如何在(幼年)食人鱼攻击中幸存:评估捕食者性能的综合方法。

IF 2.2 4区 生物学 Q2 BIOLOGY
Integrative Organismal Biology Pub Date : 2023-09-01 eCollection Date: 2023-01-01 DOI:10.1093/iob/obad032
A Lowe, M A Kolmann, E W M Paig-Tran
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引用次数: 0

摘要

图:Cory猫面板图咬合力测量设备和压痕设备的绘制纳豆锥虫的颌骨肌肉形态和颅骨解剖图在喂食试验期间,沿着三线珊瑚的不同身体区域穿刺前,纳豆锥鱼被咬次数的方框图结果绘制了带有攻击频率和平均咬次数的颜色编码的三线珊瑚,直到纳豆锥虫穿刺平均自愿幼年纳豆锥虫咬合力到标准长度的方框图纳豆锥锥虫咬合力到下颌内收肌质量、标准长度、,和身体质量纳豆Pygocentus natterer的自愿叮咬到约束叮咬的普通最小二乘回归完整和去除的三线珊瑚鳞片的压痕测试面板三线珊瑚身体区域的压痕测试小组。剧情简介:捕食者和猎物之间存在着一场进化军备竞赛。在水生环境中,掠食性鱼类通常使用锋利的牙齿、有力的叮咬和/或流线型的身体来帮助快速有效地捕获猎物。相反,猎物通常具有抗捕食者的适应能力,包括:鳞状盔甲、尖刺和/或有毒分泌物。这项研究的重点是有甲三头科里鲶鱼(Corydoras trilineatus)和幼年红腹食人鱼(Pygocentrus nattereri)之间的捕食者-猎物相互作用。具体来说,我们研究了柯基鲶鱼甲对一系列自然和理论上的食人鱼咬合力的抵抗力,以及这种保护作用在柯基多拉捕食者攻击中转化为生存的频率。我们测量了纳特勒P.nattereri的咬合力和颌骨功能形态,三线藻防御盾片的刺穿阻力,以及两者之间的原位捕食相互作用。幼年纳特勒P.nattereri的下颌收肌很强壮,平均咬合力为1.03 N,最大咬合力为9.71 N,但其猎物C.trilineatus在确认的咬伤中存活了37%,没有任何损伤。C.trilineatus的盔甲在被P.nattereri刺穿之前平均能承受九次叮咬。只有当食人鱼咬到身体的无刺区域时,捕食才成功,这些区域位于顶盖开口和尾脚。这项研究使用了一种综合方法,通过评估形态和进食行为之间的联系来了解捕食者-猎物相互作用的结果。我们发现,幼年纳特勒P.nattereri很少使用最大咬合力,其净捕食成功率与其他成年脊椎动物不相上下。相反,C.trilineatus通过将捕食者的攻击定向于它们有弹性的轴向盔甲和行为策略,成功地避免了捕食,这些策略降低了捕食者在身体盔甲较少的区域咬人的能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

How to Survive a (Juvenile) Piranha Attack: An Integrative Approach to Evaluating Predator Performance.

How to Survive a (Juvenile) Piranha Attack: An Integrative Approach to Evaluating Predator Performance.

How to Survive a (Juvenile) Piranha Attack: An Integrative Approach to Evaluating Predator Performance.

How to Survive a (Juvenile) Piranha Attack: An Integrative Approach to Evaluating Predator Performance.

Figures: Cory cat panel figureDrawing of bite force measuring equipment and indentation rig Pygocentrus nattereri jaw muscle morphology and skull anatomyBox plot grid of number of Pygocentrus nattereri bites before puncture along different body regions of Corydoras trilineatus during feeding trials resultsDrawing of color-coded Corydoras trilineatus with attack frequencies and average bites until puncture by Pygocentrus nattereriBox plot of average voluntary juvenile Pygocentrus nattereri bite forces to standard lengthPanel of linear ordinary least-squares regressions of Pygocentrus nattereri bite force to adductor mandibulae mass, standard length, and body massOrdinary least-squares regressions of voluntary bites to restrained bites of Pygocentrus nattereriPanel of indentation tests for intact and removed Corydoras trilineatus scutesPanel of indentation tests for Corydoras trilineatus body region.

Synopsis: There is an evolutionary arms race between predators and prey. In aquatic environments, predatory fishes often use sharp teeth, powerful bites, and/or streamlined bodies to help capture their prey quickly and efficiently. Conversely, prey are often equipped with antipredator adaptations including: scaly armor, sharp spines, and/or toxic secretions. This study focused on the predator-prey interactions between the armored threestripe cory catfish (Corydoras trilineatus) and juvenile red-bellied piranha (Pygocentrus nattereri). Specifically, we investigated how resistant cory catfish armor is to a range of natural and theoretical piranha bite forces and how often this protection translated to survival from predator attacks by Corydoras. We measured the bite force and jaw functional morphology of P. nattereri, the puncture resistance of defensive scutes in C. trilineatus, and the in situ predatory interactions between the two. The adductor mandibulae muscle in juvenile P. nattereri is robust and delivers an average bite force of 1.03 N and maximum bite force of 9.71 N, yet its prey, C. trilineatus, survived 37% of confirmed bites without any damage. The C. trilineatus armor withstood an average of nine bites before puncture by P. nattereri. Predation was successful only when piranhas bit unarmored areas of the body, at the opercular opening and at the caudal peduncle. This study used an integrative approach to understand the outcomes of predator-prey interactions by evaluating the link between morphology and feeding behavior. We found that juvenile P. nattereri rarely used a maximal bite force and displayed a net predation success rate on par with other adult vertebrates. Conversely, C. trilineatus successfully avoided predation by orienting predator attacks toward their resilient, axial armor and behavioral strategies that reduced the predator's ability to bite in less armored regions of the body.

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CiteScore
3.70
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