Using Topography to Meet Wildlife and Fuels Treatment Objectives in Fire-Suppressed Landscapes |
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Authors: | Emma C Underwood Joshua H Viers James F Quinn Malcolm North |
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Institution: | (1) Department of Environmental Science and Policy, University of California, Davis, CA 95616, USA;(2) USDA Forest Service, Pacific Southwest Research Station, 1731 Research Park Drive, Davis, CA 95618, USA |
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Abstract: | Past forest management practices, fire suppression, and climate change are increasing the need to actively manage California
Sierra Nevada forests for multiple environmental amenities. Here we present a relatively low-cost, repeatable method for spatially
parsing the landscape to help the U.S. Forest Service manage for different forest and fuel conditions to meet multiple goals
relating to sensitive species, fuels reduction, forest products, water, carbon storage, and ecosystem restoration. Using the
Kings River area of the Sierra Nevada as a case study, we create areas of topographically-based units, Landscape Management
Units (LMUs) using a three by three matrix (canyon, mid-slope, ridge-top and northerly, southerly, and neutral aspects). We
describe their size, elevation, slope, aspect, and their difference in inherent wetness and solar radiation. We assess the
predictive value and field applicability of LMUs by using existing data on stand conditions and two sensitive wildlife species.
Stand conditions varied significantly between LMUs, with canyons consistently having the greatest stem and snag densities.
Pacific fisher (Martes pennanti) activity points (from radio telemetry) and California spotted owl (Strix occidentalis occidentalis) nests, roosts, and sightings were both significantly different from uniform, with a disproportionate number of observations
in canyons, and fewer than expected on ridge-tops. Given the distinct characteristics of the LMUs, these units provide a relatively
simple but ecologically meaningful template for managers to spatially allocate forest treatments, thereby meeting multiple
National Forest objectives. These LMUs provide a framework that can potentially be applied to other fire-dependent western
forests with steep topographic relief. |
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