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项目编号 | 1602440 |
Collaborative Research: Nutritional Landscapes of Arctic Caribou: Observations, Experiments, and Models Provide Process-Level Understanding of Forage Traits and Trajectories | |
A. Joshua Leffler | |
主持机构 | South Dakota State University |
项目开始年 | 2017 |
2017 | |
项目结束日期 | 2019-12-31 |
资助机构 | US-NSF |
项目类别 | Standard Grant |
项目经费 | 362927(USD) |
国家 | 美国 |
语种 | 英语 |
英文摘要 | Terrestrial Arctic systems are the result of complex interactions between climate, vegetation, herbivores, and humans that must be studied together to understand their functional
traits. While low temperatures and short-growing seasons limit plant growth, enough plant biomass exists to support herds of migratory caribou, on which Alaska Natives depend. Any changes in the plants at the base of the food web can have cascading consequences for herbivores and human consumers and their interactions. Today, the Arctic system is in the midst of change resulting in new vegetation assemblages, changes in the nutritive value of plant tissues, and ultimately in the diets of migratory caribou and the humans that depend on them. This project examines the nutritional landscape of the Central Arctic Caribou Herd as a unifying concept, describing the nutritional landscape as caribou available protein (CAP) and caribou available energy
(CAE), integrative forage quantity measures that reflect biomass, species composition, plant
C and N content, digestibility, and secondary compounds. The core objectives are gaining understanding of the drivers of spatial and temporal patterns in the amounts of CAP and CAE across the tundra; caribou use of this nutritional landscape; how the amounts of CAP and CAE will differ in the future under likely climate scenarios and long-term experiments, and the interactions between caribou and Native communities. The broader impacts of this study involve several groups of Alaskan stakeholders, including: harvesters of the North Slope community of Nuiqsut, the worldwide caribou community, and students at multiple stages of education. The project will embed a team member with hunters in Nuiqsut, and develop an educational scientific documentary on the caribou - Alaska Native interactions for high school students. The group plans to employ village students and undergraduates affiliated with the Alaska Native Science and Engineering Program to assist with experimental work and vegetation collection at Toolik Lake. This research is significant to ecologists from the Circumarctic Rangifer Monitoring and Assessment Network, dedicated to caribou conservation and sustainable management in the US, Canada, and Scandinavia, who will use the data to consider how a suite of climate change scenarios affect herd fecundity and population dynamics. The intellectual merit of this project stems from the merging of five elements to understand Arctic System function and response to climate change: (1) A landscape-scale assessment of plant species, soil and plant C and N, digestibility, and secondary compounds that will be used to calculate the amounts of CAP (kg m-2) and CAE (kJ m-2); (2) analysis of how closely caribou foraging is tied to the nutritional landscape throughout the year; (3) analysis of samples from an existing long-term winter - summer climate change experiment to provide data on how CAP and CAE will differ in the future; (4) prediction of future nutritional landscapes and caribou foraging interactions; and (5) observations of Alaska Native hunter harvesting and attributes of the system that determine their spatial and temporal patterns. These project components will enable an integrative understanding of how an important herbivore, caribou, interact with a landscape that is rapidly changing. This research: (1) examines the Arctic System from primary production to secondary consumers and the influence of climate change across multiple trophic levels; (2) applies broadly by examining the most abundant large herbivore and its food sources, both of which are distributed throughout the Arctic; and (3) integrates experimental, observational, and modeling approaches to understanding ecological systems and climate change. The integration of observation, experimental data and modeling to describe current and forecast future nutritional landscapes is intended to provide a mechanistic understanding of Arctic System function and transform the understanding of climate-vegetation-caribou-subsistence hunter interactions. |
来源学科分类 | Geosciences - Polar Programs |
文献类型 | 项目 |
条目标识符 | http://119.78.100.173/C666/handle/2XK7JSWQ/70687 |
专题 | 环境与发展全球科技态势 |
推荐引用方式 GB/T 7714 | A. Joshua Leffler.Collaborative Research: Nutritional Landscapes of Arctic Caribou: Observations, Experiments, and Models Provide Process-Level Understanding of Forage Traits and Trajectories.2017. |
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