Influence of fire severity and vegetation treatments on mule deer (Odocoileus hemionus) winter habitat use on the Kaibab Plateau, Arizona
Kirby D. Bristow A C , Larisa E. Harding A , Richard W. Lucas B and Thomas C. McCall AA Arizona Game and Fish Department, 5000 West Carefree Highway, Phoenix, AZ 85086, USA.
B Southwest Environmental Institute, 42924 North 46th Avenue, Phoenix, AZ 85087, USA.
C Corresponding author. Email: kbristow@azgfd.gov
Animal Production Science 60(10) 1292-1302 https://doi.org/10.1071/AN19373
Submitted: 9 July 2019 Accepted: 19 December 2019 Published: 20 April 2020
Abstract
Context: Wildfire and vegetation treatments affect mule deer (Odocoileus hemionus) populations across the western United States. However, the relative influence of fire and treatments on habitat use by mule deer in Arizona is not well defined.
Aims: We examined locations of mule deer on the Kaibab Plateau in northern Arizona, so as to determine the influence of vegetation treatments and wildfire severity on deer habitat-use patterns across their winter range where fires and treatments had occurred previously.
Methods: We used locations (n = 11 297) from 21 adult female mule deer fitted with global positioning system collars to model probability of use as a function of habitat covariates.
Key results: The best model describing winter-range habitat use by mule deer on the Kaibab Plateau included covariates describing the age of vegetation treatments and fire severity. Increased deer use in winter was associated with areas of lower terrain ruggedness and reduced snow depths. Deer use also increased in areas that experienced a higher average fire severity, resulting in decreased vegetation heights. Among treatment age classes, deer use was greatest in areas containing vegetation treatments that were ≤6 years old, but negatively associated with treatments that were >6 years old.
Conclusions: Vegetation treatments designed to remove or reduce less palatable tree and shrub species to improve forage conditions may increase the use of winter habitats by deer on the Kaibab Plateau. Similarly, prescribed fire and rangeland treatments designed to return areas to a more natural fire regime and, thereby, generate new plant growth, may improve winter-range habitat conditions for mule deer.
Implications: Similar treatment strategies may also benefit mule deer populations throughout the western USA, by improving forage conditions on critical habitats and reducing the potential for catastrophic wildfire.
Additional keywords: frequency count data, landscape changes, negative binomial, probability of use, ungulates, water developments, wildfire.
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