RAMPS: Restoration Assessment & Monitoring Program for the Southwest Active
Land Enhancement Information Portal & Decision Support Center
Science briefs, RAMPS program updates and more!
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 frequency, creating novel ecosystem conditions that can outpace the knowledge base of local land managers. These growing problems often cross administrative boundaries, requiring agencies to proactively work together. In light of these challenges, managers can benefit from collaborative, innovative, and dynamic approaches to sharing information. To meet this need, RAMPS has created a hub for science-based information and tools to help managers identify effective and resource-efficient strategies to successfully restore degraded areas.
RAMPS Research
The latest in drylands restoration
Research for management
Read & use in 10 minutes!
Arid Grassland Climate Adaptation Menu
Seed Technology Training Course
RestoreNet - Guidance for revegetation in the SW
RAMPS SOLUTIONS FOR MANAGING CHALLENGING DRYLAND ECOSYSTEMS
Stakeholder engagement
PROBLEM: The importance of knowledge sharing and collaboration is well-understood. The importance of knowledge sharing and collaboration is well-understood. However, managers and scientists are often time-limited and intentions to build partnerships suffers as a result.
SOLUTION: RAMPS projects are multi-disciplinary, collaborative, and co-created. RAMPS identifies systemic gaps in restoration knowledge and develops projects and creative solutions that create new insight using scientifically-credible research. Through these solutions, RAMPS increases skills, knowledge, and expertise needed to manage public lands across the Southwest.
EXAMPLES: Symposia and meetings, peer-to-peer knowledge sharing, facilitation and collaboration, training and education
Research
PROBLEM: Several obstacles prevent land managers from implementing successful land treatments, including a lack of: information on costs relative to outcomes, post-treatment monitoring data, and science-informed innovation.
SOLUTION: RAMPS uses state-of-the-art scientific analysis and tools to increase the efficacy of land treatments across waterlimited ecosystems and finds innovative approaches to mitigate large disturbances. Through these solutions, RAMPS ensures progress in planning and implementing projects, and provides guidance and support for monitoring and adaptive management.
EXAMPLES: Data synthesis and integration, cost-benefit analysis, site re-visits, experimentation, energy development and reclamation best management practices, invasive species management, wildfire recovery
Decision support
PROBLEM: Scientific advancements can be difficult for land managers to access and incorporate into their project planning.
SOLUTION: RAMPS provides decision support via tools, protocols, and science delivery portals. This support distills scientific findings into readily accessible information on when, where, and how to restore. Through these solutions, RAMPS helps bridge the science-land management gap.
EXAMPLES:RAMPS news and information, decision-support tools, newsletters and social media, information briefs, guidance on restoration techniques, and monitoring guidance
Below are other science projects associated with this project.
RAMPS is publishing papers relevant to land management and improving the condition of ecosystems in the Southwest. For quick briefs of these papers, visit the RAMPS Land Enhancement Information Portal.
Science framework for conservation and restoration of the sagebrush biome: Linking the Department of the Interior’s Integrated Rangeland Fire Management Strategy to long-term strategic conservation actions, Part 1. Science basis and applications
Matching seed to site by climate similarity: techniques to prioritize plant materials development and use in restoration
Aridity increases below-ground niche breadth in grass communities
Climate drives shifts in grass reproductive phenology across the western USA
Prestoration: Using species in restoration that will persist now and into the future
Rangeland monitoring reveals long-term plant responses to precipitation and grazing at the landscape scale
Desert grassland responses to climate and soil moisture suggest divergent vulnerabilities across the southwestern United States
Repeated landscape-scale treatments following fire suppress a non-native annual grass and promote recovery of native perennial vegetation
Long-term plant responses to climate are moderated by biophysical attributes in a North American desert
Simulated big sagebrush regeneration supports predicted changes at the trailing and leading edges of distribution shifts
The Restoration Assessment and Monitoring Program for the Southwest (RAMPS) supports land management by offering the latest science relevant that can be incorporated into decision making today.
Below are partners associated with this project.
- Overview
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 frequency, creating novel ecosystem conditions that can outpace the knowledge base of local land managers. These growing problems often cross administrative boundaries, requiring agencies to proactively work together. In light of these challenges, managers can benefit from collaborative, innovative, and dynamic approaches to sharing information. To meet this need, RAMPS has created a hub for science-based information and tools to help managers identify effective and resource-efficient strategies to successfully restore degraded areas.
RAMPS ResearchThe latest in drylands restoration
Research for managementRead & use in 10 minutes!
Arid Grassland Climate Adaptation MenuArid Grassland Climate Adaptation MenuSeed Technology Training CourseSeed Technology Training CourseRestoreNet - Guidance for revegetation in the SWRestoreNet - Guidance for revegetation in the SWRAMPS SOLUTIONS FOR MANAGING CHALLENGING DRYLAND ECOSYSTEMS
Stakeholder engagement
PROBLEM: The importance of knowledge sharing and collaboration is well-understood. The importance of knowledge sharing and collaboration is well-understood. However, managers and scientists are often time-limited and intentions to build partnerships suffers as a result.SOLUTION: RAMPS projects are multi-disciplinary, collaborative, and co-created. RAMPS identifies systemic gaps in restoration knowledge and develops projects and creative solutions that create new insight using scientifically-credible research. Through these solutions, RAMPS increases skills, knowledge, and expertise needed to manage public lands across the Southwest.
EXAMPLES: Symposia and meetings, peer-to-peer knowledge sharing, facilitation and collaboration, training and education
Research
PROBLEM: Several obstacles prevent land managers from implementing successful land treatments, including a lack of: information on costs relative to outcomes, post-treatment monitoring data, and science-informed innovation.SOLUTION: RAMPS uses state-of-the-art scientific analysis and tools to increase the efficacy of land treatments across waterlimited ecosystems and finds innovative approaches to mitigate large disturbances. Through these solutions, RAMPS ensures progress in planning and implementing projects, and provides guidance and support for monitoring and adaptive management.
EXAMPLES: Data synthesis and integration, cost-benefit analysis, site re-visits, experimentation, energy development and reclamation best management practices, invasive species management, wildfire recovery
Decision support
PROBLEM: Scientific advancements can be difficult for land managers to access and incorporate into their project planning.SOLUTION: RAMPS provides decision support via tools, protocols, and science delivery portals. This support distills scientific findings into readily accessible information on when, where, and how to restore. Through these solutions, RAMPS helps bridge the science-land management gap.
EXAMPLES:RAMPS news and information, decision-support tools, newsletters and social media, information briefs, guidance on restoration techniques, and monitoring guidance
- Science
Below are other science projects associated with this project.
Filter Total Items: 20 - Publications
RAMPS is publishing papers relevant to land management and improving the condition of ecosystems in the Southwest. For quick briefs of these papers, visit the RAMPS Land Enhancement Information Portal.
Filter Total Items: 46Science framework for conservation and restoration of the sagebrush biome: Linking the Department of the Interior’s Integrated Rangeland Fire Management Strategy to long-term strategic conservation actions, Part 1. Science basis and applications
The Science Framework is intended to link the Department of the Interior’s Integrated Rangeland Fire Management Strategy with long-term strategic conservation actions in the sagebrush biome. The Science Framework provides a multiscale approach for prioritizing areas for management and determining effective management strategies within the sagebrush biome. The emphasis is on sagebrush (Artemisia spAuthorsJeanne C. Chambers, Jeffrey L. Beck, John B. Bradford, Jared Bybee, Steve Campbell, John Carlson, Thomas J Christiansen, Karen J. Clause, Gail Collins, Michele R. Crist, Jonathan B. Dinkins, Kevin Doherty, Fred Edwards, Shawn Espinosa, Kathleen A. Griffin, Paul Griffin, Jessica R. Haas, Steve E. Hanser, Douglas W. Havlina, Kenneth F. Henke, Jacob D. Hennig, Linda A Joyce, Francis F. Kilkenny, Sarah M Kulpa, Laurie L Kurth, Jeremy D Maestas, Mary E. Manning, Kenneth E. Mayer, Brian A. Mealor, Clinton McCarthy, Mike Pellant, Marco A. Perea, Karen L. Prentice, David A. Pyke, Lief A. Wiechman, Amarina WuenschelMatching seed to site by climate similarity: techniques to prioritize plant materials development and use in restoration
Land management agencies are increasing the use of native plant materials for vegetation treatments to restore ecosystem function and maintain natural ecological integrity. This shift toward the use of natives has highlighted a need to increase the diversity of materials available. A key problem is agreeing on how many, and which, new accessions should be developed. Here we describe new methods thAuthorsKyle Doherty, Bradley J. Butterfield, Troy E. WoodAridity increases below-ground niche breadth in grass communities
Aridity is an important environmental filter in the assembly of plant communities worldwide. The extent to which root traits mediate responses to aridity, and how they are coordinated with leaf traits, remains unclear. Here, we measured variation in root tissue density (RTD), specific root length (SRL), specific leaf area (SLA), and seed size within and among thirty perennial grass communities disAuthorsBradley J. Butterfield, John B. Bradford, Seth M. Munson, Jennifer R. GremerClimate drives shifts in grass reproductive phenology across the western USA
The capacity of grass species to alter their reproductive timing across space and through time can indicate their ability to cope with environmental variability and help predict their future performance under climate change.We determined the long-term (1895–2013) relationship between flowering times of grass species and climate in space and time using herbarium records across ecoregions of the wesAuthorsSeth M. Munson, A. Lexine LongPrestoration: Using species in restoration that will persist now and into the future
Climate change presents new challenges for selecting species for restoration. If migration fails to keep pace with climate change, as models predict, the most suitable sources for restoration may not occur locally at all. To address this issue we propose a strategy of “prestoration”: utilizing species in restoration for which a site represents suitable habitat now and into the future. Using the CoAuthorsB.J. Butterfield, Stella M. Copeland, Seth M. Munson, C.M. Roybal, Troy E. WoodRangeland monitoring reveals long-term plant responses to precipitation and grazing at the landscape scale
Managers of rangeland ecosystems require methods to track the condition of natural resources over large areas and long periods of time as they confront climate change and land use intensification. We demonstrate how rangeland monitoring results can be synthesized using ecological site concepts to understand how climate, site factors, and management actions affect long-term vegetation dynamics at tAuthorsSeth M. Munson, Michael C. Duniway, Jamin K. JohansonDesert grassland responses to climate and soil moisture suggest divergent vulnerabilities across the southwestern United States
Climate change predictions include warming and drying trends, which are expected to be particularly pronounced in the southwestern United States. In this region, grassland dynamics are tightly linked to available moisture, yet it has proven difficult to resolve what aspects of climate drive vegetation change. In part, this is because it is unclear how heterogeneity in soils affects plant responsesAuthorsJennifer Gremer, John B. Bradford, Seth M. Munson, Michael C. DuniwayRepeated landscape-scale treatments following fire suppress a non-native annual grass and promote recovery of native perennial vegetation
Invasive non-native species pose a large threat to restoration efforts following large-scale disturbances. Bromus tectorum (cheatgrass) is a non-native annual grass in the western U.S. that both spreads quickly following fire and accelerates the fire cycle. Herbicide and seeding applications are common restoration practices to break the positive fire-invasion feedback loop and recover native perenAuthorsSeth M. Munson, A. Lexine Long, Cheryl E. Decker, Katie A. Johnson, Kathleen Walsh, Mark E. MillerLong-term plant responses to climate are moderated by biophysical attributes in a North American desert
Recent elevated temperatures and prolonged droughts in many already water-limited regions throughout the world, including the southwestern U.S., are likely to intensify according to future climate-model projections. This warming and drying can negatively affect perennial vegetation and lead to the degradation of ecosystem properties. To better understand these detrimental effects, we formulate aAuthorsSeth M. Munson, Robert H. Webb, David C. Housman, Kari E. Veblen, Kenneth E. Nussear, Erik A. Beever, Kristine B. Hartney, Maria N. Miriti, Susan L. Phillips, Robert E. Fulton, Nita G. TallentSimulated big sagebrush regeneration supports predicted changes at the trailing and leading edges of distribution shifts
Many semi-arid plant communities in western North America are dominated by big sagebrush. These ecosystems are being reduced in extent and quality due to economic development, invasive species, and climate change. These pervasive modifications have generated concern about the long-term viability of sagebrush habitat and sagebrush-obligate wildlife species (notably greater sage-grouse), highlightinAuthorsDaniel R. Schlaepfer, Kyle A. Taylor, Victoria E. Pennington, Kellen N. Nelson, Trace E. Martin, Caitlin M. Rottler, William K. Lauenroth, John B. Bradford - News
The Restoration Assessment and Monitoring Program for the Southwest (RAMPS) supports land management by offering the latest science relevant that can be incorporated into decision making today.
Filter Total Items: 15 - Partners
Below are partners associated with this project.
Filter Total Items: 36