Articles citing this paper
Remote sensing of fire severity in the Blue Mountains: influence of vegetation type and inferring fire intensity
Kate A. Hammill A B and Ross A. Bradstock A
+ Author Affiliations
- Author Affiliations
A Biodiversity Conservation Science Section, Department of Environment and Conservation (NSW), PO Box 1967, Hurstville, NSW 2220, Australia.
B Corresponding author. Email: kate.hammill@environment.nsw.gov.au
International Journal of Wildland Fire 15(2) 213-226 https://doi.org/10.1071/WF05051
Submitted: 27 April 2005 Accepted: 2 March 2006 Published: 31 May 2006
154 articles found in Crossref database.
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
Biodiversity, Conservation and Sustainability in Asia (2021)
Wildfire and Climate Impacts Tree Hollow Density in a Temperate Australian Forest
Gordon Christopher E.,
Stares Mitchell G.,
Bendall Eli R., Bradstock Ross A.
Forests. 2023 14(7). p.1372
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
A comparison of fire severity measures: An Australian example and implications for predicting major areas of soil erosion
Chafer Chris J.
CATENA. 2008 74(3). p.235
Assessing Accuracy of Manually-mapped Wildfire Perimeters in Topographically Dissected Areas
Kolden Crystal A., Weisberg Peter J.
Fire Ecology. 2007 3(1). p.22
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
OzCBI: the composite burn index adapted to assess fire severity and key fauna habitat features in Australian ecosystems
Densmore V. S.,
van Dongen R. J.,
Ong R., Harris B. G.
Australian Forestry. 2023 86(1). p.1
Does alpine grazing reduce blazing? A landscape test of a widely‐held hypothesis
WILLIAMS RICHARD J.,
WAHREN CARL‐HENRIK,
BRADSTOCK ROSS A., MÜLLER WARREN J.
Austral Ecology. 2006 31(8). p.925
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
The power of eDNA sampling to investigate the impact of Australian mega-fires on platypus occupancy
McColl-Gausden Emily F.,
Griffiths Josh,
Collins Luke,
Weeks Andrew R., Tingley Reid
Biological Conservation. 2023 286 p.110219
Fuel flammability and fire responses of juvenile canopy species in a temperate rainforest ecosystem
Zimmer Heidi C.,
Auld Tony D.,
Hughes Lesley,
Offord Catherine A., Baker Patrick J.
International Journal of Wildland Fire. 2015 24(3). p.349
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
Fire severity and its local extent are key to assessing impacts of Australian mega‐fires on koala (Phascolarctos cinereus) density
Law Brad S.,
Gonsalves Leroy,
Burgar Joanna,
Brassil Traecey,
Kerr Isobel, O’Loughlin Chris
Global Ecology and Biogeography. 2022 31(4). p.714
FIRE SEVERITY AND ECOSYTEM RESPONSES FOLLOWING CROWN FIRES IN CALIFORNIA SHRUBLANDS
Keeley Jon E.,
Brennan Teresa, Pfaff Anne H.
Ecological Applications. 2008 18(6). p.1530
Simulating the effectiveness of prescribed burning at altering wildfire behaviour in Tasmania, Australia
Furlaud James M.,
Williamson Grant J., Bowman David M. J. S.
International Journal of Wildland Fire. 2018 27(1). p.15
The Impacts of Burn Severity and Frequency on Erosion in Western Arnhem Land, Australia
Bretreger David,
Hancock Gregory R.,
Lowry John,
Senanayake Indishe P., Yeo In-Young
Sensors. 2024 24(7). p.2282
Near real-time monitoring of post-fire erosion after storm events: a case study in Warrumbungle National Park, Australia
Yang Xihua,
Zhu Qinggaozi,
Tulau Mitch,
McInnes-Clarke Sally,
Sun Liying, Zhang Xiaoping
International Journal of Wildland Fire. 2018 27(6). p.413
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
Analysis fire patterns and drivers with a global SEVER-FIRE v1.0 model incorporated into dynamic global vegetation model and satellite and on-ground observations
Venevsky Sergey,
Le Page Yannick,
Pereira José M. C., Wu Chao
Geoscientific Model Development. 2019 12(1). p.89
Evaluation for Damaged Degree of Vegetation by Forest Fire using Lidar and a Digital Aerial Photograph
Kwak Doo-Ahn,
Chung Jinwon,
Lee Woo-Kyun,
Kafatos Menas,
Lee Si Young,
Cho Hyun-Kook, Lee Seung-Ho
Photogrammetric Engineering & Remote Sensing. 2010 76(3). p.277
Evaluating spectral indices for estimating burned areas in the case of Izmir / Turkey
KESGİN ATAK Birsen, ERSOY TONYALOĞLU Ebru
Eurasian Journal of Forest Science. 2020 8(1). p.49
Estimation of non-CO2 GHGs emissions by analyzing burn severity in the Samcheok fire, South Korea
Won Myoung Soo,
Koo Kyo Sang,
Lee Myung Bo,
Lee Woo Kyun, Kang Kyu-Young
Journal of Mountain Science. 2012 9(6). p.731
Analysis of Burn Severity in Large-fire Area Using SPOT5 Images and Field Survey Data
Won Myoungsoo,
Kim Kyongha, Lee Sangwoo
Korean Journal of Agricultural and Forest Meteorology. 2014 16(2). p.114
Does fire affect the temporal pattern of trophic resource supply to pollinators and seed-dispersing frugivores in a Brazilian savanna community?
Tunes Priscila,
Alves Vinícius Nunes,
Valentin-Silva Adriano,
Batalha Marco Antonio, Guimarães Elza
Plant Ecology. 2017 218(3). p.345
Changes in the resilience of resprouting juvenile tree populations in temperate forests due to coupled severe drought and fire
Bendall E. R.,
Bedward M.,
Boer M.,
Clarke H.,
Collins L.,
Leigh A., Bradstock R. A.
Plant Ecology. 2022 223(7). p.907
Advances in Remote Sensing for Forest Monitoring (2022)
Determination of fireline intensity by oxygen consumption calorimetry
Santoni Paul-Antoine,
Morandini Frédéric, Barboni Toussaint
Journal of Thermal Analysis and Calorimetry. 2011 104(3). p.1005
Soil carbon in Australian fire-prone forests determined by climate more than fire regimes
Sawyer Robert,
Bradstock Ross,
Bedward Michael, Morrison R. John
Science of The Total Environment. 2018 639 p.526
Investigating boron isotopes and FTIR as proxies for bushfire severity
Lu Shawn,
Dosseto Anthony,
Lemarchand Damien,
Dlapa Pavel,
Simkovic Ivan, Bradstock Ross
CATENA. 2022 219 p.106621
Australian Savanna Fire Regimes: Context, Scales, Patchiness
Russell-Smith Jeremy, Yates Cameron P.
Fire Ecology. 2007 3(1). p.48
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
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
Effects of weather, fuel and terrain on fire severity in topographically diverse landscapes of south-eastern Australia
Bradstock R. A.,
Hammill K. A.,
Collins L., Price O.
Landscape Ecology. 2010 25(4). p.607
Prediction of the probability of large fires in the Sydney region of south-eastern Australia using fire weather
Bradstock R. A.,
Cohn J. S.,
Gill A. M.,
Bedward M., Lucas C.
International Journal of Wildland Fire. 2009 18(8). p.932
Post-Fire Recovery of Eucalypt-Dominated Vegetation Communities in the Sydney Basin, Australia
Heath Jessica T.,
Chafer Chris J.,
Bishop Thomas F. A., Van Ogtrop Floris F.
Fire Ecology. 2016 12(3). p.53
Using multiple plant functional types to assess response to prescribed burn season in Mediterranean‐climate vegetation
Thomsen Alexandria M.,
Davies Richard J. P., Ooi Mark K. J.
Applied Vegetation Science. 2023 26(4).
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
The post-fire stability index; a new approach to monitoring post-fire recovery by satellite imagery
Gibson Rebecca K.,
White Laura A.,
Hislop Samuel,
Nolan Rachael H., Dorrough Josh
Remote Sensing of Environment. 2022 280 p.113151
An alternative spectral index for rapid fire severity assessments
Veraverbeke S.,
Hook S., Hulley G.
Remote Sensing of Environment. 2012 123 p.72
Relationship Between Flame Length and Fireline Intensity Obtained by Calorimetry at Laboratory Scale
Barboni Toussaint,
Morandini Frédéric,
Rossi Lucile,
Molinier Thierry, Santoni Paul-Antoine
Combustion Science and Technology. 2012 184(2). p.186
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
Changes in connectivity and hydrological efficiency following wildland fires in Sierra Madre Oriental, Mexico
Ortíz-Rodríguez Azalea Judith,
Muñoz-Robles Carlos, Borselli Lorenzo
Science of The Total Environment. 2019 655 p.112
A Review of the Applications of Remote Sensing in Fire Ecology
Szpakowski David, Jensen Jennifer
Remote Sensing. 2019 11(22). p.2638
RETRACTED: Propensities of Old Growth, Mature and Regrowth Wet Eucalypt Forest, and Eucalyptus nitens Plantation, to Burn During Wildfire and Suffer Fire-Induced Crown Death
Winoto-Lewin Suyanti,
Sanger Jennifer, Kirkpatrick James
Fire. 2020 3(2). p.13
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
Australia's 2019–20 mega‐fires are associated with lower occupancy of a rainforest‐dependent bat
Law B. S.,
Madani G.,
Lloyd A.,
Gonsalves L.,
Hall L.,
Sujaraj A.,
Brassil T., Turbill C.
Animal Conservation. 2023 26(1). p.103
Post‐grazing and post‐fire vegetation dynamics: long‐term changes in mountain bogs reveal community resilience
Clarke Peter J.,
Keith David A.,
Vincent Ben E.,
Letten Andrew D., Halvorsen Rune
Journal of Vegetation Science. 2015 26(2). p.278
Mineralogical and chemical markers of fire exposure in ancient, sandy podzols
Scullett-Dean G.,
Shulmeister J.,
Welsh K.J., Santini T.C.
CATENA. 2020 195 p.104820
Rapidly mapping fire effects on biodiversity at a large-scale using citizen science
Kirchhoff Casey,
Callaghan Corey T.,
Keith David A.,
Indiarto Dony,
Taseski Guy,
Ooi Mark K.J.,
Le Breton Tom D.,
Mesaglio Thomas,
Kingsford Richard T., Cornwell William K.
Science of The Total Environment. 2021 755 p.142348
Forest avifauna exhibit enduring responses to historical high-severity wildfires
Franklin Michael J.M.,
Major Richard E.,
Bedward Michael,
Price Owen F., Bradstock Ross A.
Biological Conservation. 2022 269 p.109545
Untangling fuel, weather and management effects on fire severity: Insights from large-sample LiDAR remote sensing analysis of conditions preceding the 2019-20 Australian wildfires
Gale Matthew G.,
Cary Geoffrey J.,
van Dijk Albert I.J.M., Yebra Marta
Journal of Environmental Management. 2023 348 p.119474
Too much, too soon? A review of the effects of increasing wildfire frequency on tree mortality and regeneration in temperate eucalypt forests
Fairman Thomas A.,
Nitschke Craig R., Bennett Lauren T.
International Journal of Wildland Fire. 2016 25(8). p.831
Animal movements in fire‐prone landscapes
Nimmo Dale G.,
Avitabile Sarah,
Banks Sam C.,
Bliege Bird Rebecca,
Callister Kate,
Clarke Michael F.,
Dickman Chris R.,
Doherty Tim S.,
Driscoll Don A.,
Greenville Aaron C.,
Haslem Angie,
Kelly Luke T.,
Kenny Sally A.,
Lahoz‐Monfort José J.,
Lee Connie,
Leonard Steven,
Moore Harry,
Newsome Thomas M.,
Parr Catherine L.,
Ritchie Euan G.,
Schneider Kathryn,
Turner James M.,
Watson Simon,
Westbrooke Martin,
Wouters Mike,
White Matthew, Bennett Andrew F.
Biological Reviews. 2019 94(3). p.981
Effects of large fires on biodiversity in south-eastern Australia: disaster or template for diversity?
Bradstock Ross A.
International Journal of Wildland Fire. 2008 17(6). p.809
Black bear spatial responses to the Wallow Wildfire in Arizona
Crabb Michelle L.,
Clement Matthew J.,
Jones Andrew S.,
Bristow Kirby D., Harding Larisa E.
The Journal of Wildlife Management. 2022 86(3).
Soil Enzymology in the Recycling of Organic Wastes and Environmental Restoration (2011)
Remote Sensing and Machine Learning for Accurate Fire Severity Mapping in Northern Algeria
Zikiou Nadia,
Rushmeier Holly,
Capel Manuel I.,
Kandakji Tarek,
Rios Nelson, Lahdir Mourad
Remote Sensing. 2024 16(9). p.1517
Anatomy of a catastrophic wildfire: The Black Saturday Kilmore East fire in Victoria, Australia
Cruz M.G.,
Sullivan A.L.,
Gould J.S.,
Sims N.C.,
Bannister A.J.,
Hollis J.J., Hurley R.J.
Forest Ecology and Management. 2012 284 p.269
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
Patterns of flammability after a sequence of mixed‐severity wildfire in dry eucalypt forests of southern Australia
Barker James W.,
Price Owen F., Jenkins Meaghan E.
Ecosphere. 2021 12(8).
Risk and Uncertainty Assessment for Natural Hazards (2013)
The Effect of Antecedent Fire Severity on Reburn Severity and Fuel Structure in a Resprouting Eucalypt Forest in Victoria, Australia
Collins Luke,
Hunter Adele,
McColl-Gausden Sarah,
Penman Trent D., Zylstra Philip
Forests. 2021 12(4). p.450
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
A System for Burned Area Detection on Multispectral Imagery
Zanetti Massimo,
Saha Sudipan,
Marinelli Daniele,
Magliozzi Maria Lucia,
Zavagli Massimo,
Costantini Mario,
Bovolo Francesca, Bruzzone Lorenzo
IEEE Transactions on Geoscience and Remote Sensing. 2022 60 p.1
Effects of 38 years of wildfires on tree density in the Blue Mountains, Australia
Rahmani Simin, Price Owen
Austral Ecology. 2021 46(1). p.20
Investigating Boron Isotopes and Ftir as Proxies for Bushfire Severity
Lu Shawn,
Dosseto Anthony,
Lemarchand Damien,
Dlapa Pavel,
Simkovic Ivan, Bradstock Ross A.
SSRN Electronic Journal . 2022
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)
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
Using Landsat data to assess fire and burn severity in the North American boreal forest region: an overview and summary of results
French Nancy H. F.,
Kasischke Eric S.,
Hall Ronald J.,
Murphy Karen A.,
Verbyla David L.,
Hoy Elizabeth E., Allen Jennifer L.
International Journal of Wildland Fire. 2008 17(4). p.443
Aboveground carbon sequestration in dry temperate forests varies with climate not fire regime
Gordon Christopher E.,
Bendall Eli R.,
Stares Mitchell G.,
Collins Luke, Bradstock Ross A.
Global Change Biology. 2018 24(9). p.4280
Using high spatial resolution satellite imagery to map forest burn severity across spatial scales in a Pine Barrens ecosystem
Meng Ran,
Wu Jin,
Schwager Kathy L.,
Zhao Feng,
Dennison Philip E.,
Cook Bruce D.,
Brewster Kristen,
Green Timothy M., Serbin Shawn P.
Remote Sensing of Environment. 2017 191 p.95
Remote Sensing Approach to Detect Burn Severity Risk Zones in Palo Verde National Park, Costa Rica
Rozario Papia F.,
Madurapperuma Buddhika D., Wang Yijun
Remote Sensing. 2018 10(9). p.1427
Impact of Urban Fires in Drainage Systems: an Experimental Case Study
Pimentel-Rodrigues Carla,
Almeida João,
Silva-Afonso Armando, Barreirinha Pedro
WSEAS TRANSACTIONS ON ENVIRONMENT AND DEVELOPMENT. 2021 17 p.128
First evaluation of fire severity retrieval from PRISMA hyperspectral data
Quintano Carmen,
Calvo Leonor,
Fernández-Manso Alfonso,
Suárez-Seoane Susana,
Fernandes Paulo M., Fernández-Guisuraga José Manuel
Remote Sensing of Environment. 2023 295 p.113670
Factors influencing the formation of unburned forest islands within the perimeter of a large forest fire
Román-Cuesta Rosa Maria,
Gracia Marc, Retana Javier
Forest Ecology and Management. 2009 258(2). p.71
Fire intensity drives post-fire temporal pattern of soil carbon accumulation in Australian fire-prone forests
Sawyer Robert,
Bradstock Ross,
Bedward Michael, Morrison R. John
Science of The Total Environment. 2018 610-611 p.1113
Evaluating post-fire recovery of Latroon dry forest using Landsat ETM+, unmanned aerial vehicle and field survey data
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
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
Impact assessment of the Australian 2019–20 megafires on roost sites of the vulnerable grey-headed flying-fox (Pteropus poliocephalus)
Mo Matthew,
Meade Jessica,
Roff Adam,
Timmiss Libby A.,
Gibson Rebecca, Welbergen Justin A.
Global Ecology and Conservation. 2024 50 p.e02822
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
Computational Science and Its Applications – ICCSA 2013 (2013)
Effects of Time‐Since‐Fire on Vegetation Composition and Structures in Semi‐Arid Perennial Grassland on the Loess Plateau, China
Wu Gao‐Lin,
Zhao Ling‐Ping,
Wang Dong, Shi Zhi‐Hua
CLEAN – Soil, Air, Water. 2014 42(1). p.98
Effects of fire season on the reproductive success of the post-fire flowerer Doryanthes excelsa
Paroissien Ruby, Ooi Mark K.J.
Environmental and Experimental Botany. 2021 192 p.104634
Mortality and resprouting responses in forest trees driven more by tree and ecosystem characteristics than drought severity and fire frequency
Bendall E.R.,
Bedward M.,
Boer M.,
Clarke H.,
Collins L.,
Leigh A., Bradstock R.A.
Forest Ecology and Management. 2022 509 p.120070
Landscape Controls on Structural Variation in Eucalypt Vegetation Communities: Woronora Plateau, Australia
Jenkins Ross B., Coops Nicholas C.
Australian Geographer. 2011 42(1). p.1
The 2019/2020 mega-fires exposed Australian ecosystems to an unprecedented extent of high-severity fire
Collins Luke,
Bradstock Ross A,
Clarke Hamish,
Clarke Michael F,
Nolan Rachael H, Penman Trent D
Environmental Research Letters. 2021 16(4). p.044029
Rapid Assessment of Hillslope Erosion Risk after the 2019–2020 Wildfires and Storm Events in Sydney Drinking Water Catchment
Yang Xihua,
Zhang Mingxi,
Oliveira Lorena,
Ollivier Quinn R.,
Faulkner Shane, Roff Adam
Remote Sensing. 2020 12(22). p.3805
Conjunctive Use of Landsat-8 OLI and MODIS Data for Delineation of Burned Areas
Azeemuddin Syed, Dwivedi R.S.
Photogrammetric Engineering & Remote Sensing. 2022 88(6). p.407
Remote sensing of post-fire vegetation recovery; a study using Landsat 5 TM imagery and NDVI in North-East Victoria
Sever L.,
Leach J., Bren L.
Journal of Spatial Science. 2012 57(2). p.175
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
Burn severity estimation from remotely sensed data: Performance of simulation versus empirical models
De Santis Angela, Chuvieco Emilio
Remote Sensing of Environment. 2007 108(4). p.422
Relative importance of fuel management, ignition management and weather for area burned: evidence from five landscape - fire - succession models
Cary Geoffrey J.,
Flannigan Mike D.,
Keane Robert E.,
Bradstock Ross A.,
Davies Ian D.,
Lenihan James M.,
Li Chao,
Logan Kimberley A., Parsons Russell A.
International Journal of Wildland Fire. 2009 18(2). p.147
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
Detecting unburned areas within wildfire perimeters using Landsat and ancillary data across the northwestern United States
Meddens Arjan J.H.,
Kolden Crystal A., Lutz James A.
Remote Sensing of Environment. 2016 186 p.275
Responses of resilience traits to gradients of temperature, rainfall and fire frequency in fire-prone, Australian forests: potential consequences of climate change
Hammill Kate,
Penman Trent, Bradstock Ross
Plant Ecology. 2016 217(6). p.725
Boron isotopes and FTIR spectroscopy to identify past high severity fires
Ryan Rebecca,
Dosseto Anthony,
Lemarchand Damien,
Dlapa Pavel,
Thomas Zoë,
Simkovic Ivan, Bradstock Ross
CATENA. 2023 222 p.106887
Mapping and exploring variation in post‐fire vegetation recovery following mixed severity wildfire using airborne LiDAR
Gordon Christopher E.,
Price Owen F., Tasker Elizabeth M.
Ecological Applications. 2017 27(5). p.1618
What determines variation in remotely sensed fire severity? Consideration of remote sensing limitations and confounding factors
Gale Matthew G., Cary Geoffrey J.
International Journal of Wildland Fire. 2022 31(3). p.291
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
Examination of WFDS in Modeling Spreading Fires in a Furniture Calorimeter
Perez-Ramirez Y.,
Mell W. E.,
Santoni P. A.,
Tramoni J. B., Bosseur F.
Fire Technology. 2017 53(5). p.1795
The Role of Natural Vegetative Disturbance in Determining Stream Reach Characteristics in Central Idaho and Western Montana
Roper Brett B.,
Jarvis Beau, Kershner Jeffrey L.
Northwest Science. 2007 81(3). p.224
The temporal dimension of differenced Normalized Burn Ratio (dNBR) fire/burn severity studies: The case of the large 2007 Peloponnese wildfires in Greece
Veraverbeke S.,
Lhermitte S.,
Verstraeten W.W., Goossens R.
Remote Sensing of Environment. 2010 114(11). p.2548
Determinants of the occurrence of unburnt forest patches: Potential biotic refuges within a large, intense wildfire in south-eastern Australia
Leonard Steven W.J.,
Bennett Andrew F., Clarke Michael F.
Forest Ecology and Management. 2014 314 p.85
Illumination effects on the differenced Normalized Burn Ratio's optimality for assessing fire severity
Veraverbeke S.,
Verstraeten W.W.,
Lhermitte S., Goossens R.
International Journal of Applied Earth Observation and Geoinformation. 2010 12(1). p.60
Measuring fire severity: Are canopy, understorey and below-ground measures coupled in sclerophyll forest fires?
Knox Kirsten J. E., Clarke Peter J.
Plant Ecology. 2016 217(6). p.607
Resilience to Large, “Catastrophic” Wildfires in North America's Grassland Biome
Donovan Victoria M.,
Twidwell Dirac,
Uden Daniel R.,
Tadesse Tsegaye,
Wardlow Brian D.,
Bielski Christine H.,
Jones Matthew O.,
Allred Brady W.,
Naugle David E., Allen Craig R.
Earth's Future. 2020 8(7).
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
Macroecology of Australian Tall Eucalypt Forests: Baseline Data from a Continental-Scale Permanent Plot Network
Wood Sam W.,
Prior Lynda D.,
Stephens Helen C.,
Bowman David M. J. S., Adam Paul
PLOS ONE. 2015 10(9). p.e0137811
Fuel consumption rates in resprouting eucalypt forest during hazard reduction burns, cultural burns and wildfires
Price Owen H.,
Nolan Rachael H., Samson Stephanie A.
Forest Ecology and Management. 2022 505 p.119894
Using MODIS data to analyse post-fire vegetation recovery in Australian eucalypt forests
Caccamo Gabriele,
Bradstock Ross,
Collins Luke,
Penman Trent, Watson Penny
Journal of Spatial Science. 2015 60(2). p.341
Contextualizing the 2019–2020 Kangaroo Island Bushfires: Quantifying Landscape-Level Influences on Past Severity and Recovery with Landsat and Google Earth Engine
Bonney Mitchell T.,
He Yuhong, Myint Soe W.
Remote Sensing. 2020 12(23). p.3942
Response of fungal communities to fire in a subtropical peatland
Tian Jianqing,
Wang Hongjun,
Vilgalys Rytas,
Ho Mengchi,
Flanagan Neal, Richardson Curtis J.
Plant and Soil. 2021 466(1-2). p.525
Assessment of Wildfire Activity Development Trends for Eastern Australia Using Multi-Sensor Earth Observation Data
Nolde Michael,
Mueller Norman,
Strunz Günter, Riedlinger Torsten
Remote Sensing. 2021 13(24). p.4975
Abrupt fire regime change may cause landscape‐wide loss of mature obligate seeder forests
Bowman David M. J. S.,
Murphy Brett P.,
Neyland Dominic L. J.,
Williamson Grant J., Prior Lynda D.
Global Change Biology. 2014 20(3). p.1008
Regional partitioning for wildfire regime characterization
Fiorucci Paolo,
Gaetani Francesco, Minciardi Riccardo
Journal of Geophysical Research: Earth Surface. 2008 113(F2).
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
Determining Relative Contributions of Vegetation and Topography to Burn Severity from LANDSAT Imagery
Wu Zhiwei,
He Hong S.,
Liang Yu,
Cai Longyan, Lewis Bernard J.
Environmental Management. 2013 52(4). p.821
Cattle grazing does not reduce fire severity in eucalypt forests and woodlands of the Australian Alps
Williamson Grant J.,
Murphy Brett P., Bowman David M. J. S.
Austral Ecology. 2014 39(4). p.462
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
Seasonality and fire severity in savanna landscapes of monsoonal northern Australia
Russell-Smith Jeremy, Edwards Andrew C.
International Journal of Wildland Fire. 2006 15(4). p.541
Relationships among indices of fire severity in riparian zones
Halofsky Jessica E., Hibbs David E.
International Journal of Wildland Fire. 2009 18(5). p.584
The impact of fire regimes on populations of an endangered lizard in montane south‐eastern Australia
Gorissen Sarsha,
Mallinson Jacqueline,
Greenlees Matthew, Shine Richard
Austral Ecology. 2015 40(2). p.170
Geospatial assessment of forest fire impacts utilizing high-resolution KazEOSat-1 satellite data
Suresh Babu K. V.,
Singh Swati,
Kabdulova G.,
Gulnara Kabzhanova, Baktybekov G.
Frontiers in Forests and Global Change. 2024 7
Relative avian mobility linked to use of fire-affected resources in forested landscapes
Franklin Michael J.M.,
Major Richard E.,
Bedward Michael, Bradstock Ross A.
Forest Ecology and Management. 2021 497 p.119484
Integrating Science into Management of Ecosystems in the Greater Blue Mountains
Chapple Rosalie S.,
Ramp Daniel,
Bradstock Ross A.,
Kingsford Richard T.,
Merson John A.,
Auld Tony D.,
Fleming Peter J. S., Mulley Robert C.
Environmental Management. 2011 48(4). p.659
Forest Fire Assessment Using Remote Sensing to Support the Development of an Action Plan Proposal in Ecuador
Morante-Carballo Fernando,
Bravo-Montero Lady,
Carrión-Mero Paúl,
Velastegui-Montoya Andrés, Berrezueta Edgar
Remote Sensing. 2022 14(8). p.1783
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
Fire intensity, fire severity and burn severity: a brief review and suggested usage
Keeley Jon E.
International Journal of Wildland Fire. 2009 18(1). p.116
Positive severity feedback between consecutive fires in dry eucalypt forests of southern Australia
Barker James W., Price Owen F.
Ecosphere. 2018 9(3).
Numerical Prediction of the Fire Spread in Vegetative Fuels Using NISTWFDS Model
Miloua Hadj
International Journal of Engineering Research in Africa. 2015 20 p.177
Can gullies preserve complex forest structure in frequently burnt landscapes?
Collins Luke,
Bradstock Ross A.,
Tasker Elizabeth M., Whelan Robert J.
Biological Conservation. 2012 153 p.177
Severe and Short Interval Fires Rearrange Dry Forest Fuel Arrays in South-Eastern Australia
Gordon Christopher E.,
Nolan Rachael H.,
Boer Matthias M.,
Bendall Eli R.,
Williamson Jane S.,
Price Owen F.,
Kenny Belinda J.,
Taylor Jennifer E.,
Denham Andrew J., Bradstock Ross A.
Fire. 2024 7(4). p.130
Forest‐fire regimes affect thermoregulatory opportunities for terrestrial ectotherms
ELZER AMANDA L.,
PIKE DAVID A.,
WEBB JONATHAN K.,
HAMMILL KATE,
BRADSTOCK ROSS A., SHINE RICHARD
Austral Ecology. 2013 38(2). p.190
Analyzing Fire Severity and Post-Fire Vegetation Recovery in the Temperate Andes Using Earth Observation Data
Maxwald Melanie,
Immitzer Markus,
Rauch Hans Peter, Preti Federico
Fire. 2022 5(6). p.211
Can precipitation influence landscape controls on wildfire severity? A case study within temperate eucalypt forests of south-eastern Australia
Collins L.,
Bradstock R. A., Penman T. D.
International Journal of Wildland Fire. 2014 23(1). p.9
The efficacy of fuel treatment in mitigating property loss during wildfires: Insights from analysis of the severity of the catastrophic fires in 2009 in Victoria, Australia
Price Owen F., Bradstock Ross A.
Journal of Environmental Management. 2012 113 p.146
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
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
Training data requirements for fire severity mapping using Landsat imagery and random forest
Collins Luke,
McCarthy Greg,
Mellor Andrew,
Newell Graeme, Smith Luke
Remote Sensing of Environment. 2020 245 p.111839
Framework for assessing live fine fuel loads and biomass consumption during fire
Nolan Rachael H.,
Price Owen F.,
Samson Stephanie A.,
Jenkins Meaghan E.,
Rahmani Simin, Boer Matthias M.
Forest Ecology and Management. 2022 504 p.119830
The role of weather, past fire and topography in crown fire occurrence in eastern Australia
Storey Michael,
Price Owen, Tasker Elizabeth
International Journal of Wildland Fire. 2016 25(10). p.1048
Effects of heterogeneity of pre-fire forests and vegetation burn severity on short-term post-fire vegetation density and regeneration in Samcheok, Korea
Lee Joo-Mee,
Lee Sang-Woo,
Lim Joo-Hoon,
Won Myoung-Soo, Lee Hyung-Sook
Landscape and Ecological Engineering. 2014 10(1). p.215
A remote sensing approach to mapping fire severity in south-eastern Australia using sentinel 2 and random forest
Gibson Rebecca,
Danaher Tim,
Hehir Warwick, Collins Luke
Remote Sensing of Environment. 2020 240 p.111702
A statistical approach to site-specific thresholding for burn severity maps using bi-temporal Landsat-8 images
Kadakci̇ Koca Tümay
Earth Science Informatics. 2023 16(2). p.1313
Estimation of the maximum temperature reached in burned soils using near-infrared spectroscopy: Effects of soil sample pre-treatments
Arcenegui V.,
Mataix-Solera J.,
Zornoza R.,
Pérez-Bejarano A.,
Mataix-Beneyto J., Gómez I.
Geoderma. 2010 158(1-2). p.85
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
A One-Class Classification Model for Burned-Area Detection Based on Mutual Ordering of Normalized Differences
Zanetti Massimo
IEEE Transactions on Geoscience and Remote Sensing. 2023 61 p.1
The utility of Random Forests for wildfire severity mapping
Collins L.,
Griffioen P.,
Newell G., Mellor A.
Remote Sensing of Environment. 2018 216 p.374
Unitemporal approach to fire severity mapping using multispectral synthetic databases and Random Forests
Montorio Raquel,
Pérez-Cabello Fernando,
Borini Alves Daniel, García-Martín Alberto
Remote Sensing of Environment. 2020 249 p.112025
Shifting season of fire and its interaction with fire severity: Impacts on reproductive effort in resprouting plants
Thomsen Alexandria M., Ooi Mark K. J.
Ecology and Evolution. 2022 12(3).
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
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
