeks) and medium-term (3 months) exposure. Results revealed complex effects on escape kinematics, with changes in different variables explained by either pH, temperature, and/or their interaction; decreased pH, for instance, primarily explains reduced acceleration while cold temperature explains increased flexion duration. Carapace mineral content (Ca and Mg) was unaffected, but warmer temperatures primarily drove enhanced mechanical properties (increased hardness and stiffness). No effects were observed in the stiffness and strength of the rostrum. Furthermore, most of the observed effects were temporary, as they occurred after short-term exposure (2 weeks), but disappeared after longer exposure (3 months). This demonstrates that P. gurneyi defenses are affected by short-term exposure to temperature and pH variations; however, they can acclimate to these conditions over time. Nonetheless, changes in the tail-flip escape kinematics may be disadvantageous when trying to flee predators and the enhanced exoskeleton armor could make them more resistant to predation during short periods of environmental change.

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海洋酸化和变暖条件下对虾装甲和逃逸运动学随时间的变化
潘氏对虾利用形态和行为防御众多鱼类和无脊椎动物捕食者。它们快速的甩尾逃逸和坚硬的外骨骼铠甲可能对海洋温度和碳化学的变化很敏感,从而改变其功效并影响死亡率。在这里,我们测试了海洋变暖和酸化条件影响 Pandalus gurneyi 的抗捕食防御能力的假设。为了验证这一假设,我们将对虾暴露于pH值(8.0、7.7、7.5)和温度(13°C、17°C)的组合处理中,并在短期(2周)和中期(3个月)暴露后对其甩尾逃逸和外骨骼铠甲进行了评估。结果表明,pH值、温度和/或它们之间的相互作用对逃逸运动学产生了复杂的影响,不同变量的变化可以用pH值、温度和/或它们之间的相互作用来解释;例如,pH值的降低主要解释了加速度的降低,而低温则解释了屈曲持续时间的增加。甲壳矿物质含量(钙和镁)未受影响,但温度升高主要导致机械性能增强(硬度和刚度增加)。喙的硬度和强度没有受到影响。此外,观察到的大多数影响都是暂时的,因为它们在短期接触(2 周)后出现,但在长期接触(3 个月)后消失。这表明古尼氏栉水母的防御能力会受到短期暴露于温度和酸碱度变化的影响,但随着时间的推移,它们可以适应这些条件。尽管如此,在试图逃离捕食者时,翻尾逃逸运动学的变化可能是不利的,增强的外骨骼铠甲可能使它们在短时间的环境变化中更能抵御捕食。
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来源期刊
CiteScore
4.70
自引率
7.70%
发文量
150
审稿时长
6-12 weeks
期刊介绍: Integrative and Comparative Biology ( ICB ), formerly American Zoologist , is one of the most highly respected and cited journals in the field of biology. The journal''s primary focus is to integrate the varying disciplines in this broad field, while maintaining the highest scientific quality. ICB''s peer-reviewed symposia provide first class syntheses of the top research in a field. ICB also publishes book reviews, reports, and special bulletins.
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