Trapline foraging by nectar-collecting hornets

IF 1.9 2区生物学 Q3 BEHAVIORAL SCIENCES

Animal Cognition Pub Date : 2025-04-19 DOI:10.1007/s10071-025-01952-3

Mathilde Lacombrade, Kristine Abenis, Charlotte Doussot, Loïc Goulefert, Kenji Nanba, Jean-Marc Bonzom, Mathieu Lihoreau

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引用次数: 0

Abstract

Many bees, butterflies, birds, bats and primates are known to forage on familiar plant resources by visiting them in a stable and repeatable order called “traplines”. Here we report the existence of trapline foraging in wasps, the Japanese yellow hornets. We monitored the movement patterns of wild individually marked hornets collecting sucrose solution on four artificial flowers placed in their home range. After thirty consecutive foraging bouts, all the hornets had developed a repeatable flower visitation sequence. Using two different arrays of flowers, we also show that hornets consistently increased their foraging efficiency with experience. However, they did not always use the shortest path to visit all the flowers, often favoring movements between nearest-neighbour options rather than minimizing overall travel distance. Our study thus adds nectar-foraging wasps to the list of animals that exhibit trapline foraging, thereby significantly broadening the scope for comparative research in multi-destination route learning and memory.

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采蜜大黄蜂用绳索觅食

众所周知，许多蜜蜂、蝴蝶、鸟类、蝙蝠和灵长类动物会以一种稳定且可重复的顺序（称为“绳线”）来寻找熟悉的植物资源。在这里，我们报告了在黄蜂，日本黄黄蜂中存在的钩线觅食。我们监测了单独标记的野生大黄蜂在其栖息地放置的四朵人造花上收集蔗糖溶液的运动模式。在连续30次觅食后，所有的大黄蜂都形成了一个可重复的访花序列。通过使用两种不同的花朵排列，我们还表明，随着经验的积累，大黄蜂的觅食效率不断提高。然而，他们并不总是使用最短的路径来访问所有的花，通常倾向于在最近的选择之间移动，而不是最小化总旅行距离。因此，我们的研究将采蜜黄蜂添加到展示直线觅食的动物列表中，从而显着拓宽了多目的地路线学习和记忆的比较研究范围。

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来源期刊

Animal Cognition 生物-动物学

CiteScore

4.50

自引率

18.50%

发文量

125

审稿时长

4-8 weeks

期刊介绍： Animal Cognition is an interdisciplinary journal offering current research from many disciplines (ethology, behavioral ecology, animal behavior and learning, cognitive sciences, comparative psychology and evolutionary psychology) on all aspects of animal (and human) cognition in an evolutionary framework. Animal Cognition publishes original empirical and theoretical work, reviews, methods papers, short communications and correspondence on the mechanisms and evolution of biologically rooted cognitive-intellectual structures. The journal explores animal time perception and use; causality detection; innate reaction patterns and innate bases of learning; numerical competence and frequency expectancies; symbol use; communication; problem solving, animal thinking and use of tools, and the modularity of the mind.