Articles citing this paper
Using Landsat data to assess fire and burn severity in the North American boreal forest region: an overview and summary of results
Nancy H. F. French A G , Eric S. Kasischke B , Ronald J. Hall C , Karen A. Murphy D , David L. Verbyla E , Elizabeth E. Hoy B and Jennifer L. Allen F
+ Author Affiliations
- Author Affiliations
A Michigan Tech Research Institute, Michigan Technological University, 3600 Green Court, Suite 100, Ann Arbor, MI 48105, USA.
B Department of Geography, University of Maryland, 2181 LeFrak Hall, College Park, MD 20742, USA.
C Natural Resources Canada, Canadian Forest Service, 5320 122nd Street, Edmonton, AB, T6H 3S5, Canada.
D US Fish and Wildlife Service, National Wildlife Refuge System, 1011 E Tudor Road MS221, Anchorage, AK 99503, USA.
E Department of Forest Science, University of Alaska, Fairbanks, AK 99775, USA.
F National Park Service, Fairbanks Administrative Office, 4175 Geist Road, Fairbanks, AK 99709, USA.
G Corresponding author. Email: nancy.french@mtu.edu
International Journal of Wildland Fire 17(4) 443-462 https://doi.org/10.1071/WF08007
Submitted: 18 January 2008 Accepted: 9 July 2008 Published: 6 August 2008
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de Groot William J.,
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Rogers Brendan M.,
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Amiro Brian,
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Hoy Elizabeth,
Hyer Edward,
Keane Robert,
Law B. E.,
McKenzie Donald,
McNulty Steven G.,
Ottmar Roger,
Pérez-Salicrup Diego R.,
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Morgan Penelope,
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Abatzoglou John T.,
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Hudak Andrew T., Smith Alistair M. S.
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Saberi Saba J.,
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Gitas Ioannis,
Hulley Glynn,
Kalashnikova Olga,
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Roberts Dar, Stavros Natasha
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García Mariano,
Yebra Marta,
Padilla Marc,
Gitas Ioannis,
Heil Angelika,
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Combee Alisha,
Izbicki Brian,
Mack Michelle C.,
Maximov Trofim,
Petrov Roman,
Rogers Brendan M.,
Scholten Rebecca C.,
Shestakova Tatiana A.,
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Turner David P.,
Ritts William D.,
Yang Zhiqiang, Law Beverly E.
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Crocker Ellen V.,
Yang Jian,
Yan Yan,
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Lovallo Michele,
Song Weiguo,
Zhang Hui, Telesca Luciano
Entropy. 2022 24(12). p.1748
Effectiveness of Sentinel-2 in Multi-Temporal Post-Fire Monitoring When Compared with UAV Imagery
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Guimarães Nathalie,
Adão Telmo,
Sousa António,
Peres Emanuel, Sousa Joaquim J.
ISPRS International Journal of Geo-Information. 2020 9(4). p.225
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ALCARAZ‐SEGURA DOMINGO,
CHUVIECO EMILIO,
EPSTEIN HOWARD E.,
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Lhermitte S.,
Verstraeten W.W., Goossens R.
Remote Sensing of Environment. 2010 114(11). p.2548
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Yang Jian,
White Megan, Liu Zhihua
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Neary Daniel G.
Soil Science Society of America Journal. 2019 83(S1).
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Sparks Aaron M.,
Kolden Crystal A.,
Abatzoglou John T.,
Talhelm Alan F.,
Johnson Daniel M.,
Boschetti Luigi,
Lutz James A.,
Apostol Kent G.,
Yedinak Kara M.,
Tinkham Wade T., Kremens Robert J.
International Journal of Wildland Fire. 2016 25(2). p.158
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De Lemos Hugo,
Huang Haiyan,
Giglio Louis,
Houborg Rasmus, Miura Tomoaki
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Boucher Yan,
Fournier Richard,
Girard François,
Auger Isabelle,
Thiffault Nelson, Grenon Frank
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Tedim Fantina,
Remelgado Ruben,
Borges Célia,
Carvalho Salete, Martins João
Forest Ecology and Management. 2013 294 p.86
Incorporating biophysical gradients and uncertainty into burn severity maps in a temperate fire‐prone forested region
Harvey Brian J.,
Andrus Robert A., Anderson Sean C.
Ecosphere. 2019 10(2).
Estimation of fire severity using pre- and post-fire LiDAR data in sagebrush steppe rangelands
Wang Cheng, Glenn Nancy F.
International Journal of Wildland Fire. 2009 18(7). p.848
Avaliação da regeneração da vegetação pós-incêndio no Parque Nacional da Chapada Diamantina do Brasil através de sensoriamento remoto
Moura Batista dos Santos Sarah,
Bento-Gonçalves António,
Vieira António,
Santos Jonathas,
Ali Ganem Khalil,
Franca-Rocha Washington,
Machado Figueiredo Raiânnata, Galano Duverger Soltan
Physis Terrae - Revista Ibero-Afro-Americana de Geografia Física e Ambiente. 2022 4(1-2). p.1
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Gallagher Michael R.,
Maxwell Aaron E.,
Guillén Luis Andrés,
Everland Alexis,
Loudermilk E. Louise, Skowronski Nicholas S.
Remote Sensing. 2021 13(20). p.4168
Standardized Time-Series and Interannual Phenological Deviation: New Techniques for Burned-Area Detection Using Long-Term MODIS-NBR Dataset
De Carvalho Júnior Osmar,
Guimarães Renato,
Silva Cristiano, Gomes Roberto
Remote Sensing. 2015 7(6). p.6950
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Qarallah Bassam,
Al-Ajlouni Malik,
Al-Awasi Ayman,
Alkarmy Mohammad,
Al-Qudah Emad,
Naser Ahmad Bani,
Al-Assaf Amani,
Gevaert Caroline M.,
Al Asmar Yolla,
Belgiu Mariana, Othman Yahia A.
Journal of Arid Environments. 2021 193 p.104587
Evaluating the utility and seasonality of NDVI values for assessing post-disturbance recovery in a subalpine forest
Buma Brian
Environmental Monitoring and Assessment. 2012 184(6). p.3849
Quantifying burned area for North American forests: Implications for direct reduction of carbon stocks
Kasischke Eric S.,
Loboda Tatiana,
Giglio Louis,
French Nancy H. F.,
Hoy E. E.,
de Jong Bernardus, Riano David
Journal of Geophysical Research. 2011 116(G4).
Ecology of Wildfire Residuals in Boreal Forests (2014)
Postfire Effects in Siberian Larch Stands on Multispectral Satellite Data
Shvetsov E. G., Ponomarev E. I.
Contemporary Problems of Ecology. 2020 13(1). p.104
A disturbance weighting analysis model (DWAM) for mapping wildfire burn severity in the presence of forest disease
He Yinan,
Chen Gang,
De Santis Angela,
Roberts Dar A.,
Zhou Yuyu, Meentemeyer Ross K.
Remote Sensing of Environment. 2019 221 p.108
Temporal variability of forest fires in eastern Amazonia
Alencar Ane,
Asner Gregory P.,
Knapp David, Zarin Daniel
Ecological Applications. 2011 21(7). p.2397
Long-term time series of the Earth's land-surface observations from space
Gutman Garik, Masek Jeffrey G.
International Journal of Remote Sensing. 2012 33(15). p.4700
Land Use and the Carbon Cycle (2013)
An evaluation of remotely sensed indices for quantifying burn severity in arid ecoregions
Klinger Rob,
McKinley Randy, Brooks Matt
International Journal of Wildland Fire. 2019 28(12). p.951
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2020)
Spectral detection of near-surface moisture content and water-table position in northern peatland ecosystems
Meingast Karl M.,
Falkowski Michael J.,
Kane Evan S.,
Potvin Lynette R.,
Benscoter Brian W.,
Smith Alistair M.S.,
Bourgeau-Chavez Laura L., Miller Mary Ellen
Remote Sensing of Environment. 2014 152 p.536
Characterization of Land Transitions Patterns from Multivariate Time Series Using Seasonal Trend Analysis and Principal Component Analysis
Parmentier Benoit
Remote Sensing. 2014 6(12). p.12639
Assessment of Spectral Vegetation Indices Performance for Post-Fire Monitoring of Different Forest Environments
Avetisyan Daniela,
Stankova Nataliya, Dimitrov Zlatomir
Fire. 2023 6(8). p.290
The transferability of a dNBR-derived model to predict burn severity across 10 wildland fires in western Canada
Soverel Nicholas O.,
Coops Nicholas C.,
Perrakis Daniel D. B.,
Daniels Lori D., Gergel Sarah E.
International Journal of Wildland Fire. 2011 20(4). p.518
Potential shifts in dominant forest cover in interior Alaska driven by variations in fire severity
Barrett K.,
McGuire A. D.,
Hoy E. E., Kasischke E. S.
Ecological Applications. 2011 21(7). p.2380
How Much Forest Persists Through Fire? High-Resolution Mapping of Tree Cover to Characterize the Abundance and Spatial Pattern of Fire Refugia Across Mosaics of Burn Severity
B. Walker Ryan,
D. Coop Jonathan,
M. Downing William,
A. Krawchuk Meg,
L. Malone Sparkle, W. Meigs Garrett
Forests. 2019 10(9). p.782
Burned Area Estimation Using a New Accuracy Verification Method Based on Sentinel-2 Images
Chen Yunping,
Lu Chuangjiang,
Huang Xuan,
Xie Siyuan, Sun Yuan
IEEE Geoscience and Remote Sensing Letters. 2023 20 p.1
Assessing post-fire vegetation recovery using red–near infrared vegetation indices: Accounting for background and vegetation variability
Veraverbeke S.,
Gitas I.,
Katagis T.,
Polychronaki A.,
Somers B., Goossens R.
ISPRS Journal of Photogrammetry and Remote Sensing. 2012 68 p.28
Spatial Modeling in Forest Resources Management (2021)
High-Resolution Estimates of Fire Severity—An Evaluation of UAS Image and LiDAR Mapping Approaches on a Sedgeland Forest Boundary in Tasmania, Australia
Hillman Samuel,
Hally Bryan,
Wallace Luke,
Turner Darren,
Lucieer Arko,
Reinke Karin, Jones Simon
Fire. 2021 4(1). p.14
Detecting forest disturbance in the Pacific Northwest from MODIS time series using temporal segmentation
Sulla-Menashe Damien,
Kennedy Robert E.,
Yang Zhiqiang,
Braaten Justin,
Krankina Olga N., Friedl Mark A.
Remote Sensing of Environment. 2014 151 p.114
Evaluating the potential of LiDAR data for fire damage assessment: A radiative transfer model approach
García Mariano,
North Peter,
Viana-Soto Alba,
Stavros Natasha E.,
Rosette Jackie,
Martín M. Pilar,
Franquesa Magí,
González-Cascón Rosario,
Riaño David,
Becerra Javier, Zhao Kaiguang
Remote Sensing of Environment. 2020 247 p.111893
Evaluation of the composite burn index for assessing fire severity in Alaskan black spruce forests
Kasischke Eric S.,
Turetsky Merritt R.,
Ottmar Roger D.,
French Nancy H. F.,
Hoy Elizabeth E., Kane Evan S.
International Journal of Wildland Fire. 2008 17(4). p.515
Determining the minimum sampling frequency for ground measurements of burn severity
Holmes Alexander W.,
Rüdiger Christoph,
Harris Sarah, Tapper Nigel
International Journal of Wildland Fire. 2018 27(6). p.387
Comparing harmonic regression and GLAD Phenology metrics for estimation of forest community types and aboveground live biomass within forest inventory and analysis plots
Maxwell Aaron E.,
Wilson Barry T.,
Holgerson Justin J., Bester Michelle S.
International Journal of Applied Earth Observation and Geoinformation. 2023 122 p.103435
Evaluation of Fire Severity Indices Based on Pre- and Post-Fire Multispectral Imagery Sensed from UAV
Carvajal-Ramírez Fernando,
Marques da Silva José Rafael,
Agüera-Vega Francisco,
Martínez-Carricondo Patricio,
Serrano João, Moral Francisco Jesús
Remote Sensing. 2019 11(9). p.993
Estimating burn severity from Landsat dNBR and RdNBR indices across western Canada
Soverel Nicholas O.,
Perrakis Daniel D.B., Coops Nicholas C.
Remote Sensing of Environment. 2010 114(9). p.1896
Predicting burn severity for integration with post-fire debris-flow hazard assessment: a case study from the Upper Colorado River Basin, USA
Wells Adam G.,
Hawbaker Todd J.,
Hiers J. Kevin,
Kean Jason,
Loehman Rachel A., Steblein Paul F.
International Journal of Wildland Fire. 2023 32(9). p.1315
Complementary airborne LiDAR and satellite indices are reliable predictors of disturbance-induced structural diversity in mixed old-growth forest landscapes
Martin Maxence,
Cerrejón Carlos, Valeria Osvaldo
Remote Sensing of Environment. 2021 267 p.112746
Remote sensing and GIS-based inventory and analysis of the unprecedented 2021 forest fires in Türkiye’s history
Eker Remzi,
Çınar Tunahan,
Baysal İsmail, Aydın Abdurrahim
Natural Hazards. 2024
Estimating the area burned by agricultural fires from Landsat 8 Data using the Vegetation Difference Index and Burn Scar Index
Wang Shudong,
Baig Muhammad Hasan Ali,
Liu Suhong,
Wan Huawei,
Wu Taixia, Yang Yingying
International Journal of Wildland Fire. 2018 27(4). p.217
Assessment of fire severity and vegetation response using moderate-resolution imaging spectroradiometer: Moderate resolution (MODIS) satellite images to assess vegetation response after a big fire event at the selected national parks around Sydney, Australia
2017 Eleventh International Conference on Sensing Technology (ICST) (2017)
Integrating fuzzy logic with piecewise linear regression for detecting vegetation greenness change in the Yukon River Basin, Alaska
Xue Yueju,
Liu Shuguang,
Zhang Li, Hu Yueming
International Journal of Remote Sensing. 2013 34(12). p.4242
Patterns of canopy and surface layer consumption in a boreal forest fire from repeat airborne lidar
Alonzo Michael,
Morton Douglas C,
Cook Bruce D,
Andersen Hans-Erik,
Babcock Chad, Pattison Robert
Environmental Research Letters. 2017 12(6). p.065004
Aerosol single‐scattering albedo over the global oceans: Comparing PARASOL retrievals with AERONET, OMI, and AeroCom models estimates
Lacagnina Carlo,
Hasekamp Otto P.,
Bian Huisheng,
Curci Gabriele,
Myhre Gunnar,
van Noije Twan,
Schulz Michael,
Skeie Ragnhild B.,
Takemura Toshihiko, Zhang Kai
Journal of Geophysical Research: Atmospheres. 2015 120(18). p.9814
Improved fire severity mapping in the North American boreal forest using a hybrid composite method
Holsinger Lisa M.,
Parks Sean A.,
Saperstein Lisa B.,
Loehman Rachel A.,
Whitman Ellen,
Barnes Jennifer,
Parisien Marc‐André,
Disney Mat, Bohlman Stephanie
Remote Sensing in Ecology and Conservation. 2022 8(2). p.222
Early spring post-fire snow albedo dynamics in high latitude boreal forests using Landsat-8 OLI data
Wang Zhuosen,
Erb Angela M.,
Schaaf Crystal B.,
Sun Qingsong,
Liu Yan,
Yang Yun,
Shuai Yanmin,
Casey Kimberly A., Román Miguel O.
Remote Sensing of Environment. 2016 185 p.71
Simulating the impacts of disturbances on forest carbon cycling in North America: Processes, data, models, and challenges
Liu Shuguang,
Bond-Lamberty Ben,
Hicke Jeffrey A.,
Vargas Rodrigo,
Zhao Shuqing,
Chen Jing,
Edburg Steven L.,
Hu Yueming,
Liu Jinxun,
McGuire A. David,
Xiao Jingfeng,
Keane Robert,
Yuan Wenping,
Tang Jianwu,
Luo Yiqi,
Potter Christopher, Oeding Jennifer
Journal of Geophysical Research. 2011 116
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
A time-integrated MODIS burn severity assessment using the multi-temporal differenced normalized burn ratio (dNBRMT)
Veraverbeke S.,
Lhermitte S.,
Verstraeten W.W., Goossens R.
International Journal of Applied Earth Observation and Geoinformation. 2011 13(1). p.52
Understanding burn severity sensing in Arctic tundra: exploring vegetation indices, suboptimal assessment timing and the impact of increasing pixel size
Boelman Natalie T.,
Rocha Adrian V., Shaver Gaius R.
International Journal of Remote Sensing. 2011 32(22). p.7033
Vulnerability of high-latitude soil organic carbon in North America to disturbance
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Harden Jennifer,
Turetsky Merritt,
McGuire A. David,
Camill Philip,
Tarnocai Charles,
Frolking Steve,
Schuur Edward A. G.,
Jorgenson Torre,
Marchenko Sergei,
Romanovsky Vladimir,
Wickland Kimberly P.,
French Nancy,
Waldrop Mark,
Bourgeau-Chavez Laura, Striegl Robert G.
Journal of Geophysical Research. 2011 116
Synergy of VSWIR (0.4–2.5μm) and MTIR (3.5–12.5μm) data for post-fire assessments
Veraverbeke S.,
Hook S.J., Harris S.
Remote Sensing of Environment. 2012 124 p.771
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Lewis Sarah A.,
Hudak Andrew T.,
Ottmar Roger D.,
Robichaud Peter R.,
Lentile Leigh B.,
Hood Sharon M.,
Cronan James B., Morgan Penny
International Journal of Wildland Fire. 2011 20(2). p.255
GeoCBI: A modified version of the Composite Burn Index for the initial assessment of the short-term burn severity from remotely sensed data
De Santis Angela, Chuvieco Emilio
Remote Sensing of Environment. 2009 113(3). p.554
Changes in fire intensity have carry‐over effects on plant responses after the next fire in southern California chaparral
Moreno José M.,
Torres Iván,
Luna Belén,
Oechel Walter C.,
Keeley Jon E., Woods Kerry
Journal of Vegetation Science. 2013 24(2). p.395
A comparison and validation of satellite-derived fire severity mapping techniques in fire prone north Australian savannas: Extreme fires and tree stem mortality
Edwards Andrew C.,
Russell-Smith Jeremy, Maier Stefan W.
Remote Sensing of Environment. 2018 206 p.287
Evaluating Spectral Indices for Assessing Fire Severity in Chaparral Ecosystems (Southern California) Using MODIS/ASTER (MASTER) Airborne Simulator Data
Harris Sarah,
Veraverbeke Sander, Hook Simon
Remote Sensing. 2011 3(11). p.2403
Field-Validated Burn-Severity Mapping in North Patagonian Forests
Franco María Guadalupe,
Mundo Ignacio A., Veblen Thomas T.
Remote Sensing. 2020 12(2). p.214
Comprehensive Remote Sensing (2018)
Analyzing spatial and temporal variability in short-term rates of post-fire vegetation return from Landsat time series
Frazier Ryan J.,
Coops Nicholas C.,
Wulder Michael A.,
Hermosilla Txomin, White Joanne C.
Remote Sensing of Environment. 2018 205 p.32
Open fires in Greenland in summer 2017: transport, deposition and radiative effects of BC, OC and BrC emissions
Evangeliou Nikolaos,
Kylling Arve,
Eckhardt Sabine,
Myroniuk Viktor,
Stebel Kerstin,
Paugam Ronan,
Zibtsev Sergiy, Stohl Andreas
Atmospheric Chemistry and Physics. 2019 19(2). p.1393
Spatio-temporal patterns of optimal Landsat data for burn severity index calculations: Implications for high northern latitudes wildfire research
Chen Dong,
Fu Cheng,
Hall Joanne V.,
Hoy Elizabeth E., Loboda Tatiana V.
Remote Sensing of Environment. 2021 258 p.112393
Multi-spectral imaging: a tool for the study of the area burned in wildfires
Domingo Ramos Hernán, Carnicer Artur
European Journal of Physics. 2021 42(6). p.065806
Mapping burn severity and burning efficiency in California using simulation models and Landsat imagery
De Santis Angela,
Asner Gregory P.,
Vaughan Patrick J., Knapp David E.
Remote Sensing of Environment. 2010 114(7). p.1535
Surface forcing of non-stand-replacing fires in Siberian larch forests
Chen Dong, Loboda Tatiana V
Environmental Research Letters. 2018 13(4). p.045008
Remote Sensing Applications for Mapping Large Wildfires Based on Machine Learning and Time Series in Northwestern Portugal
dos Santos Sarah Moura Batista,
Duverger Soltan Galano,
Bento-Gonçalves António,
Franca-Rocha Washington,
Vieira António, Teixeira Georgia
Fire. 2023 6(2). p.43
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Li Fangjun,
Zhang Xiaoyang,
Kondragunta Shobha, Roy David P.
Journal of Geophysical Research: Biogeosciences. 2018 123(2). p.722
Young jack pine and high severity fire combine to create potentially expansive areas of understocked forest
Pinno Bradley D.,
Errington Ruth C., Thompson Dan K.
Forest Ecology and Management. 2013 310 p.517
Forest fire probability under ENSO conditions in a semi-arid region: a case study in Guanajuato
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Dominguez Christian,
Espinoza Alejandra,
Jaramillo Alejandro,
Alcántara Camilo,
Maldonado Victor,
Tovar Israel, Flamenco Alejandro
Environmental Monitoring and Assessment. 2021 193(10).
Fire Phenomena and the Earth System (2013)
The Vegetation Structure Perpendicular Index (VSPI): A forest condition index for wildfire predictions
Massetti Andrea,
Rüdiger Christoph,
Yebra Marta, Hilton James
Remote Sensing of Environment. 2019 224 p.167
Landsat-8 and Sentinel-2 burned area mapping - A combined sensor multi-temporal change detection approach
Roy David P.,
Huang Haiyan,
Boschetti Luigi,
Giglio Louis,
Yan Lin,
Zhang Hankui H., Li Zhongbin
Remote Sensing of Environment. 2019 231 p.111254
Prescribed burning of logging slash in the boreal forest of Finland: emissions and effects on meteorological quantities and soil properties
Virkkula A.,
Levula J.,
Pohja T.,
Aalto P. P.,
Keronen P.,
Schobesberger S.,
Clements C. B.,
Pirjola L.,
Kieloaho A.-J.,
Kulmala L.,
Aaltonen H.,
Patokoski J.,
Pumpanen J.,
Rinne J.,
Ruuskanen T.,
Pihlatie M.,
Manninen H. E.,
Aaltonen V.,
Junninen H.,
Petäjä T.,
Backman J.,
Dal Maso M.,
Nieminen T.,
Olsson T.,
Grönholm T.,
Aalto J.,
Virtanen T. H.,
Kajos M.,
Kerminen V.-M.,
Schultz D. M.,
Kukkonen J.,
Sofiev M.,
De Leeuw G.,
Bäck J.,
Hari P., Kulmala M.
Atmospheric Chemistry and Physics. 2014 14(9). p.4473
Satellite contributions to the quantitative characterization of biomass burning for climate modeling
Ichoku Charles,
Kahn Ralph, Chin Mian
Atmospheric Research. 2012 111 p.1
Radar Burn Ratio for fire severity estimation at canopy level: An example for temperate forests
Tanase M.A.,
Kennedy R., Aponte C.
Remote Sensing of Environment. 2015 170 p.14
Ecology of Wildfire Residuals in Boreal Forests (2014)
A novel post-fire method to estimate individual tree crown scorch height and volume using simple RPAS-derived data
Arkin Jeremy,
Coops Nicholas C.,
Daniels Lori D., Plowright Andrew
Fire Ecology. 2023 19(1).
A robust visible near-infrared index for fire severity mapping in Arctic tundra ecosystems
Chen Yaping,
Lara Mark Jason, Hu Feng Sheng
ISPRS Journal of Photogrammetry and Remote Sensing. 2020 159 p.101
A synthesis of post-fire Burned Area Reports from 1972 to 2009 for western US Forest Service lands: trends in wildfire characteristics and post-fire stabilisation treatments and expenditures
Robichaud Peter R.,
Rhee Hakjun, Lewis Sarah A.
International Journal of Wildland Fire. 2014 23(7). p.929
Measuring fire severity using UAV imagery in semi-arid central Queensland, Australia
McKenna Phill,
Erskine Peter D.,
Lechner Alex M., Phinn Stuart
International Journal of Remote Sensing. 2017 38(14). p.4244
Resuspension and atmospheric transport of radionuclides due to wildfires near the Chernobyl Nuclear Power Plant in 2015: An impact assessment
Evangeliou N.,
Zibtsev S.,
Myroniuk V.,
Zhurba M.,
Hamburger T.,
Stohl A.,
Balkanski Y.,
Paugam R.,
Mousseau T. A.,
Møller A. P., Kireev S. I.
Scientific Reports. 2016 6(1).
Mapping Fine-Scale Crown Scorch in 3D with Remotely Piloted Aircraft Systems
Moran Christopher J.,
Hoff Valentijn,
Parsons Russell A.,
Queen Lloyd P., Seielstad Carl A.
Fire. 2022 5(3). p.59
Firescape ecology: how topography determines the contrasting distribution of fire and rain forest in the south-west of the Tasmanian Wilderness World Heritage Area
Wood Sam W.,
Murphy Brett P., Bowman David M. J. S.
Journal of Biogeography. 2011 38(9). p.1807
Evaluation of pre/post-fire differenced spectral indices for assessing burn severity in a Mediterranean environment with Landsat Thematic Mapper
Veraverbeke Sander,
Lhermitte Stefaan,
Verstraeten Willem W., Goossens R.
International Journal of Remote Sensing. 2011 32(12). p.3521
Cascading effects of climate change and wildfire on a subarctic lake: A 20‐year case study of watershed change
Larsen Amy S.,
Rupp Danielle L.,
Swanson David K., Hill Kenneth R.
Ecosphere. 2023 14(7).
Wildfire Consumption and Interannual Impacts by Land Cover in Alaskan Boreal Forest
Kolden Crystal A., Abatzoglou John T.
Fire Ecology. 2012 8(1). p.98
Spectral analysis of charcoal on soils: implicationsfor wildland fire severity mapping methods
Smith Alistair M. S.,
Eitel Jan U. H., Hudak Andrew T.
International Journal of Wildland Fire. 2010 19(7). p.976
Evaluating spectral indices for burned area discrimination using MODIS/ASTER (MASTER) airborne simulator data
Veraverbeke S.,
Harris S., Hook S.
Remote Sensing of Environment. 2011 115(10). p.2702
Global operational land imager Landsat-8 reflectance-based active fire detection algorithm
Kumar S. S., Roy D. P.
International Journal of Digital Earth. 2018 11(2). p.154
Influences of forest roads and their edge effects on the spatial pattern of burn severity
Narayanaraj Ganapathy, Wimberly Michael C.
International Journal of Applied Earth Observation and Geoinformation. 2013 23 p.62
Need and vision for global medium-resolution Landsat and Sentinel-2 data products
Radeloff Volker C.,
Roy David P.,
Wulder Michael A.,
Anderson Martha,
Cook Bruce,
Crawford Christopher J.,
Friedl Mark,
Gao Feng,
Gorelick Noel,
Hansen Matthew,
Healey Sean,
Hostert Patrick,
Hulley Glynn,
Huntington Justin L.,
Johnson David M.,
Neigh Chris,
Lyapustin Alexei,
Lymburner Leo,
Pahlevan Nima,
Pekel Jean-Francois,
Scambos Theodore A.,
Schaaf Crystal,
Strobl Peter,
Woodcock Curtis E.,
Zhang Hankui K., Zhu Zhe
Remote Sensing of Environment. 2024 300 p.113918
Assessment of factors driving high fire severity potential and classification in a Mediterranean pine ecosystem
Mitsopoulos Ioannis,
Chrysafi Irene,
Bountis Diamantis, Mallinis Giorgos
Journal of Environmental Management. 2019 235 p.266
Using Landsat Imagery to Assess Burn Severity of National Forest Inventory Plots
Pelletier Flavie,
Eskelson Bianca N.I.,
Monleon Vicente J., Tseng Yi-Chin
Remote Sensing. 2021 13(10). p.1935
The Synergy of the $0.05^\circ$ ($\sim5\nbsp\hbox{km}$) AVHRR Long-Term Data Record (LTDR) and Landsat TM Archive to Map Large Fires in the North American Boreal Region From 1984 to 1998
Moreno-Ruiz Jose A.,
Garcia-Lazaro Jose R.,
Riano David, Kefauver Shawn C.
IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing. 2014 7(4). p.1157
Short-interval fires increasing in the Alaskan boreal forest as fire self-regulation decays across forest types
Buma B.,
Hayes K.,
Weiss S., Lucash M.
Scientific Reports. 2022 12(1).
Assessing fire severity using imaging spectroscopy data from the Airborne Visible/Infrared Imaging Spectrometer (AVIRIS) and comparison with multispectral capabilities
Veraverbeke Sander,
Stavros E. Natasha, Hook Simon J.
Remote Sensing of Environment. 2014 154 p.153
A systematic evaluation of influence of image selection process on remote sensing-based burn severity indices in North American boreal forest and tundra ecosystems
Chen Dong,
Loboda Tatiana V., Hall Joanne V.
ISPRS Journal of Photogrammetry and Remote Sensing. 2020 159 p.63
Assessment of forest fire effects based on automated processing of Earth remote sensing imager
Valasiuk Andrew I. , Topaz Antonina A.
Journal of the Belarusian State University. Geography and Geology. 2022 (1). p.57
Different approaches make comparing studies of burn severity challenging: a review of methods used to link remotely sensed data with the Composite Burn Index
Miller Colton W.,
Harvey Brian J.,
Kane Van R.,
Moskal L. Monika, Alvarado Ernesto
International Journal of Wildland Fire. 2023 32(4). p.449
Assessment of Pre‐ and Post‐Fire Fuel Availability for Wildfire Management Based on L‐Band Polarimetric SAR
An Karen,
Jones Cathleen E., Lou Yunling
Earth and Space Science. 2024 11(4).
Barren‐ground caribou (Rangifer tarandus groenlandicus) behaviour after recent fire events; integrating caribou telemetry data with Landsat fire detection techniques
Rickbeil Gregory J. M.,
Hermosilla Txomin,
Coops Nicholas C.,
White Joanne C., Wulder Michael A.
Global Change Biology. 2017 23(3). p.1036
Quantifying surface severity of the 2014 and 2015 fires in the Great Slave Lake area of Canada
French Nancy H. F.,
Graham Jeremy,
Whitman Ellen, Bourgeau-Chavez Laura L.
International Journal of Wildland Fire. 2020 29(10). p.892
What controls fire spatial patterns? Predictability of fire characteristics in the Canadian boreal plains ecozone
San‐Miguel Ignacio,
Coops Nicholas C.,
Chavardès Raphaël D.,
Andison David W., Pickell Paul D.
Ecosphere. 2020 11(1).
Assessment of Burned Forest Area Severity and Postfire Regrowth in Chapada Diamantina National Park (Bahia, Brazil) Using dNBR and RdNBR Spectral Indices
Santos Sarah Moura B. dos,
Bento-Gonçalves António,
Franca-Rocha Washington, Baptista Gustavo
Geosciences. 2020 10(3). p.106
Analysis of Spectral Separability for Detecting Burned Areas Using Landsat-8 OLI/TIRS Images under Different Biomes in Brazil and Portugal
Pacheco Admilson da Penha,
da Silva Junior Juarez Antonio,
Ruiz-Armenteros Antonio Miguel,
Henriques Renato Filipe Faria, de Oliveira Santos Ivaneide
Forests. 2023 14(4). p.663
The influence of burn severity on postfire vegetation recovery and albedo change during early succession in North American boreal forests
Jin Yufang,
Randerson James T.,
Goetz Scott J.,
Beck Pieter S. A.,
Loranty Michael M., Goulden Michael L.
Journal of Geophysical Research: Biogeosciences. 2012 117(G1).
Comparing Fire Extent and Severity Mapping between Sentinel 2 and Landsat 8 Satellite Sensors
White Laura A., Gibson Rebecca K.
Remote Sensing. 2022 14(7). p.1661
Integrating Satellite Imagery with Simulation Modeling to Improve Burn Severity Mapping
Karau Eva C.,
Sikkink Pamela G.,
Keane Robert E., Dillon Gregory K.
Environmental Management. 2014 54(1). p.98
A Statistical and Spatial Analysis of Portuguese Forest Fires in Summer 2016 Considering Landsat 8 and Sentinel 2A Data
Teodoro Ana, Amaral Ana
Environments. 2019 6(3). p.36
Wildland fire ash: Production, composition and eco-hydro-geomorphic effects
Bodí Merche B.,
Martin Deborah A.,
Balfour Victoria N.,
Santín Cristina,
Doerr Stefan H.,
Pereira Paulo,
Cerdà Artemi, Mataix-Solera Jorge
Earth-Science Reviews. 2014 130 p.103
Alaska’s changing fire regime — implications for the vulnerability of its boreal forestsThis article is one of a selection of papers from The Dynamics of Change in Alaska’s Boreal Forests: Resilience and Vulnerability in Response to Climate Warming.
Kasischke Eric S.,
Verbyla David L.,
Rupp T. Scott,
McGuire A. David,
Murphy Karen A.,
Jandt Randi,
Barnes Jennifer L.,
Hoy Elizabeth E.,
Duffy Paul A.,
Calef Monika, Turetsky Merritt R.
Canadian Journal of Forest Research. 2010 40(7). p.1313
Mapping burn severity in the western Italian Alps through phenologically coherent reflectance composites derived from Sentinel-2 imagery
Morresi Donato,
Marzano Raffaella,
Lingua Emanuele,
Motta Renzo, Garbarino Matteo
Remote Sensing of Environment. 2022 269 p.112800
Extending the National Burned Area Composite Time Series of Wildfires in Canada
Skakun Rob,
Castilla Guillermo,
Metsaranta Juha,
Whitman Ellen,
Rodrigue Sebastien,
Little John,
Groenewegen Kathleen, Coyle Matthew
Remote Sensing. 2022 14(13). p.3050
Challenges of assessing fire and burn severity using field measures, remote sensing and modelling
Morgan Penelope,
Keane Robert E.,
Dillon Gregory K.,
Jain Theresa B.,
Hudak Andrew T.,
Karau Eva C.,
Sikkink Pamela G.,
Holden Zachary A., Strand Eva K.
International Journal of Wildland Fire. 2014 23(8). p.1045
Is burn severity related to fire intensity? Observations from landscape scale remote sensing
Heward Heather,
Smith Alistair M. S.,
Roy David P.,
Tinkham Wade T.,
Hoffman Chad M.,
Morgan Penelope, Lannom Karen O.
International Journal of Wildland Fire. 2013 22(7). p.910
Assessing Double Counting of Carbon Emissions Between Forest Land-Cover Change and Forest Wildfires: A Case Study in the United States, 1992–2006
Zheng Daolan,
Heath Linda S.,
Ducey Mark J., Quayle Brad
Ecosystems. 2013 16(2). p.310
Detecting tropical peatland degradation: Combining remote sensing and organic geochemistry
Brown Chloe,
Boyd Doreen S.,
Sjögersten Sofie,
Vane Christopher H., Nath Arun Jyoti
PLOS ONE. 2023 18(3). p.e0280187
Explaining Sentinel 2-based dNBR and RdNBR variability with reference data from the bird’s eye (UAS) perspective
Fassnacht Fabian Ewald,
Schmidt-Riese Ephraim,
Kattenborn Teja, Hernández Jaime
International Journal of Applied Earth Observation and Geoinformation. 2021 95 p.102262
Post-Fire Forest Vegetation State Monitoring through Satellite Remote Sensing and In Situ Data
Avetisyan Daniela,
Velizarova Emiliya, Filchev Lachezar
Remote Sensing. 2022 14(24). p.6266
Assessing the differenced Normalized Burn Ratio's ability to map burn severity in the boreal forest and tundra ecosystems of Alaska's national parks
Allen Jennifer L., Sorbel Brian
International Journal of Wildland Fire. 2008 17(4). p.463
Influence of Wildland Fire Along a Successional Gradient in Sagebrush Steppe and Western Juniper Woodlands
Strand Eva K.,
Bunting Stephen C., Keefe Robert F.
Rangeland Ecology & Management. 2013 66(6). p.667
Assessing fire severity in Turkey’s forest ecosystems using spectral indices from satellite images
Güney Coşkun Okan,
Mert Ahmet, Gülsoy Serkan
Journal of Forestry Research. 2023 34(6). p.1747
The biological basis for using optical signals to track evergreen needleleaf photosynthesis
Pierrat Zoe Amie,
Magney Troy S,
Cheng Rui,
Maguire Andrew J,
Wong Christopher Y S,
Nehemy Magali F,
Rao Mukund,
Nelson Sara E,
Williams Anneka F,
Grosvenor Jeremy A Hoyne,
Smith Kenneth R,
Reblin Jaret S,
Stutz Jochen,
Richardson Andrew D,
Logan Barry A, Bowling David R
BioScience. 2024 74(3). p.130
Active Fire Detection Using a Novel Convolutional Neural Network Based on Himawari-8 Satellite Images
Hong Zhonghua,
Tang Zhizhou,
Pan Haiyan,
Zhang Yuewei,
Zheng Zhongsheng,
Zhou Ruyan,
Ma Zhenling,
Zhang Yun,
Han Yanling,
Wang Jing, Yang Shuhu
Frontiers in Environmental Science. 2022 10
Evaluation of Spectral Indices for Assessing Fire Severity in Australian Temperate Forests
Tran Bang Nguyen,
Tanase Mihai A.,
Bennett Lauren T., Aponte Cristina
Remote Sensing. 2018 10(11). p.1680
Boreal forest vegetation and fuel conditions 12 years after the 2004 Taylor Complex fires in Alaska, USA
Hammond Darcy H.,
Strand Eva K.,
Hudak Andrew T., Newingham Beth A.
Fire Ecology. 2019 15(1).
A Burning Question: What are the Implications of Forest Fires for Woodland Caribou?
Konkolics Sean,
Dickie Melanie,
Serrouya Robert,
Hervieux Dave, Boutin Stan
The Journal of Wildlife Management. 2021 85(8). p.1685
Techniques for Disaster Risk Management and Mitigation (2020)
Classification of Fire Damage to Boreal Forests of Siberia in 2021 Based on the dNBR Index
Ponomarev Evgenii,
Zabrodin Andrey, Ponomareva Tatiana
Fire. 2022 5(1). p.19
Remote Sensing Techniques in Monitoring Post-Fire Effects and Patterns of Forest Recovery in Boreal Forest Regions: A Review
Chu Thuan, Guo Xulin
Remote Sensing. 2013 6(1). p.470
Wildfire controls on land surface properties in mixed conifer and ponderosa pine forests of Sierra Nevada and Klamath mountains, Western US
Shrestha Surendra,
Williams Christopher A.,
Rogers Brendan M.,
Rogan John, Kulakowski Dominik
Agricultural and Forest Meteorology. 2022 320 p.108939
Arbuscular mycorrhizal fungal communities show low resistance and high resilience to wildfire disturbance
Xiang Xingjia,
Gibbons Sean M.,
Yang Jian,
Kong Jianjian,
Sun Ruibo, Chu Haiyan
Plant and Soil. 2015 397(1-2). p.347
How Do Plants Respond Biochemically to Fire? The Role of Photosynthetic Pigments and Secondary Metabolites in the Post-Fire Resprouting Response
Santacruz-García Ana Carolina,
Bravo Sandra,
del Corro Florencia,
García Elisa Mariana,
Molina-Terrén Domingo M., Nazareno Mónica Azucena
Forests. 2021 12(1). p.56
Modeling Regional-Scale Wildland Fire Emissions with the Wildland Fire Emissions Information System*
French Nancy H. F.,
McKenzie Donald,
Erickson Tyler,
Koziol Benjamin,
Billmire Michael,
Endsley K. Arthur,
Yager Scheinerman Naomi K.,
Jenkins Liza,
Miller Mary Ellen,
Ottmar Roger, Prichard Susan
Earth Interactions. 2014 18(16). p.1
An improved algorithm for mapping burnt areas in the Mediterranean forest landscape of Morocco
Zidane Issameddine,
Lhissou Rachid,
Bouli Abdelali, Mabrouki Mustapha
Journal of Forestry Research. 2019 30(3). p.981
Climate, lightning ignitions, and fire severity in Yosemite National Park, California, USA
Lutz James A.,
van Wagtendonk Jan W.,
Thode Andrea E.,
Miller Jay D., Franklin Jerry F.
International Journal of Wildland Fire. 2009 18(7). p.765
Spatially explicit reconstruction of post-megafire forest recovery through landscape modeling
Xu Wenru,
He Hong S.,
Fraser Jacob S.,
Hawbaker Todd J.,
Henne Paul D.,
Duan Shengwu, Zhu Zhiliang
Environmental Modelling & Software. 2020 134 p.104884
Using Landsat imagery to backcast fire and post-fire residuals in the Boreal Shield of Saskatchewan: implications for woodland caribou management
Kansas John,
Vargas Javier,
Skatter Hans G.,
Balicki Brady, McCullum Kevin
International Journal of Wildland Fire. 2016 25(5). p.597
Estimating burn severity at the regional level using optically based indices
Tanase Mihai,
de la Riva Juan, Pérez-Cabello Fernando
Canadian Journal of Forest Research. 2011 41(4). p.863
Fire Severity in a Large Fire in a Pinus pinaster Forest is Highly Predictable from Burning Conditions, Stand Structure, and Topography
Viedma Olga,
Quesada Juan,
Torres Iván,
De Santis Angela, Moreno José M.
Ecosystems. 2015 18(2). p.237
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
Evaluating the Near and Mid Infrared Bi-Spectral Space for Assessing Fire Severity and Comparison with the Differenced Normalized Burn Ratio
van Gerrevink Max J., Veraverbeke Sander
Remote Sensing. 2021 13(4). p.695
Landscape Fire, Smoke, and Health (2023)
Assessing Boreal Peat Fire Severity and Vulnerability of Peatlands to Early Season Wildland Fire
Bourgeau-Chavez Laura Louise,
Grelik Sarah L.,
Billmire Michael,
Jenkins Liza K.,
Kasischke Eric S., Turetsky Merritt R.
Frontiers in Forests and Global Change. 2020 3
Characterizing fire effects on conifers at tree level from airborne laser scanning and high-resolution, multispectral satellite data
Klauberg Carine,
Hudak Andrew T.,
Silva Carlos Alberto,
Lewis Sarah A.,
Robichaud Peter R., Jain Terrie B.
Ecological Modelling. 2019 412 p.108820
Relating pre-fire canopy species, fire season, and proximity to surface waters to burn severity of boreal wildfires in Alberta, Canada
Rupasinghe Prabha Amali, Chow-Fraser Patricia
Forest Ecology and Management. 2021 496 p.119386
Restoration of Western Siberia meadow vegetation after fires according to Sentinel-2 data
Karpachevskiy Andrey,
Tikhonov Dmitriy,
Koroleva Tatiana,
Muratov A., Lygina O.
E3S Web of Conferences. 2023 462 p.02039
Cascading Hazards in the Aftermath of Australia's 2019/2020 Black Summer Wildfires
Kemter M.,
Fischer M.,
Luna L. V.,
Schönfeldt E.,
Vogel J.,
Banerjee A.,
Korup O., Thonicke K.
Earth's Future. 2021 9(3).
Assessing intra-annual vegetation regrowth after fire using the pixel based regeneration index
Lhermitte S.,
Verbesselt J.,
Verstraeten W.W.,
Veraverbeke S., Coppin P.
ISPRS Journal of Photogrammetry and Remote Sensing. 2011 66(1). p.17
Quantifying local fire regimes using the Landsat data-archive: a conceptual framework to derive detailed fire pattern metrics from pixel-level information
San-Miguel Ignacio,
Andison David W., Coops Nicholas C.
International Journal of Digital Earth. 2019 12(5). p.544
Natural Hazard Uncertainty Assessment (2016)
Spatial Modeling in GIS and R for Earth and Environmental Sciences (2019)
The spatial variation in forest burn severity in Heilongjiang Province, China
Chang Yu,
Zhu Zhiliang,
Feng Yuting,
Li Yuehui,
Bu Rencang, Hu Yuanman
Natural Hazards. 2016 81(2). p.981
Characterizing boreal forest wildfire with multi-temporal Landsat and LIDAR data
Wulder M.A.,
White J.C.,
Alvarez F.,
Han T.,
Rogan J., Hawkes B.
Remote Sensing of Environment. 2009 113(7). p.1540
Mapping fire extent and burn severity in Alaskan tussock tundra: An analysis of the spectral response of tundra vegetation to wildland fire
Loboda T.V.,
French N.H.F.,
Hight-Harf C.,
Jenkins L., Miller M.E.
Remote Sensing of Environment. 2013 134 p.194
Impacts of burn severity on short-term postfire vegetation recovery, surface albedo, and land surface temperature in California ecoregions
Rother David E.,
De Sales Fernando,
Stow Doug,
McFadden Joe, Pickell Paul
PLOS ONE. 2022 17(11). p.e0274428
Fire Severity and Vegetation Recovery on Mine Site Rehabilitation Using WorldView-3 Imagery
McKenna Phillip,
Phinn Stuart, Erskine Peter D.
Fire. 2018 1(2). p.22
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
Application of remote sensing data for forest fires severity assessment
Earth Resources and Environmental Remote Sensing/GIS Applications IX (2018)
Encyclopedia of Wildfires and Wildland-Urban Interface (WUI) Fires (2019)
How Robust Are Burn Severity Indices When Applied in a New Region? Evaluation of Alternate Field-Based and Remote-Sensing Methods
Cansler C. Alina, McKenzie Donald
Remote Sensing. 2012 4(2). p.456
Application of 210Pbex inventories to measure net hillslope erosion at burned sites
Perreault Lauren M.,
Yager Elowyn M., Aalto Rolf
Earth Surface Processes and Landforms. 2013 38(2). p.133
Landsat remote sensing of forest windfall disturbance
Baumann Matthias,
Ozdogan Mutlu,
Wolter Peter T.,
Krylov Alexander,
Vladimirova Nadezda, Radeloff Volker C.
Remote Sensing of Environment. 2014 143 p.171
Climatic and Landscape Influences on Fire Regimes from 1984 to 2010 in the Western United States
Liu Zhihua,
Wimberly Michael C., Silva Lucas C.R.
PLOS ONE. 2015 10(10). p.e0140839
Separability Analysis of Sentinel-2A Multi-Spectral Instrument (MSI) Data for Burned Area Discrimination
Huang Haiyan,
Roy David,
Boschetti Luigi,
Zhang Hankui,
Yan Lin,
Kumar Sanath,
Gomez-Dans Jose, Li Jian
Remote Sensing. 2016 8(10). p.873
Burned Area Detection and Burn Severity Assessment of a Heathland Fire in Belgium Using Airborne Imaging Spectroscopy (APEX)
Schepers Lennert,
Haest Birgen,
Veraverbeke Sander,
Spanhove Toon,
Vanden Borre Jeroen, Goossens Rudi
Remote Sensing. 2014 6(3). p.1803
Does Environment Filtering or Seed Limitation Determine Post-fire Forest Recovery Patterns in Boreal Larch Forests?
Cai Wen H.,
Liu Zhihua,
Yang Yuan Z., Yang Jian
Frontiers in Plant Science. 2018 9
Characterizing Fire-Induced Forest Structure and Aboveground Biomass Changes in Boreal Forests Using Multitemporal Lidar and Landsat
Feng Tuo,
Duncanson Laura,
Hancock Steven,
Montesano Paul,
Skakun Sergii,
Wulder Michael A.,
White Joanne C.,
Minor David, Loboda Tatiana
IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing. 2024 17 p.10108
Orman Yangınları Sonrası Ekosistem Tabanlı Planlamaya Doğru: Yanma Derinliğinin Sınıflandırılması
GÜNEY Coşkun Okan,
MERT Ahmet, GÜLSOY Serkan
Afet ve Risk Dergisi. 2023 6(1). p.206
Quantifying fire‐wide carbon emissions in interior Alaska using field measurements and Landsat imagery
Rogers B. M.,
Veraverbeke S.,
Azzari G.,
Czimczik C. I.,
Holden S. R.,
Mouteva G. O.,
Sedano F.,
Treseder K. K., Randerson J. T.
Journal of Geophysical Research: Biogeosciences. 2014 119(8). p.1608
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
Mapping causal agents of disturbance in boreal and arctic ecosystems of North America using time series of Landsat data
Zhang Yingtong,
Woodcock Curtis E.,
Chen Shijuan,
Wang Jonathan A.,
Sulla-Menashe Damien,
Zuo Zhenpeng,
Olofsson Pontus,
Wang Yetianjian, Friedl Mark A.
Remote Sensing of Environment. 2022 272 p.112935
Quantifying fire severity: a brief review and recommendations for improvement
Han Dongdong,
Di Xueying,
Yang Guang,
Sun Long, Weng Yuetai
Ecosystem Health and Sustainability. 2021 7(1).
Multiple Endmember Spectral Mixture Analysis (MESMA) to map burn severity levels from Landsat images in Mediterranean countries
Quintano Carmen,
Fernández-Manso Alfonso, Roberts Dar A.
Remote Sensing of Environment. 2013 136 p.76
Evaluating and comparing Sentinel 2A and Landsat-8 Operational Land Imager (OLI) spectral indices for estimating fire severity in a Mediterranean pine ecosystem of Greece
Mallinis Giorgos,
Mitsopoulos Ioannis, Chrysafi Irene
GIScience & Remote Sensing. 2018 55(1). p.1
Evaluation of forest fires in Portugal Mainland during 2016 summer considering different satellite datasets
Remote Sensing for Agriculture, Ecosystems, and Hydrology XIX (2017)
Evaluating the potential of Landsat TM/ETM+ imagery for assessing fire severity in Alaskan black spruce forests
Hoy Elizabeth E.,
French Nancy H. F.,
Turetsky Merritt R.,
Trigg Simon N., Kasischke Eric S.
International Journal of Wildland Fire. 2008 17(4). p.500
Effects of Burn Severity and Environmental Conditions on Post-Fire Regeneration in Siberian Larch Forest
Chu Thuan,
Guo Xulin, Takeda Kazuo
Forests. 2017 8(3). p.76
Recognizing Women Leaders in Fire Science
Smith Alistair,
Kolden Crystal,
Prichard Susan,
Gray Robert,
Hessburg Paul, Balch Jennifer
Fire. 2018 1(2). p.30
Relationship between Soil Burn Severity in Forest Fires Measured In Situ and through Spectral Indices of Remote Detection
Sobrino Jose,
Llorens Rafael,
Fernández Cristina,
Fernández-Alonso José, Vega José
Forests. 2019 10(5). p.457
Mapping fire-impacted refugee camps using the integration of field data and remote sensing approaches
Hassan Mohammad Mehedy,
Hasan Ikramul,
Southworth Jane, Loboda Tatiana
International Journal of Applied Earth Observation and Geoinformation. 2022 115 p.103120
On timeliness and accuracy of wildfire detection by the GOES WF-ABBA algorithm over California during the 2006 fire season
Koltunov Alexander,
Ustin Susan L., Prins Elaine M.
Remote Sensing of Environment. 2012 127 p.194
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
Effects of gradient, distance, curvature and aspect on steep burned and unburned hillslope soil erosion and deposition
Perreault Lauren M.,
Yager Elowyn M., Aalto Rolf
Earth Surface Processes and Landforms. 2017 42(7). p.1033
Factors influencing the pattern of fire severities in a large wildfire under extreme meteorological conditions in the Mediterranean basin
Oliveras Imma,
Gracia Marc,
Moré Gerard, Retana Javier
International Journal of Wildland Fire. 2009 18(7). p.755
Quantifying fire trends in boreal forests with Landsat time series and self-organized criticality
Kato Akira,
Thau David,
Hudak Andrew T.,
Meigs Garrett W., Moskal L. Monika
Remote Sensing of Environment. 2020 237 p.111525
Advances in Natural Computation, Fuzzy Systems and Knowledge Discovery (2020)
Verification of the differenced Normalised Burn Ratio (dNBR) as an index of fire severity in Afrotemperate Forest
Giddey Brandon L.,
Baard Johan A., Kraaij Tineke
South African Journal of Botany. 2022 146 p.348
Evaluating a New Relative Phenological Correction and the Effect of Sentinel-Based Earth Engine Compositing Approaches to Map Fire Severity and Burned Area
Silva-Cardoza Adrián Israel,
Vega-Nieva Daniel José,
Briseño-Reyes Jaime,
Briones-Herrera Carlos Ivan,
López-Serrano Pablito Marcelo,
Corral-Rivas José Javier,
Parks Sean A., Holsinger Lisa M.
Remote Sensing. 2022 14(13). p.3122
An alternative spectral index for rapid fire severity assessments
Veraverbeke S.,
Hook S., Hulley G.
Remote Sensing of Environment. 2012 123 p.72
Assessment of post-fire vegetation recovery in Southern Siberia using remote sensing observations
Shvetsov Evgeny G,
Kukavskaya Elena A,
Buryak Ludmila V, Barrett Kirsten
Environmental Research Letters. 2019 14(5). p.055001
Mapping wildfire and clearcut harvest disturbances in boreal forests with Landsat time series data
Schroeder Todd A.,
Wulder Michael A.,
Healey Sean P., Moisen Gretchen G.
Remote Sensing of Environment. 2011 115(6). p.1421
Generating annual estimates of forest fire disturbance in Canada: the National Burned Area Composite
Hall R. J.,
Skakun R. S.,
Metsaranta J. M.,
Landry R.,
Fraser R.H.,
Raymond D.,
Gartrell M.,
Decker V., Little J.
International Journal of Wildland Fire. 2020 29(10). p.878
Research on Wildfires and Remote Sensing in the Last Three Decades: A Bibliometric Analysis
Santos Sarah Moura Batista dos,
Bento-Gonçalves António, Vieira António
Forests. 2021 12(5). p.604
Evaluating the Hyperspectral Sensitivity of the Differenced Normalized Burn Ratio for Assessing Fire Severity
van Gerrevink Max J., Veraverbeke Sander
Remote Sensing. 2021 13(22). p.4611
Landscape Effects of Wildfire on Permafrost Distribution in Interior Alaska Derived from Remote Sensing
Brown Dana,
Jorgenson Mark,
Kielland Knut,
Verbyla David,
Prakash Anupma, Koch Joshua
Remote Sensing. 2016 8(8). p.654
Evaluating the Best Spectral Indices for the Detection of Burn Scars at Several Post-Fire Dates in a Mountainous Region of Northwest Yunnan, China
Fornacca Davide,
Ren Guopeng, Xiao Wen
Remote Sensing. 2018 10(8). p.1196
Large fires as agents of ecological diversity in the North American boreal forest
Burton Philip J.,
Parisien Marc-André,
Hicke Jeffrey A.,
Hall Ronald J., Freeburn Jason T.
International Journal of Wildland Fire. 2008 17(6). p.754
Land surface temperature as potential indicator of burn severity in forest Mediterranean ecosystems
Quintano C.,
Fernández-Manso A.,
Calvo L.,
Marcos E., Valbuena L.
International Journal of Applied Earth Observation and Geoinformation. 2015 36 p.1
Evaluating Landsat Thematic Mapper spectral indices for estimating burn severity of the 2007 Peloponnese wildfires in Greece
Veraverbeke Sander,
Verstraeten Willem W.,
Lhermitte Stefaan, Goossens Rudi
International Journal of Wildland Fire. 2010 19(5). p.558
Forest Fire Impacts on Carbon Uptake, Storage, and Emission: The Role of Burn Severity in the Eastern Cascades, Oregon
Meigs Garrett W.,
Donato Daniel C.,
Campbell John L.,
Martin Jonathan G., Law Beverly E.
Ecosystems. 2009 12(8). p.1246
An improved combined vegetation difference index and burn scar index approach for mapping cropland burned areas using combined data from Landsat 8 multispectral and thermal infrared bands
Liu Shufu,
Wang Shudong,
Chi Tianhe,
Wen Congcong,
Wu Taixia, Wang Dacheng
International Journal of Wildland Fire. 2020 29(6). p.499
Assessment of post-fire changes in land surface temperature and surface albedo, and their relation with fire - burn severity using multitemporal MODIS imagery
Veraverbeke Sander,
Verstraeten Willem W.,
Lhermitte Stefaan,
Van De Kerchove Ruben, Goossens Rudi
International Journal of Wildland Fire. 2012 21(3). p.243
Burn Severity and Post-Fire Land Surface Albedo Relationship in Mediterranean Forest Ecosystems
Quintano Carmen,
Fernandez-Manso Alfonso,
Marcos Elena, Calvo Leonor
Remote Sensing. 2019 11(19). p.2309
Remote sensing approach to detect post-fire vegetation regrowth in Siberian boreal larch forest
Chu Thuan,
Guo Xulin, Takeda Kazuo
Ecological Indicators. 2016 62 p.32
How Well Does the ‘Small Fire Boost’ Methodology Used within the GFED4.1s Fire Emissions Database Represent the Timing, Location and Magnitude of Agricultural Burning?
Zhang Tianran,
Wooster Martin J.,
De Jong Mark C., Xu Weidong
Remote Sensing. 2018 10(6). p.823
Calibrating Satellite-Based Indices of Burn Severity from UAV-Derived Metrics of a Burned Boreal Forest in NWT, Canada
Fraser Robert,
Van der Sluijs Jurjen, Hall Ronald
Remote Sensing. 2017 9(3). p.279
Machine learning to understand patterns of burn severity from the SCU Lightning Complex Fires of August 2020
Potter Christopher, Alexander Olivia
California Fish and Wildlife Journal. 2022 108(1). p.108
Estimation and evaluation of multi-decadal fire severity patterns using Landsat sensors
Parker Brett M.,
Lewis Tom, Srivastava Sanjeev K.
Remote Sensing of Environment. 2015 170 p.340
Fisher–Shannon and detrended fluctuation analysis of MODIS normalized difference vegetation index (NDVI) time series of fire-affected and fire-unaffected pixels
Li Xiaolian,
Lanorte Antonio,
Lasaponara Rosa,
Lovallo Michele,
Song Weiguo, Telesca Luciano
Geomatics, Natural Hazards and Risk. 2017 8(2). p.1342
A simple and integrated approach for fire severity assessment using bi-temporal airborne LiDAR data
Hu Tianyu,
Ma Qin,
Su Yanjun,
Battles John J.,
Collins Brandon M.,
Stephens Scott L.,
Kelly Maggi, Guo Qinghua
International Journal of Applied Earth Observation and Geoinformation. 2019 78 p.25
Impacts of the CZU Lightning Complex Fire of August 2020 on the forests of Big Basin Redwoods State Park
Potter Christopher
California Fish and Wildlife Journal. 2023 109(1).
A GIS-remote sensing approach for forest fire risk assessment: case of Bizerte region, Tunisia
Saidi Salwa,
Younes Alaeddine Ben, Anselme Brice
Applied Geomatics. 2021 13(4). p.587
Predictive mapping of bryophyte richness patterns in boreal forests using species distribution models and remote sensing data
Cerrejón Carlos,
Valeria Osvaldo,
Mansuy Nicolas,
Barbé Marion, Fenton Nicole J.
Ecological Indicators. 2020 119 p.106826
Assessing the potential of the differenced Normalized Burn Ratio (dNBR) for estimating burn severity in eastern Canadian boreal forests
Boucher Jonathan,
Beaudoin André,
Hébert Christian,
Guindon Luc, Bauce Éric
International Journal of Wildland Fire. 2017 26(1). p.32
Fire-severity classification across temperate Australian forests: random forests versus spectral index thresholding
Remote Sensing for Agriculture, Ecosystems, and Hydrology XXI (2019)
Detecting Burn Severity across Mediterranean Forest Types by Coupling Medium-Spatial Resolution Satellite Imagery and Field Data
Saulino Luigi,
Rita Angelo,
Migliozzi Antonello,
Maffei Carmine,
Allevato Emilia,
Garonna Antonio Pietro, Saracino Antonio
Remote Sensing. 2020 12(4). p.741
Benchmarking Sentinel-2-derived predictors for long-term burn severity modelling: the 2016–17 Chilean firestorm
Peña Marco A., Brenning Alexander
International Journal of Remote Sensing. 2023 44(8). p.2668
To what extent can we predict variation of bryophyte and tracheophyte community composition at fine spatial scale along an elevation gradient?
Collart Flavien,
Kiebacher Thomas,
Quetsch Marion,
Broennimann Olivier,
Guisan Antoine, Vanderpoorten Alain
Science of The Total Environment. 2024 926 p.171741
Mapping prescribed fire severity in south-east Australian eucalypt forests using modelling and satellite imagery: a case study
Loschiavo John,
Cirulis Brett,
Zuo Yingxin,
Hradsky Bronwyn A., Di Stefano Julian
International Journal of Wildland Fire. 2017 26(6). p.491
Beyond Landsat: a comparison of four satellite sensors for detecting burn severity in ponderosa pine forests of the Gila Wilderness, NM, USA
Holden Zachary A.,
Morgan Penelope,
Smith Alistair M. S., Vierling Lee
International Journal of Wildland Fire. 2010 19(4). p.449
Vegetation Burn Severity Mapping Using Landsat-8 and WorldView-2
Wu Zhuoting,
Middleton Barry,
Hetzler Robert,
Vogel John, Dye Dennis
Photogrammetric Engineering & Remote Sensing. 2015 81(2). p.143
Fire severity estimation from space: a comparison of active and passive sensors and their synergy for different forest types
Tanase M. A.,
Kennedy R., Aponte C.
International Journal of Wildland Fire. 2015 24(8). p.1062
LiDAR Principles, Processing and Applications in Forest Ecology (2023)
A Hybrid Index for Monitoring Burned Vegetation by Combining Image Texture Features with Vegetation Indices
Fan Jiahui,
Yao Yunjun,
Tang Qingxin,
Zhang Xueyi,
Xu Jia,
Yu Ruiyang,
Liu Lu,
Xie Zijing,
Ning Jing, Zhang Luna
Remote Sensing. 2024 16(9). p.1539
On the limited consensus of mountain pine beetle impacts on wildfire
Romualdi D. C.,
Wilkinson S. L., James P. M. A.
Landscape Ecology. 2023 38(9). p.2159
Predicting post-fire canopy mortality in the boreal forest from dNBR derived from time series of Landsat data
San-Miguel Ignacio,
Andison David W.,
Coops Nicholas C., Rickbeil Gregory J. M.
International Journal of Wildland Fire. 2016 25(7). p.762
Mapping Wildfire Burn Severity in the Arctic Tundra from Downsampled MODIS Data
Kolden Crystal A., Rogan John
Arctic, Antarctic, and Alpine Research. 2013 45(1). p.64
Climate Contributors to Forest Mosaics: Ecological Persistence Following Wildfire
Kolden Crystal A.,
Abatzoglou John T.,
Lutz James A.,
Cansler C. Alina,
Kane Jonathan T.,
Wagtendonk Jan W. Van, Key Carl H.
Northwest Science. 2015 89(3). p.219
Recognizing Women Leaders in Fire Science: Revisited
Smith Alistair M.S., Strand Eva K.
Fire. 2018 1(3). p.45
Climate warming enhancement of catastrophic southern California debris flows
Ren Diandong, Leslie Lance M.
Scientific Reports. 2020 10(1).
Spatial patterns of unburned refugia in Siberian larch forests during the exceptional 2020 fire season
Talucci Anna C.,
Loranty Michael M., Alexander Heather D.
Global Ecology and Biogeography. 2022 31(10). p.2041
North American boreal forests are a large carbon source due to wildfires from 1986 to 2016
Zhao Bailu,
Zhuang Qianlai,
Shurpali Narasinha,
Köster Kajar,
Berninger Frank, Pumpanen Jukka
Scientific Reports. 2021 11(1).
A Dataset for Burned Area Delineation and Severity Estimation from Satellite Imagery
Proceedings of the 31st ACM International Conference on Information & Knowledge Management (2022)
Modeling fire severity in black spruce stands in the Alaskan boreal forest using spectral and non-spectral geospatial data
Barrett K.,
Kasischke E.S.,
McGuire A.D.,
Turetsky M.R., Kane E.S.
Remote Sensing of Environment. 2010 114(7). p.1494
Characterizing Consecutive Flooding Events after the 2017 Mt. Salto Wildfires (Southern Italy): Hazard and Emergency Management Implications
Esposito Giuseppe,
Parodi Antonio,
Lagasio Martina,
Masi Rocco,
Nanni Giovanni,
Russo Filiberto,
Alfano Stefano, Giannatiempo Gaetano
Water. 2019 11(12). p.2663
Remote Sensing of Forest Burnt Area, Burn Severity, and Post-Fire Recovery: A Review
Kurbanov Eldar,
Vorobev Oleg,
Lezhnin Sergey,
Sha Jinming,
Wang Jinliang,
Li Xiaomei,
Cole Janine,
Dergunov Denis, Wang Yibo
Remote Sensing. 2022 14(19). p.4714
Improving the Combustion Factor to Estimate GHG Emissions Associated with Fire in Pinus radiata and Eucalyptus spp. Plantations in Chile
Olmedo Guillermo Federico,
Gilabert Horacio,
Bown Horacio,
Sanhueza Rebeca,
Silva Pía,
Jorquera-Stuardo Carlos, Sierra Francisco
Forests. 2023 14(2). p.403
Variability and drivers of burn severity in the northwestern Canadian boreal forest
Whitman Ellen,
Parisien Marc‐André,
Thompson Dan K.,
Hall Ronald J.,
Skakun Robert S., Flannigan Mike D.
Ecosphere. 2018 9(2).
Daily burned area and carbon emissions from boreal fires in Alaska
Veraverbeke S.,
Rogers B. M., Randerson J. T.
Biogeosciences. 2015 12(11). p.3579
Postfire recruitment failure in Scots pine forests of southern Siberia
Barrett Kirsten,
Baxter Robert,
Kukavskaya Elena,
Balzter Heiko,
Shvetsov Evgeny, Buryak Ludmila
Remote Sensing of Environment. 2020 237 p.111539
Ecological implications of standard fire-mapping approaches for fire management of the World Heritage Area, Fraser Island, Australia
Srivastava Sanjeev Kumar,
King Lee,
Mitchell Chris,
Wiegand Aaron,
Carter R. W.,
Shapcott Alison, Russell-Smith Jeremy
International Journal of Wildland Fire. 2013 22(3). p.381
Spectral analysis of fire severity in north Australian tropical savannas
Edwards Andrew C.,
Maier Stefan W.,
Hutley Lindsay B.,
Williams Richard J., Russell-Smith Jeremy
Remote Sensing of Environment. 2013 136 p.56
Predicting Spatially Explicit Composite Burn Index (CBI) from Different Spectral Indices Derived from Sentinel 2A: A Case of Study in Tunisia
Amroussia Mouna,
Viedma Olga,
Achour Hammadi, Abbes Chaabane
Remote Sensing. 2023 15(2). p.335
Modeling Relationships among 217 Fires Using Remote Sensing of Burn Severity in Southern Pine Forests
Malone Sparkle L.,
Kobziar Leda N.,
Staudhammer Christina L., Abd-Elrahman Amr
Remote Sensing. 2011 3(9). p.2005
