MSA: Integrating biodiversity observations with airborne and satellite data to predict shifts in assemblage diversity and composition under global change

MSA：将生物多样性观测与机载和卫星数据相结合，以预测全球变化下组合多样性和组成的变化

• 批准号: 2017843
• 负责人: Jesús Pinto Ledezma
• 金额: $ 29.94万
• 依托单位: University of Minnesota-Twin Cities
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2020
• 资助国家: 美国
• 起止时间: 2020-09-15 至 2024-08-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2017843&HistoricalAwards=false
• 关键词: MSA; Integrating; biodiversity; observations; airborne

Biodiversity—the living fabric of our planet—is rapidly changing due to alterations in the climate and human activities. These rapid changes are negatively impacting the capacity of ecosystems to provide goods and services to humanity. The development of new ways to characterize and monitor biodiversity that take advantage of advancing remote sensing technologies is critical for developing effective management strategies and conservation actions to address global change. The project will evaluate the capacity of airborne and satellite remote sensing data to produce reliable predictions of plant and bird diversities across the conterminous United States. The broader impacts of this project include several components. First, the project will provide scientific and professional development of an early-stage scientist from an underrepresented group. Second, the project will contribute to the training the next generation of STEM researchers to investigate biodiversity in the Anthropocene. Third, the project scientists will engage the public in biodiversity education through the integration of project results into an undergraduate and graduate course in Biodiversity Science at the University of Minnesota. Fourth, the project will contribute to advancing international efforts to assess and monitor biodiversity globally. Finally, researchers will distribute open-source software to the world-wide research community through online repositories, fostering reproducibility.The project combines theory and novel methods from different disciplines—including macroecology, community ecology and imaging spectroscopy—to understand the potential of remote sensing data in predicting and monitoring biodiversity. Specifically, researchers will test the hypothesis that diversity measures derived from remote sensing can be used as surrogates of other measures of biodiversity and hence for monitoring biodiversity at large spatial extents. The project addresses important gaps in our ability to predict species distributions and assemblage composition. New insights will be gained for understanding the potential of measures derived from remote sensing—such as spectral alpha and beta diversity—for the prediction of species distributions and assemblage composition. In doing so, the project will contribute to the development of novel approaches for biodiversity monitoring across time and space. Overall, the project provides a flexible framework that allows the integration of multiple means of predicting and detecting species and advances efforts to monitor changes in biodiversity.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.

由于气候和人类活动的变化，生物多样性--我们星球的生命结构--正在迅速变化。这些快速变化正在对生态系统为人类提供货物和服务的能力产生负面影响。开发利用先进的遥感技术来描述和监测生物多样性的新方法，对于制定有效的管理战略和保护行动以应对全球变化至关重要。该项目将评估航空和卫星遥感数据的能力，以便对美国境内的植物和鸟类灾害作出可靠的预测。该项目的广泛影响包括几个组成部分。首先，该项目将为来自代表性不足群体的早期科学家提供科学和专业发展。其次，该项目将有助于培训下一代STEM研究人员，以研究人类世的生物多样性。第三，项目科学家将通过将项目成果纳入明尼苏达大学生物多样性科学本科生和研究生课程，使公众参与生物多样性教育。第四，该项目将有助于推动评估和监测全球生物多样性的国际努力。最后，研究人员将通过在线资源库向全球研究社区分发开源软件，以促进可重复性。该项目结合了来自不同学科的理论和新方法，包括宏观生态学，群落生态学和成像光谱学，以了解遥感数据在预测和监测生物多样性方面的潜力。具体而言，研究人员将检验一种假设，即从遥感中得出的多样性措施可以作为其他生物多样性措施的替代品，从而在大的空间范围内监测生物多样性。该项目解决了我们预测物种分布和组合组成的能力的重要差距。将获得新的见解，了解来自遥感的措施的潜力，如光谱α和β多样性的物种分布和组合组成的预测。在此过程中，该项目将有助于制定跨时间和空间的生物多样性监测新方法。总的来说，该项目提供了一个灵活的框架，允许集成多种预测和检测物种的手段，并推进监测生物多样性变化的工作。该奖项反映了NSF的法定使命，并被认为值得通过使用基金会的知识价值和更广泛的影响审查标准进行评估来支持。

项目成果

BII-Implementation: The causes and consequences of plant biodiversity across scales in a rapidly changing world

• DOI: 10.3897/rio.7.e63850
• 发表时间: 2021-05
• 期刊: Research Ideas and Outcomes
• 作者: J. Cavender-Bares;P. Reich;P. Townsend;A. Banerjee;E. Butler;A. Desai;A. Gevens;S. Hobbie;F. Isbell;E. Laliberté;J. E. Meireles;Holly L. Menninger;R. Pavlick;J. Pinto-Ledezma;C. Potter;M. Schuman;N. Springer;Artur Stefanski;P. Trivedi;A. Trowbridge;L. Williams;C. G. Willis;Y. Yang