Terrestrial Condition Assessment (TCA) Fire Deficit
Direct Download (Raster Data Gateway)Objective: Identify ecosystems that have a significant proportion of their area burning less frequently than what occurred under historic fire regimes. Often, missed fire cycles were due to human factors, principally fire suppression since early in the 20th Century.Data: The area of a landscape with a deficient fire frequency was estimated by comparing observed fire frequencies to historical mean fire return intervals. Observed fire frequencies were calculated by determining the frequency of fire for each pixel based on raster data of observed fires from the Monitoring Trends in Burn Severity (MTBS) project. Areas in the unburned to low severity class were removed from this analysis. The ratio of observed to historical fire frequencies (as determined by Landfire MFRI) was used to determine pixels that are burning less frequently than expected. These pixels were then used to determine the percent area of the landscape deficient in fire. For areas with fire return intervals longer than the remote sensing record, the history of effective fire suppression was used to assume not enough fire occurred back to the implementation of widespread suppression starting in the 1920s through 1930s with policies such as the 10 AM rule. Prior to the 1920s, it is assumed fire return intervals were closer to the historic range of variation, although likely reduced due to the constrained role of Indigenous stewardship. Areas highly modified by anthropogenic activities (i.e., those with developed landcovers or agricultural landcovers of pasture and crop cultivation) and areas with a landcover that does not typically burn (i.e., barren or ice) were not included in the calculation. There is a 2 year lag between the most recent MTBS data and the TCA Assessment year (i.e. in the 2024 TCA Assessment, available MTBS data were from 1984-2022). To reduce this lag to 1 year, we compute the Composite Burn Index (CBI) for the year prior to the current assessment year using fire perimeters from National Interagency Fire Center (NIFC) with methods adapted from Parks et al. 2019. The CBI methods were added for the 2022 assessment. Landfire versions used for MFRI and the associated TCA Assessment are: Landfire 2014 (TCA Assessment 2020), Landfire 2016 (TCA Assessments 2021 and 2022) and Landfire 2020 (TCA Assessments 2023 and 2024).Format: Raster data are ordinal: (1) Deficient (2) Sufficient (3) Excessive.Resolution: 90m (2023 and 2024 assessments), 30m (2020-2022 assessments).Source: MTBS fire perimeters, expected fire return interval , CBI methods, National Interagency Fire Center Perimeters (for CBI)Additional Resources:Details on Method Changes and Source Data VersionsOverview of the Terrestrial Condition Assessment: TCA Hubsite or Landfire Office Hour PresentationExplore the results of the most recent assessment: TCA Interactive Data ViewerLearn more about the TCA KPI: TCA Dashboard*if you have trouble viewing the Dashboard, please submit a Tableau Viewer Access Request
Complete Metadata
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|---|---|
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| description | <DIV STYLE="text-align:Left;"><DIV><DIV><P STYLE="font-weight:bold;margin:0 0 11 0;"><A href="https://data.fs.usda.gov/geodata/rastergateway/TCA/TCA_Ecosystem_Departure.zip" STYLE="text-decoration:underline;"><SPAN STYLE="text-decoration:underline;"><SPAN>Direct Download (Raster Data Gateway)</SPAN></SPAN></A></P><P STYLE="margin:0 0 13 0;"><SPAN STYLE="font-weight:bold;"><SPAN>Objective:</SPAN></SPAN><SPAN><SPAN> Identify ecosystems that have a significant proportion of their area burning less frequently than</SPAN></SPAN><SPAN><SPAN> what occurred under historic</SPAN></SPAN><SPAN><SPAN> fire regimes. Often, missed fire cycles were due to human factors, principally fire suppression since </SPAN></SPAN><SPAN><SPAN>early in </SPAN></SPAN><SPAN><SPAN>the 20</SPAN></SPAN><SPAN><SPAN>th</SPAN></SPAN><SPAN><SPAN> Century.</SPAN></SPAN></P><P STYLE="margin:0 0 13 0;"><SPAN STYLE="font-weight:bold;"><SPAN>Data:</SPAN></SPAN><SPAN><SPAN> </SPAN></SPAN><SPAN><SPAN>The area of a landscape with a deficient fire frequency was estimated by comparing observed fire frequencies to historical mean fire return intervals. Observed fire frequencies were calculated by determining the frequency of fire for each pixel based on raster data of observed fires from the Monitoring Trends in Burn Severity (MTBS) project. Areas in the unburned to low severity class were removed from this analysis. The ratio of observed to historical fire frequencies (as determined by Landfire MFRI) was used to determine pixels that are burning less frequently than expected. These pixels were then used to determine the percent area of the landscape deficient in fire. For areas with fire return intervals longer than the remote sensing record, the history of effective fire suppression was used to assume not enough fire occurred back to the implementation of widespread suppression starting in the 1920s through 1930s with policies such as the 10 AM rule. Prior to the 1920s, it is assumed fire return intervals were closer to the historic range of variation, although likely reduced due to the constrained role of Indigenous stewardship. Areas highly modified by anthropogenic activities (i.e., those with developed landcovers or agricultural landcovers of pasture and crop cultivation) and areas with a landcover that does not typically burn (i.e., barren or ice) were not included in the calculation. There is a 2 year lag between the most recent MTBS data and the TCA Assessment year (i.e. in the 2024 TCA Assessment, available MTBS data were from 1984-2022). To reduce this lag to 1 year, we compute the Composite Burn Index (CBI) for the year prior to the current assessment year using fire perimeters from National Interagency Fire Center (NIFC) with methods adapted from Parks et al. 2019. The CBI methods were added for the 2022 assessment. Landfire versions used for MFRI and the associated TCA Assessment are: Landfire 2014 (TCA Assessment 2020), Landfire 2016 (TCA Assessments 2021 and 2022) and Landfire 2020 (TCA Assessments 2023 and 2024).</SPAN></SPAN></P><P STYLE="margin:0 0 13 0;"><SPAN STYLE="font-weight:bold;"><SPAN>Format:</SPAN></SPAN><SPAN><SPAN> </SPAN></SPAN><SPAN><SPAN>Raster data are ordinal: (1) Deficient (2) Sufficient (3) Excessive.</SPAN></SPAN></P><P STYLE="margin:0 0 13 0;"><SPAN STYLE="font-weight:bold;"><SPAN>Resolution:</SPAN></SPAN><SPAN><SPAN> </SPAN></SPAN><SPAN><SPAN>90m (2023 and 2024 assessments), 30m (2020-2022 assessments).</SPAN></SPAN></P><P STYLE="margin:0 0 13 0;"><SPAN STYLE="font-weight:bold;"><SPAN>Source: </SPAN></SPAN><A href="http://mtbs.gov/" STYLE="text-decoration:underline;"><SPAN STYLE="text-decoration:underline;"><SPAN>MTBS fire perimeters</SPAN></SPAN></A><SPAN><SPAN>, </SPAN></SPAN><A href="https://www.landfire.gov/fire-regime/fri" STYLE="text-decoration:underline;"><SPAN STYLE="text-decoration:underline;"><SPAN>expected fire return interval</SPAN></SPAN></A><SPAN><SPAN> , </SPAN></SPAN><A href="https://www.mdpi.com/2072-4292/11/14/1735" STYLE="text-decoration:underline;"><SPAN STYLE="text-decoration:underline;"><SPAN>CBI methods</SPAN></SPAN></A><SPAN><SPAN>, </SPAN></SPAN><A href="https://data-nifc.opendata.arcgis.com/datasets/nifc::wfigs-interagency-fire-perimeters/about" STYLE="text-decoration:underline;"><SPAN STYLE="text-decoration:underline;"><SPAN>National Interagency Fire Center Perimeters</SPAN></SPAN></A><SPAN><SPAN> (for CBI)</SPAN></SPAN></P><P STYLE="font-weight:bold;margin:0 0 11 0;"><SPAN><SPAN>Additional Resources:</SPAN></SPAN></P><P STYLE="margin:0 0 11 0;"><SPAN><SPAN>Details on </SPAN></SPAN><A href="https://usfs.box.com/s/79vx1b42xg8u6ivjombxjes36nzfhgml" STYLE="text-decoration:underline;"><SPAN STYLE="text-decoration:underline;"><SPAN>Method Changes and Source Data Versions</SPAN></SPAN></A></P><P STYLE="margin:0 0 11 0;"><SPAN><SPAN>Overview of the Terrestrial Condition Assessment: </SPAN></SPAN><A href="https://terrestrial-condition-assessment-usfs.hub.arcgis.com/" STYLE="text-decoration:underline;"><SPAN STYLE="text-decoration:underline;"><SPAN>TCA Hubsite</SPAN></SPAN></A><SPAN><SPAN> or </SPAN></SPAN><A href="https://www.youtube.com/watch?v=Kf0P3cAq1rs&list=PLwRbAc4x5n94rLca1CXXuugtRDt_G666M&index=19" STYLE="text-decoration:underline;"><SPAN STYLE="text-decoration:underline;"><SPAN>Landfire Office Hour Presentation</SPAN></SPAN></A></P><P STYLE="margin:0 0 11 0;"><SPAN><SPAN>Explore the results of the most recent assessment: </SPAN></SPAN><A href="https://apps.fs.usda.gov/gtac-toolsms/tca/" STYLE="text-decoration:underline;"><SPAN STYLE="text-decoration:underline;"><SPAN>TCA Interactive Data Viewer</SPAN></SPAN></A></P><P STYLE="margin:0 0 11 0;"><SPAN><SPAN>Learn more about the TCA KPI: </SPAN></SPAN><A href="https://cxodashboard.dl.usda.gov/t/NRE/views/EcologicalConditionOutcomes_17531128629260/EcologicalOutcomes" STYLE="text-decoration:underline;"><SPAN STYLE="text-decoration:underline;"><SPAN>TCA Dashboard</SPAN></SPAN></A></P><P STYLE="margin:0 0 11 0;"><SPAN><SPAN>*if you have trouble viewing the Dashboard, please submit a</SPAN></SPAN><SPAN STYLE="font-size:12pt"><SPAN> </SPAN></SPAN><A href="https://usdagcc.sharepoint.com/sites/fs-wo-cdoc/SitePages/Dashboards.aspx" STYLE="text-decoration:underline;"><SPAN STYLE="text-decoration:underline;"><SPAN>Tableau Viewer Access Request</SPAN></SPAN></A></P></DIV></DIV></DIV> |
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| identifier | https://www.arcgis.com/home/item.html?id=1f473020b2aa4e8c91c34df64c864c30 |
| issued | 2025-09-25 |
| keyword |
[
"CONUS",
"Deficient",
"Deficit",
"Departure",
"Ecosystems",
"Excessive",
"Fire",
"Geospatial Office",
"Sufficient",
"TCA",
"Terrestrial Condition Assessment",
"USFS"
]
|
| landingPage | https://data-usfs.hub.arcgis.com/datasets/usfs::terrestrial-condition-assessment-tca-fire-deficit-1 |
| license | https://creativecommons.org/licenses/by/4.0/ |
| modified | 2025-09-25 |
| programCode |
[
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| progressCode | onGoing |
| publisher |
{
"name": "U.S. Forest Service",
"source": "Forest Service"
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| spatial | -142.4565,17.3644,-50.0613,56.0807 |
| theme |
[
"geospatial"
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|
| title | Terrestrial Condition Assessment (TCA) Fire Deficit |
