在一种原始的群居性蜜蜂中，社会等级之间的大脑差异在群体形成之前就已存在。

Brain differences between social castes precede group formation in a primitively eusocial bee.

作者信息

Pahlke Sarah, Jaumann Sarah, Seid Marc A, Smith Adam R

机构信息

George Washington University, Washington, DC, USA.

Program in Neurobiology, University of Scranton, Scranton, PA, USA.

出版信息

Naturwissenschaften. 2019 Aug 27;106(9-10):49. doi: 10.1007/s00114-019-1644-7.

DOI:10.1007/s00114-019-1644-7

PMID:31456004

Abstract

Social interactions may shape brain development. In primitively eusocial insects, the mushroom body (MB), an area of the brain associated with sensory integration and learning, is larger in queens than in workers. This may reflect a strategy of neural investment in queens or it may be a plastic response to social interactions in the nest. Here, we show that nest foundresses-the reproductive females who will become queens but are solitary until their first workers are born-have larger MBs than workers in the primitively eusocial sweat bee Augochlorella aurata. Whole brain size and optic lobe size do not differ between the two groups, but foundresses also have larger antennal lobes than workers. This shows that increased neural investment in MBs precedes social group formation. Larger MBs among foundresses may reflect the increased larval nutrition provisioned to future queens and the lack of social aggression from a dominant queen upon adult emergence.

摘要

社会互动可能会塑造大脑发育。在原始真社会性昆虫中，蘑菇体（MB）是大脑中与感觉整合和学习相关的区域，蚁后的蘑菇体比工蚁的更大。这可能反映了蚁后在神经方面的投入策略，也可能是对巢穴中社会互动的一种可塑性反应。在这里，我们表明，在原始真社会性汗蜂奥古绿蜂中，筑巢雌蜂（即未来会成为蚁后的生殖雌蜂，但在第一批工蜂出生之前是独居的）的蘑菇体比工蜂的更大。两组之间的全脑大小和视叶大小没有差异，但筑巢雌蜂的触角叶也比工蜂的更大。这表明在社会群体形成之前，对蘑菇体的神经投入就已经增加。筑巢雌蜂中较大的蘑菇体可能反映了为未来蚁后提供的幼虫营养增加，以及成年后缺乏来自占主导地位的蚁后的社会攻击。

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在一种原始的群居性蜜蜂中，社会等级之间的大脑差异在群体形成之前就已存在。

Brain differences between social castes precede group formation in a primitively eusocial bee.

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