This two-page handout shares relevant findings from data collected before and after construction at the Gemini Solar Project, NV, and will be shared with the Bureau of Land Management and other interested partners on the Gemini Solar project.
Seth Munson, Ph.D.
Seth Munson is a plant and ecosystem ecologist with the Southwest Biological Science Center in Flagstaff, Arizona. His research focuses on how dryland ecosystems respond to drought, wildfire, invasive species, and land-use to assist land management decision-making.
Much of Dr. Munson's research aims to understand the dynamics of dryland ecosystems at long temporal and broad spatial scales, and employs a multidisciplinary approach. His work seeks to improve the management of arid and semi-arid lands, including mitigating the impacts of disturbances and determining effective ecological restoration strategies to promote productive ecosystems.
Check the Science Tab Below for a List of Current Research Projects.
Research Interests: Plant Ecology, Ecosystem Ecology, Dryland Ecology, Restoration Ecology, Soil Erosion
Science and Products
Filter Total Items: 18
Supporting energy and mineral development through successful reclamation
Federal lands of the US contain important reserves of oil, gas and other resources important for Unleashing American Energy (SO 3418). After development of these resources is complete, successfully reclaiming disturbed lands is a necessary step towards restoring wildlife habitat, forage production, and maintaining natural resources for future use. To improve reclamation outcomes on these lands and...
Southwest Fire Innovation Landscape Network: Advanced tools for fuel monitoring and assessment of wildfire risk
The USGS Southwest Biological Science Center is coordinating the Southwest Fire Innovation Landscape Network to prepare fire and natural resource managers for rapidly changing fire landscapes by conducting research and building science-management partnerships. The network develops advanced tools and technologies to assess fuel loads and the effectiveness of fuel treatments, understand wildfire...
The Gemini Solar Project
The United States is developing renewable energy resources, especially solar, at a rapid rate. Although renewable energy development is widely perceived by the public as “green technology,” construction, operation, maintenance, and eventual decommissioning of facilities all have known and potential negative impacts to natural resources, including plant communities and wildlife. This is especially...
RAMPS: Restoration Assessment & Monitoring Program for the Southwest
The Restoration Assessment and Monitoring Program for the Southwest (RAMPS) seeks to assist U.S. Department of the Interior (DOI) and other land management agencies in developing successful techniques for improving land condition in dryland ecosystems of the southwestern United States. Invasion by non-native species, wildfire, drought, and other disturbances are growing rapidly in extent and...
Plant responses to drought in the southwestern United States
Land managers face challenges in the future as heat-related aridification alters the abundance, distribution, and interactions of plant species. These challenges will be daunting in the southwestern US, which is experiencing increased temperatures and prolonged droughts, resulting in reduced soil moisture in an already water-limited environment.
Remote Sensing of Invasive Annual Grasses -- Greater Yellowstone Ecosystem
Exotic annual grasses such as cheatgrass ( Bromus tectorum) have heavily invaded portions of the western United States, rapidly degrading habitats and increasing wildfire risk. Cheatgrass and other ESIs (desert alyssum [Alyssum desertorum], and annual wheatgrass [Eremopyrum triticeum]) are an emerging threat to the Greater Yellowstone Ecosystem (GYE); climatic changes including earlier snowmelt...
Gemini Solar Project Information Brief
This two-page handout shares relevant findings from data collected before and after construction at the Gemini Solar Project, NV, and will be shared with the Bureau of Land Management and other interested partners on the Gemini Solar project.
Seeding experiment to improve restoration outcomes in the Southwest.
Seeding experiment to improve restoration outcomes in the Southwest.USGS ecologists Molly McCormick (left) and Katie Laushman (right) conducting a seeding experiment that is a part of RAMPS, a new USGS-led initiative to improve restoration outcomes in
Seeding experiment to improve restoration outcomes in the Southwest.
Seeding experiment to improve restoration outcomes in the Southwest.USGS ecologists Molly McCormick (left) and Katie Laushman (right) conducting a seeding experiment that is a part of RAMPS, a new USGS-led initiative to improve restoration outcomes in
Dust Storm near Winslow, Arizona, in April 2011
Dust carried by the wind has far-reaching effects, including the loss of nutrients and water-holding capacity from landscapes, and the speeding up of the melting of snow, which affects the timing and magnitude of runoff into streams and rivers.
Dust carried by the wind has far-reaching effects, including the loss of nutrients and water-holding capacity from landscapes, and the speeding up of the melting of snow, which affects the timing and magnitude of runoff into streams and rivers.
Dust Storm Near Winslow, Arizona, in April 2011
Dust carried by the wind has far-reaching effects, including the loss of nutrients and water-holding capacity from landscapes, and the speeding up of the melting of snow, which affects the timing and magnitude of runoff into streams and rivers.
Dust carried by the wind has far-reaching effects, including the loss of nutrients and water-holding capacity from landscapes, and the speeding up of the melting of snow, which affects the timing and magnitude of runoff into streams and rivers.
Dust Storm Near Winslow, Arizona, in April 2011
Dust carried by the wind has far-reaching effects, including the loss of nutrients and water-holding capacity from landscapes, and the speeding up of the melting of snow, which affects the timing and magnitude of runoff into streams and rivers.
Dust carried by the wind has far-reaching effects, including the loss of nutrients and water-holding capacity from landscapes, and the speeding up of the melting of snow, which affects the timing and magnitude of runoff into streams and rivers.
Dust Storm Near Winslow, Arizona, in April 2011
Dust carried by the wind has far-reaching effects, including the loss of nutrients and water-holding capacity from landscapes, and the speeding up of the melting of snow, which affects the timing and magnitude of runoff into streams and rivers.
Dust carried by the wind has far-reaching effects, including the loss of nutrients and water-holding capacity from landscapes, and the speeding up of the melting of snow, which affects the timing and magnitude of runoff into streams and rivers.
Science and Products
Filter Total Items: 18
Supporting energy and mineral development through successful reclamation
Federal lands of the US contain important reserves of oil, gas and other resources important for Unleashing American Energy (SO 3418). After development of these resources is complete, successfully reclaiming disturbed lands is a necessary step towards restoring wildlife habitat, forage production, and maintaining natural resources for future use. To improve reclamation outcomes on these lands and...
Southwest Fire Innovation Landscape Network: Advanced tools for fuel monitoring and assessment of wildfire risk
The USGS Southwest Biological Science Center is coordinating the Southwest Fire Innovation Landscape Network to prepare fire and natural resource managers for rapidly changing fire landscapes by conducting research and building science-management partnerships. The network develops advanced tools and technologies to assess fuel loads and the effectiveness of fuel treatments, understand wildfire...
The Gemini Solar Project
The United States is developing renewable energy resources, especially solar, at a rapid rate. Although renewable energy development is widely perceived by the public as “green technology,” construction, operation, maintenance, and eventual decommissioning of facilities all have known and potential negative impacts to natural resources, including plant communities and wildlife. This is especially...
RAMPS: Restoration Assessment & Monitoring Program for the Southwest
The Restoration Assessment and Monitoring Program for the Southwest (RAMPS) seeks to assist U.S. Department of the Interior (DOI) and other land management agencies in developing successful techniques for improving land condition in dryland ecosystems of the southwestern United States. Invasion by non-native species, wildfire, drought, and other disturbances are growing rapidly in extent and...
Plant responses to drought in the southwestern United States
Land managers face challenges in the future as heat-related aridification alters the abundance, distribution, and interactions of plant species. These challenges will be daunting in the southwestern US, which is experiencing increased temperatures and prolonged droughts, resulting in reduced soil moisture in an already water-limited environment.
Remote Sensing of Invasive Annual Grasses -- Greater Yellowstone Ecosystem
Exotic annual grasses such as cheatgrass ( Bromus tectorum) have heavily invaded portions of the western United States, rapidly degrading habitats and increasing wildfire risk. Cheatgrass and other ESIs (desert alyssum [Alyssum desertorum], and annual wheatgrass [Eremopyrum triticeum]) are an emerging threat to the Greater Yellowstone Ecosystem (GYE); climatic changes including earlier snowmelt...
Gemini Solar Project Information Brief
This two-page handout shares relevant findings from data collected before and after construction at the Gemini Solar Project, NV, and will be shared with the Bureau of Land Management and other interested partners on the Gemini Solar project.
This two-page handout shares relevant findings from data collected before and after construction at the Gemini Solar Project, NV, and will be shared with the Bureau of Land Management and other interested partners on the Gemini Solar project.
Seeding experiment to improve restoration outcomes in the Southwest.
Seeding experiment to improve restoration outcomes in the Southwest.USGS ecologists Molly McCormick (left) and Katie Laushman (right) conducting a seeding experiment that is a part of RAMPS, a new USGS-led initiative to improve restoration outcomes in
Seeding experiment to improve restoration outcomes in the Southwest.
Seeding experiment to improve restoration outcomes in the Southwest.USGS ecologists Molly McCormick (left) and Katie Laushman (right) conducting a seeding experiment that is a part of RAMPS, a new USGS-led initiative to improve restoration outcomes in
Dust Storm near Winslow, Arizona, in April 2011
Dust carried by the wind has far-reaching effects, including the loss of nutrients and water-holding capacity from landscapes, and the speeding up of the melting of snow, which affects the timing and magnitude of runoff into streams and rivers.
Dust carried by the wind has far-reaching effects, including the loss of nutrients and water-holding capacity from landscapes, and the speeding up of the melting of snow, which affects the timing and magnitude of runoff into streams and rivers.
Dust Storm Near Winslow, Arizona, in April 2011
Dust carried by the wind has far-reaching effects, including the loss of nutrients and water-holding capacity from landscapes, and the speeding up of the melting of snow, which affects the timing and magnitude of runoff into streams and rivers.
Dust carried by the wind has far-reaching effects, including the loss of nutrients and water-holding capacity from landscapes, and the speeding up of the melting of snow, which affects the timing and magnitude of runoff into streams and rivers.
Dust Storm Near Winslow, Arizona, in April 2011
Dust carried by the wind has far-reaching effects, including the loss of nutrients and water-holding capacity from landscapes, and the speeding up of the melting of snow, which affects the timing and magnitude of runoff into streams and rivers.
Dust carried by the wind has far-reaching effects, including the loss of nutrients and water-holding capacity from landscapes, and the speeding up of the melting of snow, which affects the timing and magnitude of runoff into streams and rivers.
Dust Storm Near Winslow, Arizona, in April 2011
Dust carried by the wind has far-reaching effects, including the loss of nutrients and water-holding capacity from landscapes, and the speeding up of the melting of snow, which affects the timing and magnitude of runoff into streams and rivers.
Dust carried by the wind has far-reaching effects, including the loss of nutrients and water-holding capacity from landscapes, and the speeding up of the melting of snow, which affects the timing and magnitude of runoff into streams and rivers.