Description: This raster dataset shows the projected percentage loss to host tree species basal area due to Engraver Beetle (Ips spp.), assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
Description: This raster dataset shows the percent of projected BA loss relative to overall total BA from Engraver Beetle (Ips spp.), assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
Description: This raster dataset shows the sqare feet per acre BA loss to forest cover from Engraver Beetle (Ips spp.), assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
Description: This raster dataset shows the projected percentage loss to host tree species basal area due to Spruce Beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
Description: This raster dataset shows the percent of projected BA loss relative to overall total BA from Spruce Beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
Description: This raster dataset shows the sqare feet per acre BA loss to forest cover from Spruce Beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
Description: This raster dataset shows the projected percentage loss to host tree species basal area due to Eastern Larch Beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
Description: This raster dataset shows the percent of projected BA loss relative to overall total BA from Eastern Larch Beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
Description: This raster dataset shows the sqare feet per acre BA loss to forest cover from Eastern Larch Beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
Description: This raster dataset shows the percent of projected BA loss to forest cover from Dendroctonus ponderosae, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for Dendroctonus ponderosae by tree species host model and then divides the total BA losses from Dendroctonus ponderosae by total basal area.
Description: This raster dataset shows the sqare feet per acre BA loss to forest cover from Dendroctonus ponderosae, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for Dendroctonus ponderosae by tree species host model and then divides the total BA losses from Dendroctonus ponderosae by total basal area.
Description: This raster dataset shows the percent of projected BA loss to forest cover from Dendroctonus frontalis, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for Dendroctonus frontalis by tree species host model and then divides the total BA losses from Dendroctonus frontalis by total basal area.
Description: This raster dataset shows the sqare feet per acre BA loss to forest cover from Dendroctonus frontalis, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for Dendroctonus frontalis by tree species host model and then divides the total BA losses from Dendroctonus frontalis by total basal area.
Description: This raster dataset shows the percent of projected BA loss to forest cover from spruce beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for spruce beetle by tree species host model and then divides the total BA losses from spruce beetle by total basal area.
Description: This raster dataset shows the sqare feet per acre BA loss to forest cover from spruce beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for spruce beetle by tree species host model and then divides the total BA losses from spruce beetle by total basal area.
Description: This raster dataset shows the percent of projected BA loss to forest cover from Douglas-fir beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for Douglas-fir beetle by tree species host model and then divides the total BA losses from Douglas-fir beetle by total basal area.
Description: This raster dataset shows the sqare feet per acre BA loss to forest cover from Douglas-fir beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for Douglas-fir beetle by tree species host model and then divides the total BA losses from Douglas-fir beetle by total basal area.
Description: This raster dataset shows the percent of projected BA loss to forest cover from western pine beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for western pine beetle by tree species host model and then divides the total BA losses from western pine beetle by total basal area.
Description: This raster dataset shows the sqare feet per acre BA loss to forest cover from western pine beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for western pine beetle by tree species host model and then divides the total BA losses from western pine beetle by total basal area.
Description: This raster dataset shows the percent of projected BA loss to forest cover from fir engraver, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for fir engraver by tree species host model and then divides the total BA losses from fir engraver by total basal area.
Description: This raster dataset shows the sqare feet per acre BA loss to forest cover from fir engraver, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for fir engraver by tree species host model and then divides the total BA losses from fir engraver by total basal area.
Description: This raster dataset shows the percent of projected BA loss to forest cover from Jeffrey pine beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for Jeffrey pine beetle by tree species host model and then divides the total BA losses from Jeffrey pine beetle by total basal area.
Description: This raster dataset shows the sqare feet per acre BA loss to forest cover from Jeffrey pine beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for Jeffrey pine beetle by tree species host model and then divides the total BA losses from Jeffrey pine beetle by total basal area.
Description: This raster dataset shows the percent of projected BA loss to forest cover from western balsam bark beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for western balsam bark beetle by tree species host model and then divides the total BA losses from western balsam bark beetle by total basal area.
Description: This raster dataset shows the sqare feet per acre BA loss to forest cover from western balsam bark beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for western balsam bark beetle by tree species host model and then divides the total BA losses from western balsam bark beetle by total basal area.
Description: This raster dataset shows the percent of projected BA loss to forest cover from eastern larch beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for eastern larch beetle by tree species host model and then divides the total BA losses from eastern larch beetle by total basal area.
Description: This raster dataset shows the sqare feet per acre BA loss to forest cover from eastern larch beetle, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for eastern larch beetle by tree species host model and then divides the total BA losses from eastern larch beetle by total basal area.
Description: This raster dataset shows the percent of projected BA loss to forest cover from Dendroctonus adjunctus, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for Dendroctonus adjunctus by tree species host model and then divides the total BA losses from Dendroctonus adjunctus by total basal area.
Description: This raster dataset shows the sqare feet per acre BA loss to forest cover from Dendroctonus adjunctus, assuming no remediating management, over the 2013-2027 time frame.
The 2012 National Insect and Disease Risk Map (NIDRM) Project integrates 186 individual risk models constructed within a common, consistent framework that accounts for regional variations in forest health conditions. These 186 models are built to portray the expected loss of host basal area for each pair of damage agents and hosts over each unique landscape where they coexist.
This dataset composites the projected BA loss for Dendroctonus adjunctus by tree species host model and then divides the total BA losses from Dendroctonus adjunctus by total basal area.