Articles citing this paper
Fire severity estimation from space: a comparison of active and passive sensors and their synergy for different forest types
M. A. Tanase A C , R. Kennedy B and C. Aponte A
+ Author Affiliations
- Author Affiliations
A School of Ecosystem and Forest Sciences, University of Melbourne, 500 Yarra Boulevard, Richmond, Vic. 3121, Australia.
B College of Earth, Ocean, and Atmospheric Sciences, Oregon State University, Corvallis, OR 97331-5503, USA.
C Corresponding author. Email: mihai.tanase@tma.ro
International Journal of Wildland Fire 24(8) 1062-1075 https://doi.org/10.1071/WF15059
Submitted: 26 November 2014 Accepted: 30 June 2015 Published: 31 August 2015
35 articles found in Crossref database.
Applications of Satellite Radar Imagery for Hazard Monitoring: Insights from Australia
Parker Amy L.,
Castellazzi Pascal,
Fuhrmann Thomas,
Garthwaite Matthew C., Featherstone Will E.
Remote Sensing. 2021 13(8). p.1422
Estimating prescribed fire impacts and post-fire tree survival in eucalyptus forests of Western Australia with L-band SAR data
Fernandez-Carrillo Angel,
McCaw Lachlan, Tanase Mihai A.
Remote Sensing of Environment. 2019 224 p.133
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
COSMO-SkyMed potential to detect and monitor Mediterranean maquis fires and regrowth: a pilot study in Capo Figari, Sardinia, Italy
Vaglio Laurin G,
Avezzano R,
Bacciu V,
Frate FD,
Papale D, Virelli M
iForest - Biogeosciences and Forestry. 2018 11(3). p.389
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
Seasonally-decomposed Sentinel-1 backscatter time-series are useful indicators of peatland wildfire vulnerability
Millard K.,
Darling S.,
Pelletier N., Schultz S.
Remote Sensing of Environment. 2022 283 p.113329
Reconstructing historical forest fire risk in the non-satellite era using the improved forest fire danger index and long short-term memory deep learning-a case study in Sichuan Province, southwestern China
Peng Yuwen,
Su Huiyi,
Sun Min, Li Mingshi
Forest Ecosystems. 2024 11 p.100170
Mapping the research history, collaborations and trends of remote sensing in fire ecology
de Santana Mariana M. M.,
Mariano-Neto Eduardo,
de Vasconcelos Rodrigo N.,
Dodonov Pavel, Medeiros José M. M.
Scientometrics. 2021 126(2). p.1359
Utilizing satellite radar remote sensing for burn severity estimation
Addison Priscilla, Oommen Thomas
International Journal of Applied Earth Observation and Geoinformation. 2018 73 p.292
Burn Scar Detection Using Polarimetric ALOS-2 Data
IGARSS 2018 - 2018 IEEE International Geoscience and Remote Sensing Symposium (2018)
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
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
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
Short-Term Recovery of the Aboveground Carbon Stock in Iberian Shrublands at the Extremes of an Environmental Gradient and as a Function of Burn Severity
Fernández-Guisuraga José Manuel,
Calvo Leonor,
Fernandes Paulo M., Suárez-Seoane Susana
Forests. 2022 13(2). p.145
Quantitative Analysis of Forest Fires in Southeastern Australia Using SAR Data
Tariq Aqil,
Shu Hong,
Li Qingting,
Altan Orhan,
Khan Mobushir Riaz,
Baqa Muhammad Fahad, Lu Linlin
Remote Sensing. 2021 13(12). p.2386
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
Event-Based Integrated Assessment of Environmental Variables and Wildfire Severity through Sentinel-2 Data
Picos Juan,
Alonso Laura,
Bastos Guillermo, Armesto Julia
Forests. 2019 10(11). p.1021
Mortality and recruitment of fire-tolerant eucalypts as influenced by wildfire severity and recent prescribed fire
Bennett Lauren T.,
Bruce Matthew J.,
MacHunter Josephine,
Kohout Michele,
Tanase Mihai A., Aponte Cristina
Forest Ecology and Management. 2016 380 p.107
Exploring the Potential of Sentinels-1 & 2 of the Copernicus Mission in Support of Rapid and Cost-effective Wildfire Assessment
Colson Daniel,
Petropoulos George P., Ferentinos Konstantinos P.
International Journal of Applied Earth Observation and Geoinformation. 2018 73 p.262
Computational Science and Its Applications – ICCSA 2021 (2021)
Regional-scale fire severity mapping of Eucalyptus forests with the Landsat archive
Dixon Dan J.,
Callow J. Nikolaus,
Duncan John M.A.,
Setterfield Samantha A., Pauli Natasha
Remote Sensing of Environment. 2022 270 p.112863
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
The Effect of Surface Fire in Savannah Systems in the Kruger National Park (KNP), South Africa, on the Backscatter of C-Band Sentinel-1 Images
Mathieu Renaud,
Main Russell,
Roy David P.,
Naidoo Laven, Yang Hannah
Fire. 2019 2(3). p.37
Comparison of contrasting optical and LiDAR fire severity remote sensing methods in a heterogeneous forested landscape in south-eastern Australia
Gale Matthew G.,
Cary Geoffrey J.,
Yebra Marta,
Leavesley Adam J., Van Dijk Albert I. J. M.
International Journal of Remote Sensing. 2022 43(7). p.2538
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
Exploring the Potential of C-Band SAR in Contributing to Burn Severity Mapping in Tropical Savanna
Philipp Marius B., Levick Shaun R.
Remote Sensing. 2019 12(1). p.49
Full-polarimetric burn scar mapping – the differences of active fire and post-fire situations
Plank Simon,
Karg Susanne, Martinis Sandro
International Journal of Remote Sensing. 2019 40(1). p.253
Madagascar's burned area from Sentinel-2 imagery (2016–2022): Four times higher than from lower resolution sensors
Fernández-García V.,
Franquesa M., Kull C.A.
Science of The Total Environment. 2024 914 p.169929
Identification of Burned Areas and Severity Using SAR Sentinel-1
Lasaponara Rosa, Tucci Biagio
IEEE Geoscience and Remote Sensing Letters. 2019 16(6). p.917
Fire-severity classification across temperate Australian forests: random forests versus spectral index thresholding
Remote Sensing for Agriculture, Ecosystems, and Hydrology XXI (2019)
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
Burned area detection using Sentinel-1 SAR data: A case study of Kangaroo Island, South Australia
Hosseini Maryamsadat, Lim Samsung
Applied Geography. 2023 151 p.102854
Burn Severity Assessment Using Sentinel-1 SAR in the Southeast Peruvian Amazon, a Case Study of Madre de Dios
Alarcon-Aguirre Gabriel,
Miranda Fidhel Reynaldo Fabrizzio,
Ramos Enciso Dalmiro,
Canahuire-Robles Rembrandt,
Rodriguez-Achata Liset, Garate-Quispe Jorge
Fire. 2022 5(4). p.94
Earth Environmental Monitoring Using Multi-Temporal Synthetic Aperture Radar: A Critical Review of Selected Applications
Amitrano Donato,
Di Martino Gerardo,
Guida Raffaella,
Iervolino Pasquale,
Iodice Antonio,
Papa Maria Nicolina,
Riccio Daniele, Ruello Giuseppe
Remote Sensing. 2021 13(4). p.604
Historical background and current developments for mapping burned area from satellite Earth observation
Chuvieco Emilio,
Mouillot Florent,
van der Werf Guido R.,
San Miguel Jesús,
Tanase Mihai,
Koutsias Nikos,
García Mariano,
Yebra Marta,
Padilla Marc,
Gitas Ioannis,
Heil Angelika,
Hawbaker Todd J., Giglio Louis
Remote Sensing of Environment. 2019 225 p.45
