A Method for Studying Social Signal Learning of the Waggle Dance in Honey Bees.

Shihao Dong, Tao Lin, James C Nieh, Ken Tan
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Abstract

Honey bees use a complex form of spatial referential communication. Their waggle dance communicates to nestmates the direction, distance, and quality of a resource by encoding celestial cues, retinal optic flow, and relative food value into motion and sound within the nest. This protocol was developed to investigate the potential for social learning of this waggle dance. Using this protocol, we showed that correct waggle dancing requires social learning. Bees (Apis mellifera) that did not follow any dances before they first danced produced significantly more disordered dances, with larger waggle angle divergence errors, and encoded distance incorrectly. The former deficits improved with experience, but distance encoding was set for life. The first dances of bees that could follow other dancers had none of these impairments. Social learning, therefore, shapes honey bee signaling, as it does communication in human infants, birds, and multiple other vertebrate species. However, much remains to be learned about insects' social learning, and this protocol will help to address knowledge gaps in the understanding of sophisticated social signal learning, particularly in understanding the molecular bases for such learning. Key features It was unclear if honey bees (Apis mellifera) could improve their waggle dance by following experienced dancers before they first waggle dance. Honey bees perform their first waggle dances with more errors if they cannot follow experienced waggle dancers first. Directional and disorder errors improved over time, but distance error was maintained. Bees in experimental colonies continued to communicate longer distances than control bees. Dancing correctly, with less directional error and disorder, requires social learning. Distance encoding in the honey bee dance is largely genetic but may also include a component of cultural transmission.

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蜜蜂摇摆舞社会信号学习的研究方法。
蜜蜂使用一种复杂的空间参照交流方式。它们的摇摆舞通过将天体信号、视网膜光流和相对食物价值编码为巢内的运动和声音,向巢内的同伴传达方向、距离和资源的质量。该协议的制定是为了调查这种摇摆舞的社会学习潜力。使用这个协议,我们证明了正确的摇摆舞需要社会学习。蜜蜂(Apis mellifera)在第一次跳舞之前没有跟随任何舞蹈,产生的舞蹈明显更混乱,摆动角度发散误差更大,距离编码不正确。前一种缺陷随着经验的增加而改善,但距离编码是终生的。第一批能跟随其他舞者跳舞的蜜蜂没有这些缺陷。因此,社会学习塑造了蜜蜂的信号,就像人类婴儿、鸟类和其他多种脊椎动物的交流一样。然而,关于昆虫的社会学习仍有许多有待了解的地方,该协议将有助于解决在理解复杂的社会信号学习方面的知识空白,特别是在理解这种学习的分子基础方面。目前还不清楚蜜蜂(Apis mellifera)是否能在第一次摇摆舞之前通过跟随有经验的舞者来提高摇摆舞的水平。如果蜜蜂不能跟随有经验的摇摆舞者,那么它们在第一次跳摇摆舞时会犯更多的错误。方向和无序误差随着时间的推移而改善,但距离误差保持不变。实验群体中的蜜蜂比对照组的蜜蜂交流距离更长。正确地跳舞,减少方向错误和混乱,需要社会学习。蜜蜂舞蹈中的距离编码主要是遗传的,但也可能包括文化传播的成分。
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