Knowledge Neighborhoods

focuses on environmental impact assessment, land use planning, and natural resource management across Colorado's diverse ecosystems to inform policy decisions and conservation strategies.

studies how yellow-bellied marmots form social relationships, respond to predators, and maintain populations over multiple decades, providing insights into mammalian social evolution and conservation.

studies the East River watershed's hydrological processes, water discharge patterns, and environmental changes to understand how mountain ecosystems respond to climate variability and human impacts.

investigates how pollinators shape the evolution of flower traits and plant reproduction, helping us understand how species adapt and diversify in response to ecological pressures.

studies how climate change disrupts the timing of flowering plants and their pollinators, which threatens ecosystem stability and food webs in alpine environments.

studies comprehensive environmental and economic planning for Colorado's development, focusing on spatial modeling and resource management to inform policy decisions for sustainable regional growth.

develops predictive models for mountain snowpack, evapotranspiration, and streamflow to understand how climate change affects water availability in western watersheds.

studies how aquatic organisms adapt their physical traits and compete with each other in mountain stream and pond environments, helping us understand how species survive and interact in changing freshwater ecosystems.

studies how water movement and biogeochemical processes interact in mountain watersheds to understand nutrient cycling, pollution transport, and ecosystem responses to environmental change.

studies renewable energy technologies, including biofuels and solar power, and their environmental impacts through thermal monitoring and economic analysis to support sustainable energy transitions in mountain regions.

studies how butterflies adapt to changing temperatures and interact with their host plants, which is crucial for understanding how insects will respond to climate change and environmental pressures.

studies how climate change and warming temperatures affect alpine plant growth, adaptation, and ecosystem processes in high-elevation environments, which is critical for understanding how mountain ecosystems will respond to global environmental change.

investigates how plant physical and physiological characteristics like leaf area and photosynthesis rates vary across different environmental conditions to understand how plants adapt to their surroundings.

studies how atmospheric conditions like wind patterns, boundary layers, and aerosol particles interact to affect air quality and weather patterns, which is crucial for understanding climate change and pollution impacts on human health and ecosystems.

studies how water moves through soils and sediments and the chemical reactions that occur underground, which is crucial for understanding water quality and ecosystem health.

studies how changing air temperatures and climate conditions affect plant water content and soil moisture, using field experiments and remote sensing to understand ecosystem responses to environmental stress.

focuses on mapping and understanding the geological structure, magnetic properties, and formation history of Colorado's major river regions including the Upper Arkansas, Rio Grande, and San Juan areas.

studies how plants and insects interact with each other across different elevations and environmental conditions, helping us understand how climate change affects these crucial ecological relationships.

studies forest and riparian ecosystems in the Colorado Rockies, focusing on vegetation dynamics, wildlife interactions, and management strategies for invasive species and ecological restoration.

studies how plant communities and their underground fungal partners respond to changing climate conditions along mountain elevation gradients, which is crucial for predicting ecosystem changes in alpine environments.

studies how pollinators like bees interact with flowering plants, examining foraging patterns, pollen chemistry, and plant density effects to understand critical ecological relationships that support both plant reproduction and pollinator populations.

studies how animal populations change over time in response to environmental factors, which is crucial for understanding species survival and ecosystem health in a changing climate.

investigates how wildfires and other disturbances shape plant community composition and recovery patterns, which is crucial for understanding ecosystem resilience and informing land management decisions.

studies how water flows through mountain streams and how stream channels change over time, which is crucial for understanding watershed management and flood prediction in alpine environments.

studies how to restore and manage streams and riparian areas, focusing on understanding hillslope connections and cottonwood forest dynamics to inform land use planning and watershed conservation efforts.

investigates groundwater dynamics, water table fluctuations, and heavy metal contamination using advanced monitoring techniques to understand water quality and availability in mountain environments.

focuses on balancing recreational use, timber harvesting, and habitat protection in the Gunnison National Forest to ensure sustainable land management practices.

studies how mining activities, particularly molybdenum extraction and acid mine drainage, affect water quality and metal contamination in mountain watersheds, which is critical for understanding environmental impacts of resource extraction in sensitive alpine ecosystems.

develops genomic resources and sequencing techniques for wildlife species, creating reference genomes that enable conservation genetics and evolutionary studies of animals in mountain ecosystems.

focuses on restoring and managing wildlife habitats to combat biodiversity loss and improve ecosystem quality for threatened species like sage-grouse and other big game animals.

focuses on monitoring water quality, pesticide impacts, and protecting aquatic ecosystems including native trout populations in Colorado's mountain watersheds.

investigates how microorganisms in floodplain sediments influence the cycling and bioavailability of metals like iron and lead, which is crucial for understanding contamination and ecosystem health in mountain watersheds.

evaluates the economic costs and environmental consequences of human infrastructure like trails and wastewater systems, helping communities make informed decisions about development and conservation.

studies groundwater systems and water resources in mountainous watersheds, focusing on understanding water availability and developing sustainable management practices for alpine environments.

studies soil properties, erosion processes, and conservation strategies to understand how to protect and manage soil resources in ranch and mountain environments.

studies historic and cultural resources through archaeological surveys and inventories to understand human-environment interactions and preserve cultural heritage in mountain regions.