Thermomechanical and Morphological Properties of Loligo vulgaris Squid Sucker Ring Teeth.

IF 2.2 3区 生物学 Q1 ZOOLOGY Integrative and Comparative Biology Pub Date : 2024-09-17 DOI:10.1093/icb/icae005
Margot Helft, Zenghao Zhang, Cecelia Kinane, Noah Black, Abdon Pena-Francesch
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Abstract

Climate change is accelerating the increase of temperatures across the planet and resulting in the warming of oceans. Ocean warming threatens the survival of many aquatic species, including squids, and has introduced physiological, behavioral, and developmental changes, as well as physical changes in their biological materials composition, structure, and properties. Here, we characterize and analyze how the structure, morphology, and mechanical properties of European common squid Loligo vulgaris sucker ring teeth (SRT) are affected by temperature. SRT are predatory teethed structures located inside the suction cups of squids that are used to capture prey and are composed of semicrystalline structural proteins with a high modulus (GPa-range). We observed here that this biological material reversibly softens with temperature, undergoing a glass transition at ∼35°C, to a MPa-range modulus. We analyzed the SRT protein nanostructures as a function of temperature, as well as microscale and macroscale morphological changes, to understand their impact in the material properties. The results suggested that even small deviations from their habitat temperatures can result in significant softening of the material (up to 40% in modulus loss). Temperature changes following recent global climate trends and predictions might affect environmental adaptation in squid species and pose emerging survival challenges to adapt to increasing ocean temperatures.

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乌贼环齿的热力学和形态学特性
气候变化正在加速全球气温的上升,并导致海洋变暖。海洋变暖威胁着包括鱿鱼在内的许多水生物种的生存,并带来了生理、行为和发育变化,以及生物材料组成、结构和特性的物理变化。在这里,我们描述并分析了欧洲普通鱿鱼 Loligo vulgaris 吸盘环齿(SRT)的结构、形态和机械性能如何受到温度的影响。SRT是位于鱿鱼吸盘内的捕食性齿结构,用于捕捉猎物,由半结晶结构蛋白组成,具有很高的机械强度(GPa-范围模量)。我们在此观察到,这种生物材料会随着温度的升高而可逆地软化,在 ∼35°C 时发生玻璃化转变,达到 MPa 范围的模量。我们分析了 SRT 蛋白纳米结构与温度的函数关系,以及微观和宏观的形态变化,以了解它们对材料特性的影响。结果表明,即使与它们的栖息温度有微小偏差,也会导致材料显著软化(模量损失高达 40%)。根据最近的全球气候趋势和预测,温度变化可能会影响乌贼物种对环境的适应性,并为适应海洋温度的升高带来新的生存挑战。
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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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