Saturday, July 15, 2017

"Recent studies in sub-boreal forests of the western US post forest fire document high Snowshoe Hare densities in regenerating stands with high sapling densities within 0-2 decades"...................."This then raised the question of whether Canadian Lynx, a key predator of the Hares, would also use burned forest acreage more quickly after fire than previous studies had indicated"............"Within Washington State, the North Cascade Mountains are designated as critical lynx habitat and support one of the few remaining lynx breeding populations in the contiguous US" ................."According to a 2008 population model of Washington lynx habitat by Koehler et al. (2008), the state provided habitat for an estimated 87 lynx........................."In terms of conservation of forest carnivores, new findings from U. of British Columbia scientists offer a mixed message"............ "First, lynx use burned landscapes more often and more rapidly postfire than previously thought, which offers some hope that lynx and potentially other forest carnivores are resilient to large disturbances"................ "In contrast, if fire regimes do shift such that landscapes are more frequently burned by severe fires than in the past(due to warming temperatures), leading to high proportions of landscapes in early-seral(successional) conditions, there may be inadequate mature forest, postfire residuals, or regrowth to sustain predators(like Lynx) in these heavily burned landscapes"

READ FULL ARTICLE BY CLICKING ON THIS LINK
http://onlinelibrary.wiley.com/doi/10.1002/ece3.2824/full





Canada lynx use of burned areas: Conservation implications of changing fire regimes

Authors

  • Carmen M. Vanbianchi,

  • Melanie A. Murphy,

  • Karen E. Hodges

  • First published: 

Abstract

A fundamental problem in ecology is forecasting how species will react to major disturbances. As the climate warms, large, frequent, and severe fires are restructuring forested landscapes at large spatial scales, with unknown impacts on imperilled predators.
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 We use the United States federally Threatened Canada lynx as a case study to examine how predators navigate recent large burns, with particular focus on habitat features and the spatial configuration (e.g., distance to edge) that enabled lynx use of these transformed landscapes. We coupled GPS location data of lynx in Washington in an area with several recent large fires and a number of GIS layers of habitat data to develop models of lynx habitat selection in recent burns.

 Random Forest habitat models showed lynx-selected islands of forest skipped by large fires, residual vegetation, and areas where some trees survived to use newly burned areas. Lynx used burned areas as early as 1 year postfire, which is much earlier than the 2–4 decades postfire previously thought for this predator.

A mosaic of burnt, regenerating and historical forest in
Washington State







These findings are encouraging for predator persistence in the face of fires, but increasingly severe fires or management that reduces postfire residual trees or slow regeneration will likely jeopardize lynx and other predators. Fire management should change to ensure heterogeneity is retained within the footprint of large fires to enable viable predator populations as fire regimes worsen with climate change.

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