Functional diversity in extreme marine environments

极端海洋环境中的功能多样性

• 批准号: RGPIN-2016-03805
• 负责人: Tunnicliffe, Verena
• 金额: $ 2.7万
• 依托单位: University of Victoria
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2018
• 资助国家: 加拿大
• 起止时间: 2018-01-01 至 2019-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=667279
• 关键词: Functional; diversity; extreme; marine; environments

There is growing concern over anthropogenic impacts on the deep ocean, home of the world's largest and most poorly known ecosystems. This programme will develop and apply functional ecology approaches in two ecosystems to assess responses to human activities and global changes. Functional diversity is a useful tool for comparing communities in different habitats and regions. The animals endemic to hydrothermal vents on tectonic spreading ridges are adapted to extreme habitat conditions. A Canadian company plans to start deep-sea mining in 2017 in the South Pacific targeting the metal-rich chimney deposits that form much of the habitat at long-lived sites. My work has amassed decades of data on hydrothermal vent diversity and animal characteristics, especially off the Canadian coast. Our work will develop functional trait approaches to compare abundance-based diversity indices at vent sites along the Juan de Fuca/Explorer Ridges. With funded cruises at vent sites off Tonga (one a mining prospect), we will use the refined methods to examine functional diversity between high versus low “quality” mine targets. A third field site lies in another biogeographic region (Mariana) where the same techniques will support a pan-Pacific functional diversity comparison. Studies on key species, particularly the large animals that host symbionts, will extend known functional traits and facilitate inter-region comparisons. We collaborate with other researchers to amass data and test analyses; it will be the first to make a full functional assessment of the hot vent system with an open access trait database. *** One important objective is to assess the functional methods in stressed communities. We will also use another rich dataset to test the same approaches in a different low oxygen/high sulphide setting: a hypoxic basin. Here, intolerant species are at a metabolic disadvantage as hypoxia rises and habitat compresses. We will examine the transition of functional and diversity components of the epibenthos and seek break-points where functions change or disappear. Despite the greater threat of expanding low oxygen/low pH zones on the west coast, relatively little work is available on northeast Pacific species to predict responses to the changes brought by a warming ocean. *** Overall, the programme will help marine ecologists to apply functional approaches by expanding trait databases and testing analytical methods. A better understanding of functional losses in stressed habitats will support selection of management tools. Vent work will contribute to an international effort to develop methods for assessing likely mining effects, particularly in the context of preserving functional and connectivity components in these fragmented habitats. **

人们越来越关注人为对深海的影响，深海是世界上最大且最鲜为人知的生态系统的所在地。 该计划将在两个生态系统中开发和应用功能生态学方法，以评估对人类活动和全球变化的反应。 功能多样性是比较不同栖息地和地区群落的有用工具。 构造扩张脊上的热液喷口特有的动物适应了极端的栖息地条件。 一家加拿大公司计划于 2017 年在南太平洋开始深海采矿，目标是富含金属的烟囱矿床，这些矿床构成了长寿地点的大部分栖息地。 我的工作积累了数十年有关热液喷口多样性和动物特征的数据，尤其是加拿大海岸的数据。 我们的工作将开发功能性状方法来比较胡安德富卡/探索者山脊沿线喷口地点基于丰度的多样性指数。 通过在汤加附近的通风口（其中一个采矿区）资助的巡航，我们将使用改进的方法来检查高与低“质量”矿山目标之间的功能多样性。 第三个现场位于另一个生物地理区域（马里亚纳），相同的技术将支持泛太平洋功能多样性比较。 对关键物种，特别是共生体大型动物的研究，将扩展已知的功能特征并促进区域间比较。 我们与其他研究人员合作收集数据并进行测试分析；它将是第一个通过开放访问特征数据库对热通风系统进行全面功能评估的项目。 *** 一个重要目标是评估压力社区的功能方法。我们还将使用另一个丰富的数据集在不同的低氧/高硫化物环境（低氧盆地）中测试相同的方法。 在这里，随着缺氧加剧和栖息地压缩，不耐受的物种在代谢上处于不利地位。 我们将研究表层底栖动物功能和多样性组成部分的转变，并寻找功能改变或消失的断点。 尽管西海岸低氧/低pH值区域扩大的威胁更大，但针对东北太平洋物种预测对海洋变暖带来的变化的反应的工作相对较少。 *** 总体而言，该计划将通过扩展性状数据库和测试分析方法来帮助海洋生态学家应用功能方法。 更好地了解压力栖息地的功能损失将支持管理工具的选择。 通风工作将有助于国际社会努力开发评估可能的采矿影响的方法，特别是在保护这些支离破碎的栖息地的功能和连通性组成部分的背景下。 **