Collective exploitation of large prey by group foraging shapes aggregation and fitness of cnidarian polyps

IF 2.1 3区 生物学 Q2 MARINE & FRESHWATER BIOLOGY
Chiara Gregorin, Tomás Vega Fernández, Daniela Spano, Stefano Gridelli, Federico Domenichelli, Giulia Furfaro, Luigi Musco, Stefania Puce
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Abstract

Group living is widespread and beneficial to metazoans. It improves protection and survival opportunities, reinforcing interspecific competitiveness. Benthic cnidarians often colonize large surfaces. Evidence of collective capture and exploitation of large prey by small, clumped polyps suggests that aggregation is functional to access food resources hardly achievable by isolated individuals. In turn, the chance to catch large prey may represents a driver of aggregation in polyps, whether beneficial to their fitness. Here, the effects of group foraging on aggregation, asexual reproduction, and growth rates of Aurelia coerulea von Lendenfeld 1884 polyps were experimentally tested by providing them with either small or large prey, or a mix of both to simulate the co-occurrence of preys at sea. As expected, some polyps were not able to reach the large prey. Hence, the population was a posteriori divided into group-foragers and solitary-feeders. In general, the large prey diet resulted in higher population fitness and when simultaneously supplied with the small prey represented an energetic booster resulting beneficial for all group-members. The decrease of interindividual distances was reported among group-foragers, that converged towards each other. Cnidarians are basal in metazoan evolution, and the comprehension of their collective foraging behavior, as well as the processes leading to the selective feature driving them to forage in group or not, may be essential to better understand the evolution and spread of social foraging in animals. Moreover, the access to large prey by sessile polyps of Aurelia coerulea could be pivotal in determining the increase in abundance of adult bloom-forming medusae.

Abstract Image

群体觅食对大型猎物的集体利用塑造了刺丝胞动物的聚合力和适应力
群居生活非常普遍,而且对后生动物有益。群居提高了保护和生存机会,加强了种间竞争。底栖刺胞动物经常在大表面上定居。有证据表明,聚集在一起的小珊瑚虫能集体捕捉和利用大型猎物,这表明聚集在一起的珊瑚虫具有获取孤立个体难以获得的食物资源的功能。反过来,捕获大型猎物的机会也可能是多角体聚集的驱动力,这是否对它们的健康有益。在这里,我们通过向 Aurelia coerulea von Lendenfeld 1884 多孔虫提供小型或大型猎物,或两者混合以模拟猎物在海洋中同时出现的情况,对群体觅食对多孔虫的聚集、无性繁殖和生长率的影响进行了实验测试。不出所料,一些珊瑚虫无法捕捉到大型猎物。因此,该种群后被分为群食者和独食者。一般来说,以大型猎物为食的种群体质较高,如果同时以小型猎物为食,则会增加能量,对所有群体成员都有利。据报道,群食者的个体间距离缩短,彼此趋同。甲壳类动物是后生动物进化的基础,了解它们的集体觅食行为,以及导致驱使它们集体觅食或不集体觅食的选择性特征的过程,对于更好地理解动物中社会性觅食的进化和传播可能至关重要。此外,Aurelia coerulea 的无柄息肉对大型猎物的获取可能是决定成花髓鞘数量增加的关键因素。
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来源期刊
Marine Biology
Marine Biology 生物-海洋与淡水生物学
CiteScore
4.20
自引率
8.30%
发文量
133
审稿时长
3-6 weeks
期刊介绍: Marine Biology publishes original and internationally significant contributions from all fields of marine biology. Special emphasis is given to articles which promote the understanding of life in the sea, organism-environment interactions, interactions between organisms, and the functioning of the marine biosphere.
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