Soil Biodiversity and Ecosystem Function under Climate Change

气候变化下的土壤生物多样性和生态系统功能

• 批准号: 418241-2012
• 负责人: Lindo, Zoë
• 金额: $ 1.89万
• 依托单位: University of Western Ontario
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2017
• 资助国家: 加拿大
• 起止时间: 2017-01-01 至 2018-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=632143
• 关键词: Soil; Biodiversity; Ecosystem; Function; under

The loss of biodiversity is the greatest threat facing ecosystem health in the world today. Many ecosystems are currently undergoing dramatic changes in biodiversity due to habitat loss and fragmentation associated with land use change, pollution, overexploitation, and climate change. My research will provide the science necessary to help mitigate this loss by uncovering the drivers of biodiversity loss, and the consequences of loss on ecosystem processes and functioning. As there is unequivocal evidence linking the effects of global change, soil biodiversity and nutrient cycling, my research uses a terrestrial-detrital system to experimentally study the regulation and functional significance of biodiversity in the context of global change, specifically with respect to carbon sequestration and nitrogen dynamics in forest soils. I use two approaches to obtain accurate assessment of soil biodiversity, calculate rates of biologically mediated processes, and measure ecosystem function by way of detailed nutrient analysis; a food-web approach to understand the interactions among species within the community, and a mass-balance approach to account for nutrients and energy as they move through the food web. Over the next five years, my lab will develop long-term field sites in the Boreal forest and create meso-ecosystems under controlled laboratory conditions to isolate the ecological mechanisms that drive the relationships between global change, biodiversity and nutrient cycling. This program will address how changes in biodiversity equate to changes in ecosystem-level processes, if these changes dictate whether the system becomes a net carbon sink or a net carbon source, and is the first to incorporate biodiversity into designing carbon sequestration enhancement initiatives under environmental change scenarios for Canadian forest systems. By increasing our understanding of soil biodiversity-mediated processes associated with soil carbon and nitrogen cycles, this research will help identify how to mitigate the impacts of environmental change and maintain ecosystem function in forest soil systems. Research in my lab broadly spans the areas of community ecology, ecosystem ecology, and applied terrestrial conservation.

生物多样性的丧失是当今世界生态系统健康面临的最大威胁。由于与土地利用变化、污染、过度开发和气候变化相关的栖息地丧失和破碎化，许多生态系统目前正在经历生物多样性的巨大变化。我的研究将提供必要的科学知识，通过揭示生物多样性丧失的驱动因素以及生物多样性丧失对生态系统过程和功能的影响来帮助减轻这种损失。由于有明确的证据将全球变化、土壤生物多样性和养分循环的影响联系起来，我的研究使用陆地碎屑系统来实验研究全球变化背景下生物多样性的调节和功能意义，特别是在碳固存和养分循环方面。森林土壤中的氮动态。我使用两种方法来准确评估土壤生物多样性，计算生物介导过程的速率，并通过详细的养分分析来衡量生态系统功能；食物网方法用于了解群落内物种之间的相互作用，质量平衡方法用于解释它们在食物网中移动时的营养和能量。在接下来的五年中，我的实验室将在北方森林中开发长期实地地点，并在受控的实验室条件下创建中观生态系统，以隔离驱动全球变化、生物多样性和养分循环之间关系的生态机制。该计划将解决生物多样性的变化如何等同于生态系统层面过程的变化，如果这些变化决定系统是成为净碳汇还是净碳源，并且是第一个将生物多样性纳入环境下碳固存增强计划设计的项目。改变加拿大森林系统的情景。通过增加我们对与土壤碳和氮循环相关的土壤生物多样性介导过程的了解，这项研究将有助于确定如何减轻环境变化的影响并维持森林土壤系统的生态系统功能。我实验室的研究广泛涵盖群落生态学、生态系统生态学和应用陆地保护领域。