MARE-Marine and Environmental Sciences Centre, Laboratório Marítimo da Guia, Faculdade de Ciências, Universidade de Lisboa, Avenida Nossa Senhora do Cabo 939, 2750-374, Cascais, Portugal.
Department of Collective Behaviour, Max Planck Institute for Animal Behavior, University of Konstanz, Universitätsstraße 10, 78464, Konstanz, Germany.
Anim Cogn. 2021 Jan;24(1):23-32. doi: 10.1007/s10071-020-01411-1. Epub 2020 Jul 10.
Learning can occur through self-experience with the environment, or through the observation of others. The latter allows for adaptive behaviour without trial-and-error, thus maximizing individual fitness. Perhaps given their mostly solitary lifestyle, cuttlefish have seldomly been tested under observational learning scenarios. Here we used a multi-treatment design to disentangle if and how neurally immature cuttlefish Sepia officinalis hatchlings (up to 5 days) incorporate social information into their decision-making, when performing a task where inhibition of predatory behaviour is learned. In the classical social learning treatment using pre-trained demonstrators, observers did not register any predatory behaviour. In the inhibition by social learning treatment, using naïve (or sham) demonstrators, more observers than demonstrators learned the task, while also reaching learning criterion in fewer trials, and performing less number of attacks per trial. Moreover, the performance of demonstrator-observer pairs was highly correlated, indicating that the mere presence of conspecifics did not explain our results by itself. Additionally, observers always reported higher latency time to attack during trials, a trend that was reversed in the positive controls. Lastly, pre-exposure to the stimulus did not improve learning rates. Our findings reveal the vicarious capacity of these invertebrate newborns to learn modulation (inhibition) of predatory behaviour, potentially through emulation (i.e. affordance learning). Despite ongoing changes on neural organization during early ontogeny, cognitively demanding forms of learning are already present in cuttlefish newborns, facilitating behavioural adaptation at a critical life stage, and potentially improving individual fitness in the environment.
学习可以通过个体与环境的自我体验,或者通过观察他人来实现。后者可以使动物在无需试错的情况下获得适应性行为,从而最大限度地提高个体适应性。也许是因为乌贼通常是独居生活,所以在观察学习的场景中很少对其进行测试。在这里,我们使用了一种多处理设计来区分,如果有,乌贼幼体(最多 5 天)在执行抑制捕食行为的任务时,是否以及如何将社交信息纳入其决策过程,从而学习。在使用预训练示教者的经典社会学习处理中,观察者没有记录到任何捕食行为。在通过社会学习进行抑制的处理中,使用天真(或假)示教者,更多的观察者而不是示教者学会了任务,同时也在更少的试验中达到学习标准,并在每次试验中进行更少的攻击次数。此外,示教者-观察者对的表现高度相关,这表明仅仅有同种个体的存在并不能单独解释我们的结果。此外,观察者在试验过程中总是报告更高的攻击潜伏期,这一趋势在阳性对照中发生逆转。最后,对刺激的预先暴露并不能提高学习速度。我们的发现揭示了这些无脊椎动物新生儿通过模仿(即可供性学习)来学习调节(抑制)捕食行为的替代能力。尽管在早期发育过程中神经组织不断变化,但认知要求较高的学习形式已经存在于乌贼幼体中,这有助于在关键生命阶段进行行为适应,并可能提高个体在环境中的适应性。
