Collaborative Research: Sensory Ecology of an Animal Communication Network - Social and Environmental Contexts

合作研究：动物交流网络的感官生态学 - 社会和环境背景

• 批准号: 1026995
• 负责人: George Uetz
• 金额: $ 34.5万
• 依托单位: University of Cincinnati Main Campus
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2010
• 资助国家: 美国
• 起止时间: 2010-09-01 至 2016-08-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1026995&HistoricalAwards=false
• 关键词: Collaborative; Research; Sensory; Ecology; Animal

Animal communication often involves conspicuous and complex signals that are favored by selection because they are preferred by potential mates, but are also exploited by eavesdropping competitor males and predators within a communication network. The evolution of signals is also influenced by the physical environment in which communication takes place. In this study, researchers will investigate how aspects of male signals maximize reception and response of targeted female receivers, and/or reduce exploitation by eavesdroppers. Lab experiments and field studies will address two questions: 1) How does the physical environment of forest floor leaf litter (light spectrum, vegetation background) affect detection and discrimination of male signals by intended receivers (female wolf spiders) and eavesdroppers (male wolf spiders, predatory toads and jumping spiders)? The research uses digital video/audio playback technology to alter male signals and environmental backgrounds (color, visual complexity), to test how aspects of visual signals (motion, background contrast) and/or use of multimodal signals (visual and vibration signals) affect detection and discrimination. 2) How does the social context (male density, prior experience) influence responses to signals by females and male eavesdroppers? Experiments will modify the social environment (male density, encounter experience, mate options available), information content of signals (apparent male quality), and sensory cues (visual, vibration) to determine their influence on females and male eavesdroppers. Taken together, results will allow a better understanding of the function and evolution of animal communication in complex environments. This project will promote teaching, training and learning through collaboration between a research university and a small liberal arts college (Alma College) and a partnership with the Cincinnati Nature Center in multiple ways: involvement of graduate and undergraduate students from both institutions (including under-represented ethnic groups and women) in a research student exchange program, "capstone experience" and "spring term" courses, and public lectures and workshops.

动物交流经常涉及明显和复杂的信号，这些信号有利于选择，因为它们是潜在配偶的首选，但也被窃听通信网络中的竞争对手雄性和捕食者所利用。信号的演变还受到发生通信的物理环境的影响。在这项研究中，研究人员将研究男性信号的各个方面如何最大限度地接收和响应目标女性接收者，和/或减少窃听者的剥削。实验室实验和实地研究将解决两个问题：1)森林枯落物的物理环境(光谱、植被背景)如何影响预期接收者(雌性狼蛛)和窃听者(雄性狼蛛、捕食性蟾蜍和跳蜘蛛)对雄性信号的检测和识别？这项研究使用数字视频/音频回放技术来改变男性信号和环境背景(颜色、视觉复杂性)，以测试视觉信号的各个方面(运动、背景对比度)和/或多模式信号(视觉和振动信号)的使用如何影响检测和识别。2)社会环境(男性密度、先前经验)如何影响女性和男性窃听者对信号的反应？实验将改变社会环境(男性密度、遭遇经验、可用的配偶选择)、信号的信息内容(明显的男性质量)和感官提示(视觉、振动)，以确定它们对女性和男性窃听者的影响。综上所述，这些结果将使我们更好地理解动物交流在复杂环境中的功能和进化。该项目将通过研究型大学和小型文科学院(阿尔马学院)之间的合作以及与辛辛那提自然中心的伙伴关系，以多种方式促进教学、培训和学习：两个机构的研究生和本科生(包括未被充分代表的族裔群体和妇女)参与研究型学生交换计划、“顶峰经验”和“春季学期”课程，以及公开讲座和讲习班。