Convergence on reduced aggression through shared behavioral traits in multiple populations of Astyanax mexicanus.

Roberto Rodriguez-Morales, Paola Gonzalez-Lerma, Anders Yuiska, Ji Heon Han, Yolanda Guerra, Lina Crisostomo, Alex C Keene, Erik R Duboue, Johanna E Kowalko
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Abstract

Background: Aggression is observed across the animal kingdom, and benefits animals in a number of ways to increase fitness and promote survival. While aggressive behaviors vary widely across populations and can evolve as an adaptation to a particular environment, the complexity of aggressive behaviors presents a challenge to studying the evolution of aggression. The Mexican tetra, Astyanax mexicanus exists as an aggressive river-dwelling surface form and multiple populations of a blind cave form, some of which exhibit reduced aggression, providing the opportunity to investigate how evolution shapes aggressive behaviors.

Results: To define how aggressive behaviors evolve, we performed a high-resolution analysis of multiple social behaviors that occur during aggressive interactions in A. mexicanus. We found that many of the aggression-associated behaviors observed in surface-surface aggressive encounters were reduced or lost in Pachón cavefish. Interestingly, one behavior, circling, was observed more often in cavefish, suggesting evolution of a shift in the types of social behaviors exhibited by cavefish. Further, detailed analysis revealed substantive differences in aggression-related sub-behaviors in independently evolved cavefish populations, suggesting independent evolution of reduced aggression between cave populations. We found that many aggressive behaviors are still present when surface fish fight in the dark, suggesting that these reductions in aggression-associated and escape-associated behaviors in cavefish are likely independent of loss of vision in this species. Further, levels of aggression within populations were largely independent of type of opponent (cave vs. surface) or individual stress levels, measured through quantifying stress-like behaviors, suggesting these behaviors are hardwired and not reflective of population-specific changes in other cave-evolved traits.

Conclusion: These results reveal that loss of aggression in cavefish evolved through the loss of multiple aggression-associated behaviors and raise the possibility that independent genetic mechanisms underlie changes in each behavior within populations and across populations. Taken together, these findings reveal the complexity of evolution of social behaviors and establish A. mexicanus as a model for investigating the evolutionary and genetic basis of aggressive behavior.

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通过墨西哥黄蜂(Astyanax mexicanus)多个种群的共同行为特征减少攻击性的趋同性。
背景:攻击行为在动物界随处可见,它通过多种方式提高动物的适应能力并促进动物的生存。虽然攻击行为在不同种群中差异很大,而且可能是为了适应特定环境而进化的,但攻击行为的复杂性给研究攻击行为的进化带来了挑战。墨西哥四大家鱼(Astyanax mexicanus)具有攻击性的河居表面形态和多个盲洞形态的种群,其中一些种群的攻击性有所降低,这为研究攻击行为的进化过程提供了机会:为了确定攻击行为是如何进化的,我们对墨西哥蛙在攻击性互动中出现的多种社会行为进行了高分辨率分析。我们发现,在表层与表层的攻击性相遇中观察到的许多攻击性相关行为在帕孔洞穴鱼中减少或消失了。有趣的是,在洞穴鱼身上观察到的一种行为(绕圈)更为常见,这表明洞穴鱼的社会行为类型发生了变化。此外,详细的分析表明,在独立进化的洞穴鱼种群中,与攻击相关的子行为存在实质性差异,这表明洞穴鱼种群之间的攻击行为减少是独立进化的结果。我们发现,当水面鱼类在黑暗中搏斗时,许多攻击行为仍然存在,这表明洞穴鱼攻击相关行为和逃逸相关行为的减少很可能与该物种丧失视觉无关。此外,种群内的攻击性水平在很大程度上与对手类型(洞穴与水面)或个体压力水平(通过量化类似压力的行为来衡量)无关,这表明这些行为是硬性的,并不反映其他洞穴进化特征的种群特异性变化:这些结果表明,洞穴鱼攻击性的丧失是通过多种攻击相关行为的丧失演变而来的,并提出了一种可能性,即在种群内和种群间,每种行为的变化都是由独立的遗传机制引起的。总之,这些发现揭示了社会行为进化的复杂性,并将墨西哥穴居鱼作为研究攻击行为进化和遗传基础的模型。
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