Collaborative research: Comparative-developmental analysis of brain architecture in social wasps

合作研究：社会黄蜂大脑结构的比较发育分析

• 批准号: 1209072
• 负责人: Sean O'Donnell
• 金额: $ 16.92万
• 依托单位: Drexel University
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2011
• 资助国家: 美国
• 起止时间: 2011-11-01 至 2015-08-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1209072&HistoricalAwards=false
• 关键词: Collaborative; research; Comparative; developmental; analysis

The evolution of social behavior can affect brain size: social species of animals tend to have larger brains than their solitary relatives. The goal of this project is to further our understanding of how changes in species' social structure can affect the architecture of their brains. The research will use social insects - paper wasps - as subjects. All species of paper wasps are social, but they show a wide range of colony sizes, they are diverse in social complexity, and they differ in nest architecture. Different anatomical regions of the wasp brain serve distinct cognitive functions - some regions are dedicated to vision, others to smell and touch. The researchers will measure the sizes (volumes) of these brain regions as a way of estimating how much tissue is invested in each region, and they will test whether the details of a species' social behavior (for example, large versus small colonies) predict the relative size of each brain region. The researchers will use information on how wasp species are related to each other to trace the evolution of associations between brain structure and behavior. By comparing selected species of paper wasps with different behavioral characteristics, the researchers will determine which elements of social behavior have impacted the investment in each brain region. The project will also explore how evolutionary changes in the immature development of the wasp brain have led to the observed patterns of adult brain region investment. The research will further our understanding of how changes in social complexity can influence brain architecture, and the findings will indicate which social cognitive challenges can affect the amount of investment in different brain regions. It will also contribute to our understanding of how adult brain architecture is generated by the developmental processes that occur during immature stages. The project includes employment and training opportunities for graduate and undergraduate students at two universities, and it will foster collaboration across universities. It also involves both local elementary school and international outreach and education efforts.

社会行为的进化会影响大脑的大小：社会性动物的大脑往往比独居动物的大脑更大。该项目的目标是进一步了解物种社会结构的变化如何影响其大脑结构。这项研究将使用社会昆虫-纸黄蜂-作为研究对象。所有种类的纸黄蜂都是社会性的，但它们表现出广泛的群体大小，它们在社会复杂性上是多样的，它们在巢建筑上也是不同的。黄蜂大脑的不同解剖区域具有不同的认知功能-一些区域专门用于视觉，其他区域用于嗅觉和触觉。研究人员将测量这些大脑区域的大小（体积），以此来估计每个区域投入了多少组织，他们将测试物种社会行为的细节（例如，大与小群体）是否预测每个大脑区域的相对大小。研究人员将利用黄蜂物种如何相互关联的信息来追踪大脑结构和行为之间关联的进化。通过比较具有不同行为特征的纸黄蜂，研究人员将确定哪些社会行为因素影响了每个大脑区域的投资。该项目还将探索黄蜂大脑不成熟发育的进化变化如何导致观察到的成年大脑区域投资模式。这项研究将进一步了解社会复杂性的变化如何影响大脑结构，研究结果将表明哪些社会认知挑战会影响不同大脑区域的投资量。这也将有助于我们理解成年人的大脑结构是如何产生的发育过程中发生在不成熟的阶段。该项目包括为两所大学的研究生和本科生提供就业和培训机会，并将促进大学间的合作。它还涉及当地小学和国际外联和教育工作。