Collaborative Research: BoCP-Implementation: The impact of climate change on functional biodiversity across spatiotemporal scales at Lake Tanganyika, Africa

合作研究：BoCP-实施：气候变化对非洲坦噶尼喀湖跨时空尺度功能性生物多样性的影响

• 批准号: 2224887
• 负责人: Andrew Cohen
• 金额: $ 23.99万
• 依托单位: University of Arizona
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2022
• 资助国家: 美国
• 起止时间: 2022-10-15 至 2027-09-30
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2224887&HistoricalAwards=false
• 关键词: Collaborative; Research; BoCP; Implementation; impact

Lake Tanganyika is renowned for its biodiversity, but the spectacular life in this vast and ancient ecosystem is threatened by warming temperatures in ways that are not well-understood. As one of sub-Saharan Africa’s most prolific inland fisheries, a healthy Lake Tanganyika is critically important to the nutrition of four developing nations. If global warming alters internal processes that affect the fish production in Lake Tanganyika, then the food security for millions of people will suffer. Moreover, the impacts of climate change on the characteristics of different groups making up Lake Tanganyika’s open water and lake floor communities, as well as interactions among these groups, are unknown. This project aims to study the response of Lake Tanganyika’s food web to several different scenarios of climate change using sediments, fossils, and genetic tools. The results of the project will reveal how aquatic organisms, particularly economically valuable fish, respond to changes in temperature and precipitation within large tropical lakes. With this information, fisheries and ecosystem managers will be better equipped to safeguard food resources and biodiversity in their areas of responsibility. Finally, this project will include strong international partnership to train students, conduct workshops and develop materials for public audiences.This project will use Lake Tanganyika’s high-resolution sedimentary record to set up a series of historical experiments to track functional biodiversity lake-wide. This framework integrates geochemical, fossil, and genomic tools to assess open water and bottom-dwelling community structures and functions under different scenarios of climate change, as well as the physical and physiological responses of key organisms to these changes. Because the hydroclimatic conditions of the Holocene are underrepresented in historical data, this approach provides the opportunity to evaluate the consequences of environmental change for Lake Tanganyika’s food web in a way that was previously impossible to know. In addition, the project will identify shared and divergent responses to climatic fluctuations across the lake’s diverse fauna, and link these responses to trait-based understanding of community assembly and functioning. This work holds potential for predicting changes in biodiversity amidst severe climatic uncertainty in large tropical lakes.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

坦噶尼喀湖以其生物多样性而闻名，但这个广阔而古老的生态系统中壮观的生命正受到气温变暖的威胁，而作为撒哈拉以南非洲最多产的内陆渔业之一，坦噶尼喀湖的健康至关重要。如果全球变暖改变了影响坦噶尼喀湖鱼类生产的内部过程，那么数百万人的粮食安全将受到影响，此外，气候变化对不同群体特征的影响也将受到影响。坦噶尼喀湖的开放水域和湖底群落以及这些群体之间的相互作用尚不清楚。该项目旨在利用沉积物、化石和遗传工具研究坦噶尼喀湖食物网对几种不同气候变化情景的响应。该项目的研究成果将揭示水生生物，特别是具有经济价值的鱼类，如何应对大型热带湖泊内的温度和降水变化。有了这些信息，渔业和生态系统管理者将能够更好地保护其职责范围内的食物资源和生物多样性。最后，这个该项目将包括强大的国际合作伙伴关系，以培训学生、举办研讨会和为公众开发材料。该项目将利用坦噶尼喀湖的高分辨率沉积记录建立一系列历史实验，以跟踪全湖范围内的功能性生物多样性。 、化石和基因组工具来评估不同气候变化情景下的开放水域和海底群落结构和功能，以及关键生物对这些变化的物理和生理反应，因为全新世的水文气候条件在《气候变化》中没有得到充分体现。历史数据，这种方法提供了以以前不可能了解的方式评估环境变化对坦噶尼喀湖食物网的影响的机会。此外，该项目还将确定该湖不同动物群对气候波动的共同和不同的反应。并将这些响应与对群落组装和功能的基于特征的理解联系起来。这项工作具有预测大型热带湖泊严重气候不确定性下生物多样性变化的潜力。该奖项反映了 NSF 的法定使命，并通过使用评估被认为值得支持。基金会的智力价值和更广泛的影响审查标准。