Terrestrial Ecosystems
Terrestrial Ecosystems
The Northern Rockies are blessed with an abundance of plant and animal species that have remained relatively intact since the Lewis and Clark expedition in the early 19th century. Expanding energy development, increasing human population pressures, and the continued demand on global water resources make the management of wildlife more complicated than ever. NOROCK works collaboratively with partners to study key life history and habitat needs of these species.
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Restoring Montana Pothole Wetlands - Demonstration Sites and Adaptive Management
Geologic processes from the last ice age have generated extensive areas of pothole wetlands in several Montana landscapes. The Laurentide ice sheet, originating in the Northwest Territories, provided the dominant force in eastern Montana. Similar landscapes developed in the broad valleys of western Montana through the actions of the Cordilleran ice sheet, originating in the mountains of British...
Realizing the biological potential of weather radar
The modern use of field deployed remote sensors generates large amounts of environmental data on natural systems, and this benefits natural sciences. Today’s automated sensors are fast, run nearly continuously, eliminate the need for “people power”, are cost effective to operate and maintain, and monitor the environment in ways humans cannot. The US network of more than 200 weather radars, the...
Remote sensing flying animals
NOROCK scientists and collaborators are working to advance their tools of the trade. Specifically, weather radars, portable radars, thermal imaging cameras, and automated radio tracking are capable mature technologies, able to detect the movement patterns and other behaviors of flying animals at night and at distances far beyond the limits of human vision.
The ecology, behavior, and conservation of migratory birds
U.S. Geological Survey research contributes to conservation measures and improved management of migratory bird populations and their habitats across the United States. Migratory birds provide ecosystem benefits that include pest control, pollination of plants and serve as food sources for other wildlife. They are also a source of recreation for millions of bird watchers and enthusiasts who provide...
COMPLETED: Using thermal imagery to assess wolf hairloss from sarcoptic mange
Researchers at NOROCK and their partners used thermal cameras at the Grizzly and Wolf Discovery Center in Montana to assess the amount of heat lost under a range of environmental conditions with and without hair. These methods help scientists better understand how mange operates in wild wolves throughout the Greater Yellowstone Ecosystem.
Identification of Fire Refugia in Rocky Mountain Ecosystems of the U.S. and Canada: Development and Application of the Refugium Concept for Biodiversity Conservation over Large Spatial and Temporal Scales
We described the climate space of fire regimes in northwestern North America (Whitman and others 2015), and we are refining an approach to identify fire refugia – areas that do not burn or burn with lower severity through multiple fire events. We continue our collaboration to test the function of refugia for biodiversity conservation under current and future climate and fire scenarios. We continue...
Impacts of climate change on habitat quality: plant phenology interactions with animal use and fitness
Weather and climate impact terrestrial wildlife habitat through their influences on plant productivity. Plant phenology – the timing of life-history events such as green-up, flowering and senescence – provides one indicator of the timing and magnitude of productivity. Changes and variability in plant phenology in space and time are indicators of habitat quality, which is a driver of fitness for...
Geneva Chong's Past Projects
These are Geneva Chong's past projects.
Radar Technology - A Tool for Understanding Migratory Aerofauna
Understanding the factors affecting migratory bird and bat populations during all three phases of their life cycle—breeding, non-breeding, and migration—is critical to species conservation planning. This includes the need for information about these species’ responses to natural challenges, as well as information about the impact of human activities that alter resources critical to migrants during...