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This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Pacific silver fir (Abies amabilis). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Sitka Spruce (Picea sitchensis). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Northern Spotted Owl (Strix occidentalis caurina). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Marbled Murrelet (Brachyramphus marmoratus). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Alaska yellowcedar (Calliotropsis nootkatensis). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Witch's hair (Alectoria sarmentosa). The modeling algorithm Maxent and the Worldclim predictor set have been used to obtain niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Grand fir (Abies grandis). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Mountain Hemlock (Tsuga mertensiana). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Western Hemlock (Tsuga heterophylla). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Coastal Redwood (Sequoia sempervirens). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Sitka blacktailed deer (Odocoileus hemionus sitkensis). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Western Redcedar (Thuja plicata). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Sitka Spruce (Picea sitchensis). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Lettuce lichen (Lobaria oregana). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Grand fir (Abies grandis). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Pacific silver fir (Abies amabilis). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Lettuce lichen (Lobaria oregana). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Western Redcedar (Thuja plicata). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Mountain Hemlock (Tsuga mertensiana). The modeling algorithm Maxent and the Worldclim predictor set have been used to compute niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.
This package contains 13 polygon layers representing baseline and predicted future climate niches (2050s & 2080s) of Witch's hair (Alectoria sarmentosa). The modeling algorithm Maxent and the Worldclim predictor set have been used to obtain niche projections under two emission scenarios (A1B & A2A) based on three general circulation models (CSIRO, CCCMA & HADCM3). The shapefiles are derived from gridded model outputs with a grid cell resolution of 30 arcseconds.

