Daniel B. Fagre, Ph.D. (Former Employee)
Science and Products
Filter Total Items: 82
Climate change links fate of glaciers and an endemic alpine invertebrate Climate change links fate of glaciers and an endemic alpine invertebrate
Climate warming in the mid- to high-latitudes and high-elevation mountainous regions is occurring more rapidly than anywhere else on Earth, causing extensive loss of glaciers and snowpack. However, little is known about the effects of climate change on alpine stream biota, especially invertebrates. Here, we show a strong linkage between regional climate change and the fundamental niche...
Authors
Clint C. Muhlfeld, J. Joseph Giersch, F. Richard Hauer, Gregory T. Pederson, Gordon Luikart, Douglas P. Peterson, Christopher C. Downs, Daniel B. Fagre
Contexts for change in alpine tundra Contexts for change in alpine tundra
Because alpine tundra is responding to climate change, a need exists to understand the meaning of observed changes. To provide context for such interpretation, the relevance of niche and neutral theories of biogeography and the continuum and classification approaches to biogeographic description are assessed. Two extensive studies of alpine tundra, from the Indian Peaks area, Colorado...
Authors
George P. Malanson, Jonathan P. Rose, P. Jason Schroeder, Daniel B. Fagre
Climatic controls on the snowmelt hydrology of the northern Rocky Mountains Climatic controls on the snowmelt hydrology of the northern Rocky Mountains
The northern Rocky Mountains (NRMs) are a critical headwaters region with the majority of water resources originating from mountain snowpack. Observations showing declines in western U.S. snowpack have implications for water resources and biophysical processes in high-mountain environments. This study investigates oceanic and atmospheric controls underlying changes in timing, variability...
Authors
Gregory T. Pederson, S.T. Gray, T. Ault, W. Marsh, Daniel B. Fagre, A.G. Bunn, C.A. Woodhouse, L.J. Graumlich
Mountain treelines: A roadmap for research orientation Mountain treelines: A roadmap for research orientation
For over 100 years, mountain treelines have been the subject of varied research endeavors and remain a strong area of investigation. The purpose of this paper is to examine aspects of the epistemology of mountain treeline research-that is, to investigate how knowledge on treelines has been acquired and the changes in knowledge acquisition over time, through a review of fundamental...
Authors
George P. Malanson, Lynn M. Resler, Maaike Y. Bader, Fredrich-Karl Holtmeier, David R. Butler, Daniel J. Weiss, Lori D. Daniels, Daniel B. Fagre
Response of western mountain ecosystems to climatic variability and change: A collaborative research approach Response of western mountain ecosystems to climatic variability and change: A collaborative research approach
No abstract available.
Authors
David L. Peterson, Craig D. Allen, Jill S. Baron, Daniel B. Fagre, Donald McKenzie, Nathan L. Stephenson, Andrew G. Fountain, Jeffrey A. Hicke, George P. Malanson, Dennis S. Ojima, Christina L. Tague, Phillip J. van Mantgem
Avalanche ecology and large magnitude avalanche events: Glacier National Park, Montana, USA Avalanche ecology and large magnitude avalanche events: Glacier National Park, Montana, USA
Large magnitude snow avalanches play an important role ecologically in terms of wildlife habitat, vegetation diversity, and sediment transport within a watershed. Ecological effects from these infrequent avalanches can last for decades. Understanding the frequency of such large magnitude avalanches is also critical to avalanche forecasting for the Going-to-the-Sun Road (GTSR). In January...
Authors
Daniel B. Fagre, Erich H. Peitzsch
Science and Products
Filter Total Items: 82
Climate change links fate of glaciers and an endemic alpine invertebrate Climate change links fate of glaciers and an endemic alpine invertebrate
Climate warming in the mid- to high-latitudes and high-elevation mountainous regions is occurring more rapidly than anywhere else on Earth, causing extensive loss of glaciers and snowpack. However, little is known about the effects of climate change on alpine stream biota, especially invertebrates. Here, we show a strong linkage between regional climate change and the fundamental niche...
Authors
Clint C. Muhlfeld, J. Joseph Giersch, F. Richard Hauer, Gregory T. Pederson, Gordon Luikart, Douglas P. Peterson, Christopher C. Downs, Daniel B. Fagre
Contexts for change in alpine tundra Contexts for change in alpine tundra
Because alpine tundra is responding to climate change, a need exists to understand the meaning of observed changes. To provide context for such interpretation, the relevance of niche and neutral theories of biogeography and the continuum and classification approaches to biogeographic description are assessed. Two extensive studies of alpine tundra, from the Indian Peaks area, Colorado...
Authors
George P. Malanson, Jonathan P. Rose, P. Jason Schroeder, Daniel B. Fagre
Climatic controls on the snowmelt hydrology of the northern Rocky Mountains Climatic controls on the snowmelt hydrology of the northern Rocky Mountains
The northern Rocky Mountains (NRMs) are a critical headwaters region with the majority of water resources originating from mountain snowpack. Observations showing declines in western U.S. snowpack have implications for water resources and biophysical processes in high-mountain environments. This study investigates oceanic and atmospheric controls underlying changes in timing, variability...
Authors
Gregory T. Pederson, S.T. Gray, T. Ault, W. Marsh, Daniel B. Fagre, A.G. Bunn, C.A. Woodhouse, L.J. Graumlich
Mountain treelines: A roadmap for research orientation Mountain treelines: A roadmap for research orientation
For over 100 years, mountain treelines have been the subject of varied research endeavors and remain a strong area of investigation. The purpose of this paper is to examine aspects of the epistemology of mountain treeline research-that is, to investigate how knowledge on treelines has been acquired and the changes in knowledge acquisition over time, through a review of fundamental...
Authors
George P. Malanson, Lynn M. Resler, Maaike Y. Bader, Fredrich-Karl Holtmeier, David R. Butler, Daniel J. Weiss, Lori D. Daniels, Daniel B. Fagre
Response of western mountain ecosystems to climatic variability and change: A collaborative research approach Response of western mountain ecosystems to climatic variability and change: A collaborative research approach
No abstract available.
Authors
David L. Peterson, Craig D. Allen, Jill S. Baron, Daniel B. Fagre, Donald McKenzie, Nathan L. Stephenson, Andrew G. Fountain, Jeffrey A. Hicke, George P. Malanson, Dennis S. Ojima, Christina L. Tague, Phillip J. van Mantgem
Avalanche ecology and large magnitude avalanche events: Glacier National Park, Montana, USA Avalanche ecology and large magnitude avalanche events: Glacier National Park, Montana, USA
Large magnitude snow avalanches play an important role ecologically in terms of wildlife habitat, vegetation diversity, and sediment transport within a watershed. Ecological effects from these infrequent avalanches can last for decades. Understanding the frequency of such large magnitude avalanches is also critical to avalanche forecasting for the Going-to-the-Sun Road (GTSR). In January...
Authors
Daniel B. Fagre, Erich H. Peitzsch