Final Report: Predicting Snow Water Equivalence (SWE) and Soil Moisture Response to Restoration Treatments in Headwater Ponderosa Pine Forests of the Desert LCC

The U.S. Forest Service plans to conduct forest restoration treatments through the Four Forest Restoration Initiative (4FRI) on hundreds of thousands of acres of ponderosa pine forest along the Mogollon Rim of Arizona over the next 20 years with the goals of reducing wildfire hazard and improving forest health. The 4FRI’s key objective is to thin and burn the forests to create within-stand openings that “promote snowpack accumulation and retention which benefit groundwater recharge and watershed processes at the fine (1 to 10 acres) scale.” However, little is known about how these openings created by restoration treatments affect snow water equivalence (SWE) and soil moisture, which are key parts of the water balance...

Categories: Data; Types: Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service; Tags: 2013, AL-04, AZ-01, Academics & scientific researchers, Applications and Tools, All tags... Arizona, Centennial Forest, Coconino National Forest, Conservation NGOs, Conservation Planning, Data Acquisition and Development, Desert Landscape Conservation Cooperative, EARTH SCIENCE > TERRESTRIAL HYDROSPHERE > SNOW/ICE > SNOW WATER EQUIVALENT, Federal resource managers, Four Forest Restoration Initiative (4FRI) area, GIS, Gus Pearson Natural Area, Informing Conservation Delivery, LCC, LCC Network Science Catalog, Presentation, Publication, Report, Report, Training/Outreach/Workshop, Tribes, United States, Verde River Basin, biota, climate change, completed, forest management, forest structure, forest thinning, ponderosa pine forests, remote sensing, restoration, snow, snowpack, soil moisture, water, wildfire, Fewer tags

Predicting Snow Water Equivalence (SWE) and Soil Moisture Response to Restoration Treatments in Headwater Ponderosa Pine Forests of the Desert LCC

Northern Arizona University will build upon the U.S. Forest Service Four Forest Restoration Initiative in Northern Arizona to investigate how restoration efforts can affect the water volume available in the snowpack and soil moisture in the Desert LCC. This project will result in a tool that can be used to predict the water volume in snowpack and soil moisture response to various forest treatments.

Categories: Data, Project; Types: Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service; Tags: 2013, AL-04, AZ-01, Academics & scientific researchers, Applications and Tools, All tags... Arizona, Centennial Forest, Coconino National Forest, Conservation NGOs, Conservation Planning, Data Acquisition and Development, Desert Landscape Conservation Cooperative, EARTH SCIENCE > TERRESTRIAL HYDROSPHERE > SNOW/ICE > SNOW WATER EQUIVALENT, Federal resource managers, Four Forest Restoration Initiative (4FRI) area, GIS, GIS, Gus Pearson Natural Area, Informing Conservation Delivery, LCC, LCC Network Science Catalog, Presentation, Project, Publication, Report, Training/Outreach/Workshop, Tribes, United States, Verde River Basin, biota, climate change, climate change, completed, forest management, forest management, forest structure, forest structure, forest thinning, forest thinning, onGoing, ponderosa pine forests, ponderosa pine forests, remote sensing, remote sensing, restoration, restoration, snow, snow, snowpack, snowpack, soil moisture, soil moisture, water, water, wildfire, wildfire, Fewer tags

Improving Groundwater Supply Forecasting in the Southwestern U.S.

Changing climate conditions have been identified as a major threat to the sustainability and availability of water resources in the Southwestern U.S. Long-term decreases in precipitation can lead to reductions in regional groundwater levels and loss of groundwater storage in aquifers for some communities. Reduced precipitation can also lead to lower water levels in streams and losses in the vegetation that grows alongside riverbanks. The goal of this project was to identify how hydrologic systems in the Southwest might respond to changes in climate and the degree to which this response is dependent on the characteristics of the hydrologic system. To do this, researchers developed a tool that simulates how quickly...

Categories: Project; Types: Map Service, OGC WFS Layer, OGC WMS Layer, OGC WMS Service; Tags: 2012, AZ, CASC, Completed, Desert, All tags... Federal, Projects by Region, Riparian, Rivers, Streams and Lakes, Rivers, Streams and Lakes, Southwest, Southwest, Southwest CASC, Upper San Pedro Basin, Upper Verde Watershed, Verde River Basin, Water, Coasts and Ice, Water, Coasts and Ice, multiple, plants, Fewer tags