Final Report: Linking Climatic, Hydrological, and Ecological Changes at Intermediate Timescales in a Great Basin Watershed
Dates
Date Received
2015
Citation
Alexandra Lutz, Final Project Report: Linking Climatic, Hydrological, and Ecological Changes at Intermediate Timescales in a Great Basin Watershed: .
Summary
This project links climate, hydrological, and ecological changes over the next 30 years in a Great Basin watershed. In recent years, climate variability on annual and decadal time scales has been recognized as greater than commonly perceived with increasing impacts on ecosystems and available water resources. Changes in vegetation distribution, composition and productivity resulting from climate change affect plant water use, which in turn can alter stream flow, groundwater and eventually available water resources. To better understand these links, project researchers implemented two computer-based numeric models in the Cleve Creek watershed in the Schell Creek Range, east of Ely, Nevada. The application of the two models to study [...]
Summary
This project links climate, hydrological, and ecological changes over the next 30 years in a Great Basin watershed. In recent years, climate variability on annual and decadal time scales has been recognized as greater than commonly perceived with increasing impacts on ecosystems and available water resources. Changes in vegetation distribution, composition and productivity resulting from climate change affect plant water use, which in turn can alter stream flow, groundwater and eventually available water resources. To better understand these links, project researchers implemented two computer-based numeric models in the Cleve Creek watershed in the Schell Creek Range, east of Ely, Nevada. The application of the two models to study the hydrologic and ecological processes in the watershed allows us to look forward in time over a range of possible scenarios to predict future water availability under simulated climate variability. Ultimately, the models can provide an array of outcomes that can help water resource managers identify threats and opportunities posed by climate variations during the next thirty years.