CSIRO Publishing

Journal of the International Association of Wildland Fire

Shopping Cart: ( empty )

Articles citing this paper

1984–2010 trends in fire burn severity and area for the conterminous US

Joshua J. Picotte ^A ^C , Birgit Peterson ^A , Gretchen Meier ^A and Stephen M. Howard ^C

+ Author Affiliations

- Author Affiliations

^A ASRC Federal InuTeq, LLC, Contractor to the United States Geological Survey (USGS), Earth Resources Observation and Science (EROS) Center, 47914 252nd Street, Sioux Falls, SD 57198, USA.

^B United States Geological Survey (USGS), Earth Resources Observation and Science (EROS) Center, 47914 252nd Street, Sioux Falls, SD 57198, USA.

^C Corresponding author. Email: jpicotte@usgs.gov

International Journal of Wildland Fire 25(4) 413-420 https://doi.org/10.1071/WF15039
Submitted: 17 May 2014 Accepted: 11 December 2015 Published: 10 March 2016

56 articles found in Crossref database.

Lessons learned implementing an operational continuous United States national land change monitoring capability: The Land Change Monitoring, Assessment, and Projection (LCMAP) approach

Brown Jesslyn F., Tollerud Heather J., Barber Christopher P., Zhou Qiang, Dwyer John L., Vogelmann James E., Loveland Thomas R., Woodcock Curtis E., Stehman Stephen V., Zhu Zhe, Pengra Bruce W., Smith Kelcy, Horton Josephine A., Xian George, Auch Roger F., Sohl Terry L., Sayler Kristi L., Gallant Alisa L., Zelenak Daniel, Reker Ryan R., Rover Jennifer

Remote Sensing of Environment. 2020 238 p.111356

Contemporary patterns of fire extent and severity in forests of the Pacific Northwest, USA (1985–2010)

Reilly Matthew J., Dunn Christopher J., Meigs Garrett W., Spies Thomas A., Kennedy Robert E., Bailey John D., Briggs Kevin

Ecosphere. 2017 8(3).

Beyond the 1984 Perspective: Narrow Focus on Modern Wildfire Trends Underestimates Future Risks to Water Security

Murphy Brendan P., Yocom Larissa L., Belmont Patrick

Earth's Future. 2018 6(11). p.1492

High-severity wildfires in temperate Australian forests have increased in extent and aggregation in recent decades

Tran Bang Nguyen, Tanase Mihai A., Bennett Lauren T., Aponte Cristina, Vadrevu Krishna Prasad

PLOS ONE. 2020 15(11). p.e0242484

Spatio-temporal shift in fire activity in the Indo-Gangetic region

Kumar Sumit, Ghosh Sanjay Kumar, Pateriya Brijendra

Geocarto International. 2023 38(1). p.1

Fire and burn severity assessment: Calibration of Relative Differenced Normalized Burn Ratio (RdNBR) with field data

Cardil Adrián, Mola-Yudego Blas, Blázquez-Casado Ángela, González-Olabarria José Ramón

Journal of Environmental Management. 2019 235 p.342

Determination of burn severity models ranging from regional to national scales for the conterminous United States

Picotte Joshua J., Cansler C. Alina, Kolden Crystal A., Lutz James A., Key Carl, Benson Nathan C., Robertson Kevin M.

Remote Sensing of Environment. 2021 263 p.112569

Higher burn severity stimulates postfire vegetation and carbon recovery in California

Qiu Linghua, Fan Linfeng, Sun Liqun, Zeng Zhenzhong, Feng Lian, Yue Chao, Zheng Chunmiao

Agricultural and Forest Meteorology. 2023 342 p.109750

Changing spatial patterns of stand-replacing fire in California conifer forests

Stevens Jens T., Collins Brandon M., Miller Jay D., North Malcolm P., Stephens Scott L.

Forest Ecology and Management. 2017 406 p.28

Changes in wildfire occurrence and risk to homes from 1990 through 2019 in the Southern Rocky Mountains, USA

Hawbaker Todd J., Henne Paul D., Vanderhoof Melanie K., Carlson Amanda R., Mockrin Miranda H., Radeloff Volker C.

Ecosphere. 2023 14(2).

Fire refugia are robust across Western US forested ecoregions, 1986–2021

Platt Rutherford Vance, Chapman Teresa B, Balch Jennifer K

Environmental Research Letters. 2024 19(1). p.014044

Are Wildland Fires Increasing Large Patches of Complex Early Seral Forest Habitat?

DellaSala Dominick A., Hanson Chad T.

Diversity. 2019 11(9). p.157

A changing climate is snuffing out post‐fire recovery in montane forests

Rodman Kyle C., Veblen Thomas T., Battaglia Mike A., Chambers Marin E., Fornwalt Paula J., Holden Zachary A., Kolb Thomas E., Ouzts Jessica R., Rother Monica T., McGill Brian

Global Ecology and Biogeography. 2020 29(11). p.2039

Management strategy influences landscape patterns of high-severity burn patches in the southwestern United States

Singleton Megan P., Thode Andrea E., Sánchez Meador Andrew J., Iniguez Jose M., Stevens Jens T.

Landscape Ecology. 2021 36(12). p.3429

Fire Effects on Historical Wildfire Refugia in Contemporary Wildfires

Kolden Crystal, Bleeker Tyler, Smith Alistair, Poulos Helen, Camp Ann

Forests. 2017 8(10). p.400

Geographic Patterns of Fire Severity Following an Extreme Eucalyptus Forest Fire in Southern Australia: 2013 Forcett-Dunalley Fire

Ndalila Mercy N., Williamson Grant J., Bowman David M. J. S.

Fire. 2018 1(3). p.40

Fire Science (2021)

Castro Rego Francisco, Morgan Penelope, Fernandes Paulo, Hoffman Chad

Fire Refugia: What Are They, and Why Do They Matter for Global Change?

Meddens Arjan J H, Kolden Crystal A, Lutz James A, Smith Alistair M S, Cansler C Alina, Abatzoglou John T, Meigs Garrett W, Downing William M, Krawchuk Meg A

BioScience. 2018

FIRED (Fire Events Delineation): An Open, Flexible Algorithm and Database of US Fire Events Derived from the MODIS Burned Area Product (2001–2019)

Balch Jennifer K., St. Denis Lise A., Mahood Adam L., Mietkiewicz Nathan P., Williams Travis M., McGlinchy Joe, Cook Maxwell C.

Remote Sensing. 2020 12(21). p.3498

Does increased forest protection correspond to higher fire severity in frequent‐fire forests of the western United States?

Bradley Curtis M., Hanson Chad T., DellaSala Dominick A.

Ecosphere. 2016 7(10).

Snow-cover remote sensing of conifer tree recovery in high-severity burn patches

Menick Casey, Tinkham Wade, Hoffman Chad, Vanderhoof Melanie, Vogeler Jody

Remote Sensing of Environment. 2024 305 p.114114

A method for creating a burn severity atlas: an example from Alberta, Canada

Whitman Ellen, Parisien Marc-André, Holsinger Lisa M., Park Jane, Parks Sean A.

International Journal of Wildland Fire. 2020 29(11). p.995

Spatiotemporal patterns of unburned areas within fire perimeters in the northwestern United States from 1984 to 2014

Meddens Arjan J. H., Kolden Crystal A., Lutz James A., Abatzoglou John T., Hudak Andrew T.

Ecosphere. 2018 9(2).

Pre‐fire drought and competition mediate post‐fire conifer mortality in western U.S. National Parks

van Mantgem Phillip J., Falk Donald A., Williams Emma C., Das Adrian J., Stephenson Nathan L.

Ecological Applications. 2018 28(7). p.1730

MOSEV: a global burn severity database from MODIS (2000–2020)

Alonso-González Esteban, Fernández-García Víctor

Earth System Science Data. 2021 13(5). p.1925

The missing fire: quantifying human exclusion of wildfire in Pacific Northwest forests, USA

Haugo Ryan D., Kellogg Bryce S., Cansler C. Alina, Kolden Crystal A., Kemp Kerry B., Robertson James C., Metlen Kerry L., Vaillant Nicole M., Restaino Christina M.

Ecosphere. 2019 10(4).

Trends analysis of rangeland condition monitoring assessment and projection (RCMAP) fractional component time series (1985–2020)

Shi Hua, Rigge Matthew, Postma Kory, Bunde Brett

GIScience & Remote Sensing. 2022 59(1). p.1243

Determining the use of Sentinel-2A MSI for wildfire burning & severity detection

Amos Craig, Petropoulos George P., Ferentinos Konstantinos P.

International Journal of Remote Sensing. 2019 40(3). p.905

Scaling Ecological Resilience

Falk Donald A., Watts Adam C., Thode Andrea E.

Frontiers in Ecology and Evolution. 2019 7

Changes to the Monitoring Trends in Burn Severity program mapping production procedures and data products

Picotte Joshua J., Bhattarai Krishna, Howard Danny, Lecker Jennifer, Epting Justin, Quayle Brad, Benson Nate, Nelson Kurtis

Fire Ecology. 2020 16(1).

Burned forests impact water supplies

Hallema Dennis W., Sun Ge, Caldwell Peter V., Norman Steven P., Cohen Erika C., Liu Yongqiang, Bladon Kevin D., McNulty Steven G.

Nature Communications. 2018 9(1).

Warmer and Drier Fire Seasons Contribute to Increases in Area Burned at High Severity in Western US Forests From 1985 to 2017

Parks S. A., Abatzoglou J. T.

Geophysical Research Letters. 2020 47(22).

Estimating post-fire debris-flow hazards prior to wildfire using a statistical analysis of historical distributions of fire severity from remote sensing data

Staley Dennis M., Tillery Anne C., Kean Jason W., McGuire Luke A., Pauling Hannah E., Rengers Francis K., Smith Joel B.

International Journal of Wildland Fire. 2018 27(9). p.595

Trends in wildfire burn severity across Canada, 1985 to 2015

Guindon Luc, Gauthier Sylvie, Manka Francis, Parisien Marc-André, Whitman Ellen, Bernier Pierre, Beaudoin André, Villemaire Philippe, Skakun Rob

Canadian Journal of Forest Research. 2021 51(9). p.1230

Increasing trends in high-severity fire in the southwestern USA from 1984 to 2015

Singleton Megan P., Thode Andrea E., Sánchez Meador Andrew J., Iniguez Jose M.

Forest Ecology and Management. 2019 433 p.709

Large Wildfires in the Western United States Exacerbated by Tropospheric Drying Linked to a Multi‐Decadal Trend in the Expansion of the Hadley Circulation

Zhang L., Lau W., Tao W., Li Z.

Geophysical Research Letters. 2020 47(16).

Climate change is narrowing and shifting prescribed fire windows in western United States

Swain Daniel L., Abatzoglou John T., Kolden Crystal, Shive Kristen, Kalashnikov Dmitri A., Singh Deepti, Smith Edward

Communications Earth & Environment. 2023 4(1).

Mean Composite Fire Severity Metrics Computed with Google Earth Engine Offer Improved Accuracy and Expanded Mapping Potential

Parks Sean A., Holsinger Lisa M., Voss Morgan A., Loehman Rachel A., Robinson Nathaniel P.

Remote Sensing. 2018 10(6). p.879

Climate Drives Episodic Conifer Establishment after Fire in Dry Ponderosa Pine Forests of the Colorado Front Range, USA

Rother Monica, Veblen Thomas

Forests. 2017 8(5). p.159

Still standing: Recent patterns of post-fire conifer refugia in ponderosa pine-dominated forests of the Colorado Front Range

Chapman Teresa B., Schoennagel Tania, Veblen Thomas T., Rodman Kyle C., White Angela Marie

PLOS ONE. 2020 15(1). p.e0226926

Simulating burn severity maps at 30 meters in two forested regions in California

Sam Jonathan A, Baldwin W Jonathan, Westerling A LeRoy, Preisler Haiganoush K, Xu Qingqing, Hurteau Matthew D, Sleeter Benjamin M, Thapa Samrajya B

Environmental Research Letters. 2022 17(10). p.105004

Assessing Landscape Vulnerability to Wildfire in the USA

Vaillant Nicole M., Kolden Crystal A., Smith Alistair M. S.

Current Forestry Reports. 2016 2(3). p.201

Combining Multi-Source Data and Feature Optimization for Plastic-Covered Greenhouse Extraction and Mapping Using the Google Earth Engine: A Case in Central Yunnan Province, China

Li Jie, Wang Hui, Wang Jinliang, Zhang Jianpeng, Lan Yongcui, Deng Yuncheng

Remote Sensing. 2023 15(13). p.3287

Economic Assessment of Fire Damage to Urban Forest in the Wildland–Urban Interface Using Planet Satellites Constellation Images

Michael Yaron, Lensky Itamar M., Brenner Steve, Tchetchik Anat, Tessler Naama, Helman David

Remote Sensing. 2018 10(9). p.1479

The Landsat Burned Area algorithm and products for the conterminous United States

Hawbaker Todd J., Vanderhoof Melanie K., Schmidt Gail L., Beal Yen-Ju, Picotte Joshua J., Takacs Joshua D., Falgout Jeff T., Dwyer John L.

Remote Sensing of Environment. 2020 244 p.111801

An Assessment of Fire Refugia Importance Criteria Ranked by Land Managers

Martinez Anthony, Meddens Arjan, Kolden Crystal, Hudak Andrew

Fire. 2019 2(2). p.27

Anthropogenic and lightning‐started fires are becoming larger and more frequent over a longer season length in the U.S.A.

Cattau Megan E., Wessman Carol, Mahood Adam, Balch Jennifer K., Poulter Benjamin

Global Ecology and Biogeography. 2020 29(4). p.668

Validation of GOES-16 ABI and MSG SEVIRI active fire products

Hall J.V., Zhang R., Schroeder W., Huang C., Giglio L.

International Journal of Applied Earth Observation and Geoinformation. 2019 83 p.101928

Climatic influences on interannual variability in regional burn severity across western US forests

Abatzoglou John T., Kolden Crystal A., Williams A. Park, Lutz James A., Smith Alistair M. S.

International Journal of Wildland Fire. 2017 26(4). p.269

Projected Climate-Fire Interactions Drive Forest to Shrubland Transition on an Arizona Sky Island

O’Connor Christopher D., Falk Donald A., Garfin Gregg M.

Frontiers in Environmental Science. 2020 8

Adapt to more wildfire in western North American forests as climate changes

Schoennagel Tania, Balch Jennifer K., Brenkert-Smith Hannah, Dennison Philip E., Harvey Brian J., Krawchuk Meg A., Mietkiewicz Nathan, Morgan Penelope, Moritz Max A., Rasker Ray, Turner Monica G., Whitlock Cathy

Proceedings of the National Academy of Sciences. 2017 114(18). p.4582

Multi-Temporal Remote Sensing Inversion of Evapotranspiration in the Lower Yangtze River Based on Landsat 8 Remote Sensing Data and Analysis of Driving Factors

Song Enze, Zhu Xueying, Shao Guangcheng, Tian Longjia, Zhou Yuhao, Jiang Ao, Lu Jia

Remote Sensing. 2023 15(11). p.2887

Multiscale habitat relationships of snowshoe hares (Lepus americanus) in the mixed conifer landscape of theNorthernRockies,USA: Cross‐scale effects of horizontal cover with implications for forest management

Holbrook Joseph D., Squires John R., Olson Lucretia E., Lawrence Rick L., Savage Shannon L.

Ecology and Evolution. 2017 7(1). p.125

Next-gen regional fire risk mapping: Integrating hyperspectral imagery and National Forest Inventory data to identify hot-spot wildland-urban interfaces

Fernández-Manso A., Quintano C., Fernández-Guisuraga J.M., Roberts D.

Science of The Total Environment. 2024 940 p.173568

Fire Science (2021)

Castro Rego Francisco, Morgan Penelope, Fernandes Paulo, Hoffman Chad

Large-scale burn severity mapping in multispectral imagery using deep semantic segmentation models

Hu Xikun, Zhang Puzhao, Ban Yifang

ISPRS Journal of Photogrammetry and Remote Sensing. 2023 196 p.228