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Climate change, wildfire, and past forest management challenge conservation of Canada lynx in Washington, USA

The synergistic effects of climate change, wildfires, fire suppression, and past forest management are challenging efforts to protect and recover Canada lynx (Lynx canadensis) in the North Cascades of Washington, USA. Canada lynx is a threatened species in the United States and a focal species used...

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Bibliographic Details
Published in:The Journal of wildlife management 2023-07, Vol.87 (5), p.n/a
Main Authors: Lyons, Andrea L., Gaines, William L., Lewis, Jeffrey C., Maletzke, Benjamin T., Werntz, Dave, Thornton, Daniel H., Hessburg, Paul F., Begley, James, Vanbianchi, Carmen, King, Travis W., Blatz, Gretchen, Fitkin, Scott
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Language:English
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Summary:The synergistic effects of climate change, wildfires, fire suppression, and past forest management are challenging efforts to protect and recover Canada lynx (Lynx canadensis) in the North Cascades of Washington, USA. Canada lynx is a threatened species in the United States and a focal species used to gain insights into the structure and function of boreal forest ecosystems. To understand how multiple stressors are influencing lynx populations and the boreal forest in Washington, we developed a spatially explicit carrying capacity model in HexSim using local data on lynx resource selection and life history. We used this model to estimate changes in carrying capacity and population persistence for 3 time steps: year 2000, which represented limited historical wildfire and aggressive fire suppression; year 2013, after nearly 2,000 km2 of wildfires burned about 17% of lynx habitat; and year 2020, after an additional 2,000 km2 of wildfires burned another 15% of lynx habitat in our study area. Fires altered habitat distribution and landscape capacity to support Canada lynx. There was a 66–73% reduction in lynx carrying capacity in our study area because of large, high‐severity fires that have occurred from 2000–2020, despite aggressive fire suppression. This reduction in carrying capacity was concurrent with decreases in the probability of lynx persistence from year 2000 to year 2020 simulations and was most pronounced for simulations that included no immigration and the largest home range size. The negative synergistic influences of long‐term fire suppression, timber harvest, increased drought, longer wildfire seasons, declining mountain snowpack, and increasingly frequent large fires pose considerable challenges to the conservation and recovery of Canada lynx and the boreal forest ecosystem upon which they depend. We discuss an alternative approach to vegetation and fire management to conserve and restore lynx habitat and populations in Washington. The synergistic effects of climate change, wildfires, fire suppression and past forest management are challenging efforts to protect and recover Canada lynx in the North Cascades of Washington State, USA. We estimated carrying capacity and population persistence of lynx from 2000 to 2020 and found extensive wildfire during that time had a strong negative impact on both metrics.
ISSN:0022-541X
1937-2817
DOI:10.1002/jwmg.22410