Welcome to the Southwest Biological Science Center
Terrestrial Systems: Ecology, Biology, and Restoration
Southwest Biological Science Center
Welcome to the Southwest Biological Science Center! We conduct quality, objective research on the terrestrial and aquatic systems of the Colorado Plateau, Colorado River and its tributaries, drylands across the larger Southwest US, and beyond.
Terrestrial Dryland Ecology (TDE)
Terrestrial Dryland Ecology (TDE)
The Terrestrial Dryland Ecology (TDE) Branch of the SBSC studies the biology, ecology,and processes of semi-arid and arid lands (known as drylands). TDE researchers study plant-soil-water relationships and the wildlife found in drylands.
GCMRC, River Ecosystem Science & Lake Powell Research
GCMRC, River Ecosystem Science & Lake Powell Research
The River Ecosystem Science (RES) Branch of the SBSC, which includes the Grand Canyon Monitoring and Research Center (GCMRC), studies the biology, ecology, and processes of rivers in the western United States, with an emphasis on the Southwest.
Quick Links
Quick Links
- GCMRC modeling used in decision-making process for new Glen Canyon Dam Environm…
- Research supporting native plant restoration across the Colorado Plateau & beyo…
- Restoration Assessment & Monitoring Program for the Southwest (RAMPS)
- SBSC Tribal Partnerships
- The Southwest Repeat Photography Collection
- Colorado River Basin Science across the USGS and beyond
News
Securing the Nation’s Need for Native Seed
Securing the Nation’s Need for Native Seed
Water is life: USGS remote sensing helps USFWS manage a precious resource
Water is life: USGS remote sensing helps USFWS manage a precious resource
RAMPS Newsletter - Fall 2024
RAMPS Newsletter - Fall 2024
Publications
National seed strategy for rehabilitation and restoration progress report 2022 & 2023: Handout
Restoring healthy, resilient, biodiverse ecosystems is crucial for our Nation’s future. Native plant communities provide essential environmental benefits, such as buffering against extreme weather, improving air, soil, and water quality, and habitat for wildlife. However, the limited availability of locally adapted native plants hampers effective ecological restoration. To address this...
Hotter temperatures alter riparian plant outcomes under regulated river conditions
Climate change and river regulation alter environmental controls on riparian plant occurrence and cover worldwide. Simultaneous changes to river flow and air temperature could result in unanticipated plant responses to novel environmental conditions. Increasing temperature could alter riparian plant response to hydrology and other factors, while river regulation may exacerbate...
Improving hydroacoustic methods for monitoring suspended-sand flux and grain size in sediment-laden rivers
Suspended-sand concentration and grain-size data in rivers provide valuable information on the catchment's dynamics for scientists and river managers. Producing continuous measurements of suspended-sand concentrations remains a scientific challenge due to their high spatial and temporal variability. Traditional methods such as sediment-rating curves may be highly uncertain, and optical...
Science
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...
Study Uncovers Migration Patterns of Native Fish in the Colorado River
A study conducted by the USGS provides new insights into the migration patterns of three native fish species in the Colorado River: humpback chub, flannelmouth sucker, and bluehead sucker. This research highlights the importance of understanding native fish population dynamics within the Colorado River ecosystem in Grand Canyon, AZ.
River Sediment Dynamics
Sediment controls the physical habitat of river ecosystems. Changes in the amount and areal distribution of different sediment types cause changes in river-channel form and river habitat. The amount and type of sediment suspended in the water column determines water clarity. Understanding sediment transport and the conditions under which sediment is deposited or eroded from the various...
