Alaska Biomass Map

Citation_Information:

Originator:

USDA Forest Service Forest Invenstory and Analysis, Geospatial Technology and Applications Center

Publication_Date: 2008

Title:

Mapping U.S. forest biomass using nationwide forest inventory data and moderate resolution information

Authors: J.A. Blackard, M.V. Finco, E.H. Helmer, G.R. Holden, M.L. Hoppus, D.M. Jacobs, A.J. Lister, G.G. Moisen, M.D. Nelson, R. Riemann, B. Ruefenacht, D. Salajanu, D.L Weyermann, K.C. Winterberger, T.J. Brandeis, R.L. Czaplewski, R.E. McRoberts, P.L. Patterson, R.P. Tymcio

Geospatial_Data_Presentation_Form: remote-sensing image

Series_Information:

Series_Name: Remote Sensing of Environment

Issue_Identification: 112:1658-1677

Publication_Information:

Publisher: Elsevier

Online_Linkage: <https://data.fs.usda.gov/geodata/rastergateway/biomass/>

Abstract:

An aboveground live forest biomass map for the conterminous U.S., Alaska and Puerto Rico is derived from modeling field biomass estimates, collected nationwide by the USDA Forest Service Forest Inventory and Analysis (FIA) program, as functions of 250-m resolution satellite image products and other digital geographic layers. These predictor layers included the following: 16-day Moderate Resolution Imaging Spectrometer (MODIS) composites, associated vegetation indices, and percent tree cover; vegetative diversity and type synthesized from the National Land Cover Dataset (NLCD); topographic variables; monthly and annual climate parameters; and other ancillary variables. We segmented the U.S. into 65 ecologically similar mapping zones, plus Alaska and Puerto Rico. Before modeling biomass, inventory data served as the basis for classifying the predictor layers into a forest mask with the nonparametric classifier, See5©. Forest biomass models within the predicted forest areas used tree-based algorithms in Cubist©. Using independent test data, the estimated proportion of correctly classified pixels for the forest mask ranged from 0.85 in the Pacific Northwest to 0.94 in Alaska, while estimates of Kappa ranged from 0.57 in Puerto Rico to 0.88 in Alaska. For biomass, the largest model correlation coefficients between observed and predicted values, of 0.66 to 0.78, occurred in the Pacific Northwest and Interior West, while model correlation coefficients were smaller, with most below 0.40 in the eastern mapping zones. Design- and map-based estimates of total forest area and total aboveground live forest biomass are compared for individual states as well as four scales of spatial aggregation. An estimate of C pools in live forest biomass of U.S. forests, derived from the nationwide biomass map, is also compared to previously published estimates. This article documents the national geospatial predictor layer database, standardizing the national FIA data, developing predictive models, producing the maps with accompanying map uncertainty, and assessing model errors.

Purpose:

The purpose of this dataset is to portray broad distribution patterns of biomass in Alaska and provide input to national scale modeling projects.

Time_Period_Information:

Single_Date/Time:

Calendar_Date: 2004

Currentness_Reference: ground condition

Progress: Complete

Maintenance_and_Update_Frequency: Irregular

Bounding_Coordinates:

West_Bounding_Coordinate: -180.000000

East_Bounding_Coordinate: 180.000000

North_Bounding_Coordinate: 71.407166

South_Bounding_Coordinate: 50.567766

Theme:

Theme_Keyword_Thesaurus: None

Theme_Keyword: Forest Biomass

Theme_Keyword: Forest Inventory and Analysis

Theme_Keyword: FIA

Theme_Keyword: CART Modeling

Theme_Keyword: MODIS

Place:

Place_Keyword: AK

Place_Keyword: Alaska

Contact_Information:

Contact_Person_Primary:

Contact_Person: Ken Winterberger

Contact_Organization: USDA Forest Service Forest Inventory and Analysis

Contact_Position: Research Scientist

Contact_Address:

Contact_Voice_Telephone: 907-743-9419

Contact_Facsimile_Telephone: 907-743-9482

Contact_Electronic_Mail_Address: kwinterberger@fs.fed.us

Source_Information:

Source_Citation:

Citation_Information:

Originator: USDA Forest Service Geospatial Technology and Applications Center

Publication_Date: 2002

Title: Dominate Aspect

Geospatial_Data_Presentation_Form: raster digital data

Other_Citation_Details:

Created using USGS National Elevation Dataset (<https://www.usgs.gov>) Processing Steps 1. Imported BILmeters format into ESRI GRID format. 2. Reprojected into Albers Conical Equal Area NAD 27 with a 60m resolution 3. Mosaicked tiles into a contiguous dataset 4. Resampled to 30m resolution to maintan continuity with CONUS dataset 5. Used a 3x3 focal mean function to output a 90m DEM dataset 6. Created an Aspect Dataset from the 90m DEM 7. Reclassified the Aspect dataset into 4 categories Category 1: 0° - 90° Category 2: 90° - 180° Category 3: 180° - 270° Category 4: 270° - 360° 8. Performed a 3x3 Focal Majority output to 270m resolution 9. Reprojected/Resampled to a 250m NAD83 dataset.

Source_Scale_Denominator: 30-meter

Type_of_Source_Media: CD-ROM

Source_Time_Period_of_Content:

Time_Period_Information:

Single_Date/Time:

Calendar_Date: 2002

Source_Currentness_Reference: ground condition

Source_Citation_Abbreviation: Dominant Aspect

Source_Information:

Source_Citation:

Citation_Information:

Originator: USDA Forest Service Geospatial Technology and Applications Center

Publication_Date: 2002

Title: Mean Elevation

Other_Citation_Details:

Created using USGS National Elevation Dataset (<https://www.usgs.gov>) Processing Steps 1. Imported BILmeters format into ESRI GRID format. 2. Reprojected into Albers Conical Equal Area NAD 27 with a 60m resolution 3. Mosaicked tiles into a contiguous dataset 4. Resampled to 30m resolution to maintan continuity with CONUS dataset 5. Used a 3x3 focal mean function to output a 90m DEM dataset 6. Reprojected / Resampled to NAD83 with 250m cell size using Bilear Interpolation.

Source_Scale_Denominator: 30-meter

Type_of_Source_Media: CD-ROM

Source_Time_Period_of_Content:

Time_Period_Information:

Single_Date/Time:

Calendar_Date: 2002

Source_Currentness_Reference: ground condition

Source_Citation_Abbreviation: Mean Elevation

Source_Information:

Source_Citation:

Citation_Information:

Originator: USDA Forest Service Geospatial Technology and Applications Center

Publication_Date: 2002

Title: Percent Slope

Other_Citation_Details:

Created using USGS National Elevation Dataset (<https://www.usgs.gov>) Processing Steps 1. Imported BILmeters format into ESRI GRID format. 2. Reprojected into Albers Conical Equal Area NAD 27 with a 60m resolution 3. Mosaicked tiles into a contiguous dataset 4. Resampled to 30m resolution to maintan continuity with CONUS dataset 5. Used a 3x3 focal mean function to output a 90m DEM dataset 6. Reprojected / Resampled to NAD83 with 250m cell size using Bilear Interpolation.

Source_Scale_Denominator: 30-meter

Type_of_Source_Media: CD-ROM

Source_Time_Period_of_Content:

Time_Period_Information:

Single_Date/Time:

Calendar_Date: 2002

Source_Currentness_Reference: ground condition

Source_Citation_Abbreviation: Percent Slope

Source_Information:

Source_Citation:

Citation_Information:

Originator: USDA Forest Service Geospatial Technology and Applications Center

Publication_Date: 2002

Title: Variety Dominate Aspect

Other_Citation_Details:

Created using USGS National Elevation Dataset (<https://www.usgs.gov>) Processing Steps 1. Imported BILmeters format into ESRI GRID format. 2. Reprojected into Albers Conical Equal Area NAD 27 with a 60m resolution. 3. Mosaicked tiles into a contiguous dataset. 4. Resampled to 30m resolution to maintan continuity with CONUS dataset. 5. Used a 3x3 focal mean function to output a 90m DEM dataset. 6. Created an Aspect Dataset from the 90m DEM. 7. Reclassified the Aspect dataset into 4 categories. Category 1: 0° - 90° Category 2: 90° - 180° Category 3: 180° - 270° Category 4: 270° - 360° 8. Performed 3x3 Focal Variety function output to 270m. 9. Reprojeced / Resampled to NAD83 at 250m resolution.

Source_Scale_Denominator: 30-meter

Type_of_Source_Media: CD-ROM

Source_Time_Period_of_Content:

Time_Period_Information:

Single_Date/Time:

Calendar_Date: 2002

Source_Currentness_Reference: ground condition

Source_Citation_Abbreviation: Variety Dominate Aspect

Source_Information:

Source_Citation:

Citation_Information:

Originator: USDA Forest Service

Publication_Date: 200403

Title:

Baileys Ecoregions and Subregions of the United States, Puerto Rico, and the U.S. Virgin Islands

Geospatial_Data_Presentation_Form: vector digital data

Other_Citation_Details:

This map layer is commonly called Baileys ecoregions and shows ecosystems of regional extent in the United States, Puerto Rico, and the U.S. Virgin Islands.

Processing Steps: 1. Downloaded file from <https://www.fs.fed.us/institute/ecoregions/eco_download.html>. 2. Imported ArcInterchange file into ArcCoverage format (Albers Conical Equal Area Clark1866) 3. Imported ArcCoverage file into raster format with 250m cell resolution. 4. Reprojected / Resampled to common Albers Conical Equal Area NAD83 projection.

Online_Linkage: <https://www.nationalatlas.gov>

Type_of_Source_Media: online

Source_Time_Period_of_Content:

Time_Period_Information:

Single_Date/Time:

Calendar_Date: 200403

Source_Currentness_Reference: publication date

Source_Citation_Abbreviation: Bailey's Ecoregions

Source_Information:

Source_Citation:

Citation_Information:

Originator:

Nowacki, Gregory; Spencer, Page; Fleming, Michael; Brock, Terry; and Jorgenson, Torre

Publication_Date: 2001

Title: Ecoregions of Alaska: 2001

Geospatial_Data_Presentation_Form: vector digital data

Other_Citation_Details:

This ecoregion map combines the Bailey and Omernik approach to ecoregion mapping in Alaska. The ecoregions were developed cooperatively by the U.S. Forest Service, National Park Service, U.S. Geological Survey, The Nature Conservancy, and personnel from many other agencies and private organizations.

Processing Steps: 1. Downloaded file from <https://www.nps.gov/akso/gis/Alaska/alaskaBiol.htm> 2. Imported ArcInterchange file into ArcCoverage format (Albers Conical Equal Area NAD27) 3. Imported ArcCoverage file into raster format with 250m cell resolution. 4. Reprojected / Resampled to common Albers Conical Equal Area NAD83 projection.

Online_Linkage: <https://agdc.usgs.gov/ecoreg/ecoreg.html>

Type_of_Source_Media: online

Source_Time_Period_of_Content:

Time_Period_Information:

Single_Date/Time:

Calendar_Date: 2001

Source_Currentness_Reference: publication date

Source_Citation_Abbreviation: Unified Ecoregions

Source_Information:

Source_Citation:

Citation_Information:

Originator: University of Maryland

Publication_Date: 2002

Title: MODIS 8-day Composites - Global Land Cover Facility

Geospatial_Data_Presentation_Form: raster digital data

Other_Citation_Details:

The GLCF develops and distributes remotely sensed satellite data and products concerned with land cover from the local to global scales.

Online_Linkage: <http://glcf.umiacs.umd.edu/index.shtml>

Source_Scale_Denominator: 250-meter

Type_of_Source_Media: online

Source_Time_Period_of_Content:

Time_Period_Information:

Single_Date/Time:

Calendar_Date: 2002

Source_Currentness_Reference: ground condition

Source_Citation_Abbreviation: MODIS

Source_Information:

Source_Citation:

Citation_Information:

Originator: U.S. Geological Survey

Publication_Date: 2002

Title: MODIS Vegetation Continuous Fields

Other_Citation_Details:

Created using MODIS data from the Land Processes Distribution Active Archive Center (<https://edcdaac.usgs.gov/main.html>) LP DAAC Data Set - MODIS/Terra Vegetation Continuous Fields Yearly L3 Global 500m ISIN v003 MODIS Product - MOD44B Processing Steps: 1. Imported MODIS EOD HDF format file into ERDAS Imagine (*,img) format. 2. Reprojected into Lambert Conformal Conic NAD27 from Integerized Sinusoidal using ERDAS Imagine 8.5 with the Nearest Neighbor and Rigerous Transformation options selected. 3. Subset area of interest from entire image 4. Resampled / reprojected to a common coordinate system & resolution (250m)

Online_Linkage: <https://edcdaac.usgs.gov/main.html>

Source_Scale_Denominator: 250-meter

Type_of_Source_Media: online

Source_Time_Period_of_Content:

Time_Period_Information:

Single_Date/Time:

Calendar_Date: 2002

Source_Currentness_Reference: ground condition

Source_Citation_Abbreviation: MODIS VCF

Source_Information:

Source_Citation:

Citation_Information:

Originator: U.S. Geological Survey (USGS)

Publication_Date: 2002

Title: MODIS EVI

Other_Citation_Details:

Created using MODIS data from the Land Processes Distribution Active Archive Center (<https://edcdaac.usgs.gov/main.html>) LP DAAC Data Set - MODIS/Terra Vegetation Indices 16-Day L3 Global 250 ISIN GRID v003 MODIS Product - MOD13Q1 Processing Steps: 1. Imported MODIS EOD HDF format file into ERDAS Imagine (*,img) format. 2. Reprojected into Albers Conical Equal Area NAD27 from Integerized Sinusoidal using ERDAS Imagine 8.5 with the Nearest Neighbor and Rigerous Transformation options selected. 3. Mosaicked Tiled data into a contiguous dataset. 4. Subset area of interest from entire image 5. Resampled / reprojected to a common coordinate system & resolution (250m) in an Albers Conical Equal Area NAD83 projection.

Online_Linkage: <https://edcdaac.usgs.gov/main.html>

Source_Scale_Denominator: 250-meter

Type_of_Source_Media: online

Source_Time_Period_of_Content:

Time_Period_Information:

Single_Date/Time:

Calendar_Date: 2002

Source_Currentness_Reference: ground condition

Source_Citation_Abbreviation: MODIS EVI

Source_Information:

Source_Citation:

Citation_Information:

Originator: U.S. Geological Survey

Publication_Date: 2002

Title: MODIS NDVI

Other_Citation_Details:

Created using MODIS data from the Land Processes Distribution Active Archive Center (<https://edcdaac.usgs.gov/main.html>) LP DAAC Data Set - MODIS/Terra Vegetation Indices 16-Day L3 Global 250 ISIN GRID v003 MODIS Product - MOD13Q1 Processing Steps: 1. Imported MODIS EOD HDF format file into ERDAS Imagine (*,img) format. 2. Reprojected into Albers Conical Equal Area NAD27 from Integerized Sinusoidal using ERDAS Imagine 8.5 with the Nearest Neighbor and Rigerous Transformation options selected. 3. Mosaicked Tiled data into a contiguous dataset. 4. Subset area of interest from entire image 5. Resampled / reprojected to a common coordinate system & resolution (250m) in an Albers Conical Equal Area NAD83 projection.

Online_Linkage: <https://edcdaac.usgs.gov/main.html>

Source_Scale_Denominator: 250-meter

Type_of_Source_Media: online

Source_Time_Period_of_Content:

Time_Period_Information:

Single_Date/Time:

Calendar_Date: 2002

Source_Currentness_Reference: ground condition

Source_Citation_Abbreviation: MODIS NDVI

Process_Step:

Process_Description:

The methodology used to produce the database combined ground-truth (from FIA plot data) with multi-date imagery and variety of other spatially continuous geospatial data. The predictor data themes include,

- Elevation, slope, and aspect - Unified Ecoregions - MODIS Vegetation Indices such as EVI, NDVI. - MODIS Vegetation Continuous Fields - MODIS fire points for developed from the MODIS Active Fire Maps - MODIS 8-day composites

Statistical models developed in Rulequest's Cubist data mining software link the FIA plot variables with the imagery and geospatial data. Cubist creates rulesets, which have the advantage of not assuming parametric properties within the predictor data and are thus are more appropriate for the multi-scale, multi-source data, which are being used.

Raster_Object_Type: Pixel

Row_Count: 7858

Column_Count: 13133

Vertical_Count: 1

Planar:

Map_Projection:

Map_Projection_Name: Albers Conical Equal Area

Albers_Conical_Equal_Area:

Standard_Parallel: 55.000000

Standard_Parallel: 65.000000

Longitude_of_Central_Meridian: -154.000000

Latitude_of_Projection_Origin: 50.000000

False_Easting: 0.000000

False_Northing: 0.000000

Planar_Coordinate_Information:

Planar_Coordinate_Encoding_Method: row and column

Coordinate_Representation:

Abscissa_Resolution: 250.000000

Ordinate_Resolution: 250.000000

Planar_Distance_Units: meters

Geodetic_Model:

Horizontal_Datum_Name: North American Datum of 1983

Ellipsoid_Name: Geodetic Reference System 80

Semi-major_Axis: 6378137.000000

Denominator_of_Flattening_Ratio: 298.257222

Entity_Type:

Entity_Type_Label: Layer 1

Entity_Type_Definition: Biomass

Attribute:

Attribute_Domain_Values:

Range_Domain:

Range_Domain_Minimum: 2.2417

Range_Domain_Maximum: 694.93

Attribute_Units_of_Measure: Mg/ha

Contact_Information:

Contact_Organization_Primary:

Contact_Organization: USDA Forest Service Geospatial Technology and Applications Center

Contact_Address:

Address: 125 South State Street, Suite 7105

City: Salt Lake City

State_or_Province: Utah

Postal_Code: 84138

Country: USA

Contact_Voice_Telephone: 801-975-3750

Contact_Facsimile_Telephone: 801-975-3478

The USDA Forest Service reserves the right to correct, update or modify this data and related materials without notification.

Digital_Form:

Digital_Transfer_Information:

Format_Name: ERDAS

Transfer_Size: 0.000

Contact_Information:

Contact_Organization_Primary:

Contact_Organization: USDA Forest Service Geospatial Technology and Applications Center

Contact_Person: Bonnie Ruefenacht

Contact_Address:

Address_Type: mailing and physical address

Address: 125 South State Street, Suite 7105

City: Salt Lake City

State_or_Province: Utah

Postal_Code: 84138

Country: USA

Contact_Voice_Telephone: 801-975-3828

Contact_Facsimile_Telephone: 801-975-3478

Contact_Electronic_Mail_Address: bruefenacht@fs.fed.us

Online_Linkage: <http://www.esri.com/metadata/esriprof80.html>

Profile_Name: ESRI Metadata Profile