The geographic pattern in potential forest productivity (bolewood production) under current conditions was initially mapped over Oregon and Washington (Latta et al. 2009) based on statistical relationships between site index of USDA Forest Service forest Inventory and Analysis plots and PRISM climate data (i.e. interpolated meteorological station data). SAR_current is the result of that analysis with potential productivity in terms of gC/m2/yr of bolewood production. The same statistical relationships of climate to potential productivity were then used with downscaled climate data from General Circulation Models (800 m grid) to derive geographic patterns in potential forest productivity in 2100 (Latta et al. 2010).The...
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The geographic pattern in potential forest productivity (bolewood production) under current conditions was initially mapped over Oregon and Washington (Latta et al. 2009) based on statistical relationships between site index of USDA Forest Service forest Inventory and Analysis plots and PRISM climate data (i.e. interpolated meteorological station data). SAR_current is the result of that analysis with potential productivity in terms of gC/m2/yr of bolewood production. The same statistical relationships of climate to potential productivity were then used with downscaled climate data from General Circulation Models (800 m grid) to derive geographic patterns in potential forest productivity in 2100 (Latta et al. 2010).The...
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The geographic pattern in potential forest productivity (bolewood production) under current conditions was initially mapped over Oregon and Washington (Latta et al. 2009) based on statistical relationships between site index of USDA Forest Service forest Inventory and Analysis plots and PRISM climate data (i.e. interpolated meteorological station data). SAR_current is the result of that analysis with potential productivity in terms of gC/m2/yr of bolewood production. The same statistical relationships of climate to potential productivity were then used with downscaled climate data from General Circulation Models (800 m grid) to derive geographic patterns in potential forest productivity in 2100 (Latta et al. 2010).The...
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The geographic pattern in potential forest productivity (bolewood production) under current conditions was initially mapped over Oregon and Washington (Latta et al. 2009) based on statistical relationships between site index of USDA Forest Service forest Inventory and Analysis plots and PRISM climate data (i.e. interpolated meteorological station data). SAR_current is the result of that analysis with potential productivity in terms of gC/m2/yr of bolewood production. The same statistical relationships of climate to potential productivity were then used with downscaled climate data from General Circulation Models (800 m grid) to derive geographic patterns in potential forest productivity in 2100 (Latta et al. 2010).The...
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The geographic pattern in potential forest productivity (bolewood production) under current conditions was initially mapped over Oregon and Washington (Latta et al. 2009) based on statistical relationships between site index of USDA Forest Service forest Inventory and Analysis plots and PRISM climate data (i.e. interpolated meteorological station data). SAR_current is the result of that analysis with potential productivity in terms of gC/m2/yr of bolewood production. The same statistical relationships of climate to potential productivity were then used with downscaled climate data from General Circulation Models (800 m grid) to derive geographic patterns in potential forest productivity in 2100 (Latta et al. 2010).The...
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