Collaborative Research: Linking biotic interactions and environmental change to understand range dynamics of montane mammals over the past century

合作研究：将生物相互作用和环境变化联系起来，以了解过去一个世纪山地哺乳动物的范围动态

• 批准号: 1457530
• 负责人: Rebecca Rowe
• 金额: $ 42.18万
• 依托单位: University of New Hampshire
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2015
• 资助国家: 美国
• 起止时间: 2015-06-15 至 2019-05-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1457530&HistoricalAwards=false
• 关键词: Collaborative; Research; Linking; biotic; interactions

Human-based activities are rapidly changing natural environments on local to global scales, calling into question the persistence of ecosystems as habitats shift and species ranges collapse or move across the landscape. Species range shift predictions are routinely based on the direct impacts of climate change alone. But this approach is widely acknowledged as overly simplistic, excluding consideration of other abiotic and biotic factors. Understanding the complex interplay between environmental change and local ecological processes is needed to improve predictions. Paired modern and historical datasets provide a means by which suites of interacting factors affecting past range responses can be modeled and validated over multiple ecological and spatial and temporal scales. This project integrates community ecology, biogeography and biogeochemistry to address the impact of a century of environmental change on small mammals in the Great Basin, a highly threatened bioregion in North America. This project underscores the value of museum collections as ecological archives and will develop a new interactive multi-media exhibit at the Natural History Museum of Utah to highlight new uses for old specimens in ecology and conservation. Finally, this project supports women in science, technology, engineering, and mathematics (STEM), as well as the interdisciplinary training of undergraduate and graduate students and a post-doctoral researcher. Using paired survey data (80+ yrs separation) in Great Basin mountains, this project will determine what factors have mediated range boundary changes of small mammals. Alternate hypotheses will be evaluated regarding how the direct and indirect effects of resource use, species interactions, landcover, and climate change at the local scale have shaped landscape-scale species range dynamics. This mechanistic understanding will be developed within and across time periods, and results synthesized to identify the traits and contexts that heighten a species' sensitivity to environmental change. Structural equation modeling will investigate direct and indirect pathways through which biotic and abiotic factors affect species occurrence and abundance at local sites and range dynamics at landscape scale. Species distribution models will be used to hindcast past species ranges in altered climates. Stable isotope analysis will be used to infer differences in diet and habitat use over time, between mountain ranges, and in the presence/absence of competitors. Mammal stable isotope analyses will be done with museum specimens. This project will facilitate the training of a post-doctoral researcher and students as well as a museum outreach exhibit. The methods and findings will be highly generalizable to other groups and systems and will generate robust and transferrable predictions of how species and communities are likely to respond to future climate and land-use scenarios. Consequently, project results will be directly relevant to conservation and management regarding the role of biotic interactions and resource requirements in mediating responses to environmental change.

以人类为基础的活动正在从地方到全球范围内迅速改变自然环境，随着栖息地的变化和物种范围的崩溃或在景观中移动，生态系统的持久性受到质疑。物种范围变化预测通常仅基于气候变化的直接影响。但这种方法被广泛认为过于简单化，排除了其他非生物和生物因素的考虑。了解环境变化和局部生态过程之间复杂的相互作用是改进预测的必要条件。配对的现代和历史数据集提供了一种方法，通过这种方法，可以在多个生态和时空尺度上对影响过去距离响应的相互作用因子进行建模和验证。该项目整合了群落生态学、生物地理学和生物地球化学，以解决一个世纪以来环境变化对大盆地小型哺乳动物的影响，大盆地是北美一个受到高度威胁的生物地区。该项目强调了博物馆藏品作为生态档案的价值，并将在犹他州自然历史博物馆开发一个新的交互式多媒体展览，以突出旧标本在生态和保护中的新用途。最后，该项目支持女性在科学、技术、工程和数学（STEM）领域的发展，以及本科生和研究生的跨学科培训和博士后研究人员。利用大盆地山区80年以上的成对调查数据，本项目将确定哪些因素介导了小型哺乳动物的范围边界变化。将评估关于资源利用、物种相互作用、土地覆盖和气候变化在局部尺度上如何直接和间接影响景观尺度物种范围动态的其他假设。这种机制的理解将在一段时间内或跨一段时间发展，并将结果综合起来，以确定提高物种对环境变化敏感性的特征和背景。结构方程模型将研究生物和非生物因素影响局部地点物种发生和丰度以及景观尺度范围动态的直接和间接途径。物种分布模型将用于预测过去气候变化下的物种分布范围。稳定同位素分析将用于推断饮食和栖息地利用随时间、山脉之间以及竞争对手存在/不存在的差异。哺乳动物稳定同位素分析将用博物馆标本进行。该项目将促进博士后研究人员和学生的培训，以及博物馆外展展览。这些方法和发现将高度推广到其他群体和系统，并将产生关于物种和群落如何可能对未来气候和土地利用情景作出反应的可靠和可转移的预测。因此，项目结果将与生物相互作用和资源需求在调节对环境变化的反应中的作用的保护和管理直接相关。