Citations (50)
Keep up to date with the latest research on this topic with citation updates for this article.
Read on this site (5)
Kristofer Lasko. (2021) Incorporating Sentinel-1 SAR imagery with the MODIS MCD64A1 burned area product to improve burn date estimates and reduce burn date uncertainty in wildland fire mapping. Geocarto International 36:3, pages 340-360.
Read now
Read now
Michael L. Humber, Luigi Boschetti, Louis Giglio & Christopher O. Justice. (2019) Spatial and temporal intercomparison of four global burned area products. International Journal of Digital Earth 12:4, pages 460-484.
Read now
Read now
Mariela Soto-Berelov, Simon D. Jones, Elizabeth Clarke, Shanti Reddy, Vaibhav Gupta & Maria Luisa Cardoso Felipe. (2018) Assessing two large area burnt area products across Australian Southern Forests. International Journal of Remote Sensing 39:3, pages 879-905.
Read now
Read now
G. Verroios & T. Georgiadis. (2011) Aleppo pine forests of northern and western Peloponnisos (southern Greece): Plant communities and diversity. Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology 145:3, pages 606-619.
Read now
Read now
RhettL. Mohler & DouglasG. Goodin. (2010) A comparison of red, NIR, and NDVI for monitoring temporal burn signature change in tallgrass prairie. Remote Sensing Letters 1:1, pages 3-9.
Read now
Read now
Articles from other publishers (45)
Huiyi Su, Xinyu Wang, Wei Chen, Ning Ding, Xiaolei Cui, Mengqi Bai, Zhili Chen & Mingshi Li. (2024) A novel framework for identifying causes of forest fire events using environmental and temporal characteristics of the ignition point in fire footprint. Ecological Indicators 160, pages 111899.
Crossref
Crossref
D.G. Kaskaoutis, K. Petrinoli, G. Grivas, P. Kalkavouras, M. Tsagkaraki, K. Tavernaraki, K. Papoutsidaki, I. Stavroulas, D. Paraskevopoulou, A. Bougiatioti, E. Liakakou, A. Rashki, R.E.P. Sotiropoulou, E. Tagaris, E. Gerasopoulos & N. Mihalopoulos. (2024) Impact of peri-urban forest fires on air quality and aerosol optical and chemical properties: The case of the August 2021 wildfires in Athens, Greece. Science of The Total Environment 907, pages 168028.
Crossref
Crossref
Michael C. Ochei & Samson O. Ogunfuyi. (2023) Impact of Urbanization on Temperature Trend Using Geospatial Techniques in Ondo State, Nigeria. Remote Sensing in Earth Systems Sciences 6:3-4, pages 208-223.
Crossref
Crossref
Georgios Zagalikis. 2023. Geographic Information Systems - Data Science Approach. Geographic Information Systems - Data Science Approach.
Joana Parente, Marj Tonini, Zoi Stamou, Nikos Koutsias & Mário Pereira. (2023) Quantitative Assessment of the Relationship between Land Use/Land Cover Changes and Wildfires in Southern Europe. Fire 6:5, pages 198.
Crossref
Crossref
Huiyi Su, Xiu Ma & Mingshi Li. (2023) An improved spatio-temporal clustering method for extracting fire footprints based on MCD64A1 in the Daxing’anling Area of north-eastern China. International Journal of Wildland Fire 32:5, pages 679-693.
Crossref
Crossref
Eldar Kurbanov, Oleg Vorobev, Sergey Lezhnin, Jinming Sha, Jinliang Wang, Xiaomei Li, Janine Cole, Denis Dergunov & Yibo Wang. (2022) Remote Sensing of Forest Burnt Area, Burn Severity, and Post-Fire Recovery: A Review. Remote Sensing 14:19, pages 4714.
Crossref
Crossref
Alexandra D. Syphard, Jon E. Keeley, Mike Gough, Mitchell Lazarz & John Rogan. (2022) What Makes Wildfires Destructive in California?. Fire 5:5, pages 133.
Crossref
Crossref
Ashu Singh, Pragati Misra & Pradeep Kumar Shukla. 2022. Handbook of Research on Green Technologies for Sustainable Management of Agricultural Resources. Handbook of Research on Green Technologies for Sustainable Management of Agricultural Resources
227
245
.
Yaron Michael, David Helman, Oren Glickman, David Gabay, Steve Brenner & Itamar M. Lensky. (2021) Forecasting fire risk with machine learning and dynamic information derived from satellite vegetation index time-series. Science of The Total Environment 764, pages 142844.
Crossref
Crossref
Rafael Llorens, José Antonio Sobrino, Cristina Fernández, José M. Fernández-Alonso & José Antonio Vega. (2021) A methodology to estimate forest fires burned areas and burn severity degrees using Sentinel-2 data. Application to the October 2017 fires in the Iberian Peninsula. International Journal of Applied Earth Observation and Geoinformation 95, pages 102243.
Crossref
Crossref
Ana Aguiar Real Marinho, Givanildo de Gois, José Francisco de Oliveira-Júnior, Washington Luiz Félix Correia Filho, Dimas de Barros Santiago, Carlos Antonio da Silva Junior, Paulo Eduardo Teodoro, Amaury de Souza, Guilherme Fernando Capristo-Silva, Welington Kiffer de Freitas & Josicléa Pereira Rogério. (2021) Temporal record and spatial distribution of fire foci in State of Minas Gerais, Brazil. Journal of Environmental Management 280, pages 111707.
Crossref
Crossref
Tomàs Artés, Duarte Oom, Daniele de Rigo, Tracy Houston Durrant, Pieralberto Maianti, Giorgio Libertà & Jesús San-Miguel-Ayanz. (2019) A global wildfire dataset for the analysis of fire regimes and fire behaviour. Scientific Data 6:1.
Crossref
Crossref
Wolfgang Knorr, Frank Dentener, Stijn Hantson, Leiwen Jiang, Zbigniew Klimont & Almut Arneth. (2016) Air quality impacts of European wildfire emissions in a changing climate. Atmospheric Chemistry and Physics 16:9, pages 5685-5703.
Crossref
Crossref
Akli Benali, Ana Russo, Ana Sá, Renata Pinto, Owen Price, Nikos Koutsias & José Pereira. (2016) Determining Fire Dates and Locating Ignition Points With Satellite Data. Remote Sensing 8:4, pages 326.
Crossref
Crossref
Célia M. Gouveia, Ioannis Bistinas, Margarida L.R. Liberato, Ana Bastos, Nikos Koutsias & Ricardo Trigo. (2016) The outstanding synergy between drought, heatwaves and fuel on the 2007 Southern Greece exceptional fire season. Agricultural and Forest Meteorology 218-219, pages 135-145.
Crossref
Crossref
Régis Darques. (2016) Wildfires at a Pan-Mediterranean Scale: Human-Environment Dynamics Through MODIS Data. Human Ecology 44:1, pages 47-63.
Crossref
Crossref
Nikolaos Benas & Nektarios Chrysoulakis. (2015) Estimation of the Land Surface Albedo Changes in the Broader Mediterranean Area, Based on 12 Years of Satellite Observations. Remote Sensing 7:12, pages 16150-16163.
Crossref
Crossref
Régis Darques. (2015) Mediterranean cities under fire. A critical approach to the wildland–urban interface. Applied Geography 59, pages 10-21.
Crossref
Crossref
Fernando Moreira De Araújo & Laerte G. Ferreira. (2015) Satellite-based automated burned area detection: A performance assessment of the MODIS MCD45A1 in the Brazilian savanna. International Journal of Applied Earth Observation and Geoinformation 36, pages 94-102.
Crossref
Crossref
Miguel García, José Alloza, Ángeles Mayor, Susana Bautista & Francisco Rodríguez. (2014) Detection and mapping of burnt areas from time series of MODIS-derived NDVI data in a Mediterranean region. Open Geosciences 6:1.
Crossref
Crossref
Alexandra D. Syphard, Teresa J. Brennan & Jon E. Keeley. (2014) The role of defensible space for residential structure protection during wildfires. International Journal of Wildland Fire 23:8, pages 1165.
Crossref
Crossref
Alexandra D. Syphard, Avi Bar Massada, Van Butsic & Jon E. Keeley. (2013) Land Use Planning and Wildfire: Development Policies Influence Future Probability of Housing Loss. PLoS ONE 8:8, pages e71708.
Crossref
Crossref
D. P. Kalivas, G. P. Petropoulos, I. M. Athanasiou & V. J. Kollias. (2013) An intercomparison of burnt area estimates derived from key operational products: the Greek wildland fires of 2005–2007. Nonlinear Processes in Geophysics 20:3, pages 397-409.
Crossref
Crossref
Victoria Aleksandropoulou, Kjetil Torseth & Mihalis Lazaridis. (2012) The effect of forest fires in emissions of biogenic volatile organic compounds and windblown dust over urban areas. Air Quality, Atmosphere & Health 6:1, pages 277-294.
Crossref
Crossref
Th. Zagas, D. Raptis, D. Zagas & D. Karamanolis. (2012) Planning and assessing the effectiveness of traditional silvicultural treatments for mitigating wildfire hazard in pine woodlands of Greece. Natural Hazards 65:1, pages 545-561.
Crossref
Crossref
Mercedes M. C. Bustamante, Carlos A. Nobre, Roberto Smeraldi, Ana P. D. Aguiar, Luis G. Barioni, Laerte G. Ferreira, Karla Longo, Peter May, Alexandre S. Pinto & Jean P. H. B. Ometto. (2012) Estimating greenhouse gas emissions from cattle raising in Brazil. Climatic Change 115:3-4, pages 559-577.
Crossref
Crossref
Noam Levin & Aliza Heimowitz. (2012) Mapping spatial and temporal patterns of Mediterranean wildfires from MODIS. Remote Sensing of Environment 126, pages 12-26.
Crossref
Crossref
Fernando Moreira de Araújo, Laerte Guimarães Ferreira & Arielle Elias Arantes. (2012) Distribution Patterns of Burned Areas in the Brazilian Biomes: An Analysis Based on Satellite Data for the 2002–2010 Period. Remote Sensing 4:7, pages 1929-1946.
Crossref
Crossref
Tatiana V. Loboda, Louis Giglio, Luigi Boschetti & Christopher O. Justice. (2012) Regional fire monitoring and characterization using global NASA MODIS fire products in dry lands of Central Asia. Frontiers of Earth Science 6:2, pages 196-205.
Crossref
Crossref
Alexandra D. Syphard, Jon E. Keeley, Avi Bar Massada, Teresa J. Brennan & Volker C. Radeloff. (2012) Housing Arrangement and Location Determine the Likelihood of Housing Loss Due to Wildfire. PLoS ONE 7:3, pages e33954.
Crossref
Crossref
X. Durrieu de Madron, C. Guieu, R. Sempéré, P. Conan, D. Cossa, F. D’Ortenzio, C. Estournel, F. Gazeau, C. Rabouille, L. Stemmann, S. Bonnet, F. Diaz, P. Koubbi, O. Radakovitch, M. Babin, M. Baklouti, C. Bancon-Montigny, S. Belviso, N. Bensoussan, B. Bonsang, I. Bouloubassi, C. Brunet, J.-F. Cadiou, F. Carlotti, M. Chami, S. Charmasson, B. Charrière, J. Dachs, D. Doxaran, J.-C. Dutay, F. Elbaz-Poulichet, M. Eléaume, F. Eyrolles, C. Fernandez, S. Fowler, P. Francour, J.C. Gaertner, R. Galzin, S. Gasparini, J.-F. Ghiglione, J.-L. Gonzalez, C. Goyet, L. Guidi, K. Guizien, L.-E. Heimbürger, S.H.M. Jacquet, W.H. Jeffrey, F. Joux, P. Le Hir, K. Leblanc, D. Lefèvre, C. Lejeusne, R. Lemé, M.-D. Loÿe-Pilot, M. Mallet, L. Méjanelle, F. Mélin, C. Mellon, B. Mérigot, P.-L. Merle, C. Migon, W.L. Miller, L. Mortier, B. Mostajir, L. Mousseau, T. Moutin, J. Para, T. Pérez, A. Petrenko, J.-C. Poggiale, L. Prieur, M. Pujo-Pay, Pulido-Villena, P. Raimbault, A.P. Rees, C. Ridame, J.-F. Rontani, D. Ruiz Pino, M.A. Sicre, V. Taillandier, C. Tamburini, T. Tanaka, I. Taupier-Letage, M. Tedetti, P. Testor, H. Thébault, B. Thouvenin, F. Touratier, J. Tronczynski, C. Ulses, F. Van Wambeke, V. Vantrepotte, S. Vaz & R. Verney. (2011) Marine ecosystems’ responses to climatic and anthropogenic forcings in the Mediterranean. Progress in Oceanography 91:2, pages 97-166.
Crossref
Crossref
Israel Gómez & M. Pilar Martín. (2011) Prototyping an artificial neural network for burned area mapping on a regional scale in Mediterranean areas using MODIS images. International Journal of Applied Earth Observation and Geoinformation 13:5, pages 741-752.
Crossref
Crossref
Carmen Quintano, Alfonso Fernández-Manso, Alfred Stein & Wietske Bijker. (2011) Estimation of area burned by forest fires in Mediterranean countries: A remote sensing data mining perspective. Forest Ecology and Management 262:8, pages 1597-1607.
Crossref
Crossref
Aitor Bastarrika, Emilio Chuvieco & M. Pilar Martin. (2011) Automatic Burned Land Mapping From MODIS Time Series Images: Assessment in Mediterranean Ecosystems. IEEE Transactions on Geoscience and Remote Sensing 49:9, pages 3401-3413.
Crossref
Crossref
George P. Petropoulos, Charalambos Kontoes & Iphigenia Keramitsoglou. (2011) Burnt area delineation from a uni-temporal perspective based on Landsat TM imagery classification using Support Vector Machines. International Journal of Applied Earth Observation and Geoinformation 13:1, pages 70-80.
Crossref
Crossref
D.G. Kaskaoutis, Shailesh Kumar Kharol, N. Sifakis, P.T. Nastos, Anu Rani Sharma, K.V.S. Badarinath & H.D. Kambezidis. (2011) Satellite monitoring of the biomass-burning aerosols during the wildfires of August 2007 in Greece: Climate implications. Atmospheric Environment 45:3, pages 716-726.
Crossref
Crossref
Lieven Clarisse, Daniel Hurtmans, Alfred J. Prata, Federico Karagulian, Cathy Clerbaux, Martine De Mazière & Pierre-François Coheur. (2010) Retrieving radius, concentration, optical depth, and mass of different types of aerosols from high-resolution infrared nadir spectra. Applied Optics 49:19, pages 3713.
Crossref
Crossref
William H. Blake, Sideris P. Theocharopoulos, Nikos Skoulikidis, Paul Clark, P. Tountas, Richard Hartley & Yorgos Amaxidis. (2010) Wildfire impacts on hillslope sediment and phosphorus yields. Journal of Soils and Sediments 10:4, pages 671-682.
Crossref
Crossref
George P. Petropoulos, Krishna Prasad Vadrevu, Gavriil Xanthopoulos, George Karantounias & Marko Scholze. (2010) A Comparison of Spectral Angle Mapper and Artificial Neural Network Classifiers Combined with Landsat TM Imagery Analysis for Obtaining Burnt Area Mapping. Sensors 10:3, pages 1967-1985.
Crossref
Crossref
Luigi Boschetti, David P. Roy, Christopher O. Justice & Louis Giglio. (2010) Global assessment of the temporal reporting accuracy and precision of the MODIS burned area product. International Journal of Wildland Fire 19:6, pages 705.
Crossref
Crossref
Hein van Gils, Justice O. Odoi & Teodoro Andrisano. (2010) From monospecific to mixed forest after fire?. Forest Ecology and Management 259:3, pages 433-439.
Crossref
Crossref
Di Chang & Yu Song. (2009) Comparison of L3JRC and MODIS global burned area products from 2000 to 2007. Journal of Geophysical Research: Atmospheres 114:D16.
Crossref
Crossref
P.-F. Coheur, L. Clarisse, S. Turquety, D. Hurtmans & C. Clerbaux. (2009) IASI measurements of reactive trace species in biomass burning plumes. Atmospheric Chemistry and Physics 9:15, pages 5655-5667.
Crossref
Crossref
D.P. Roy, L. Boschetti, C.O. Justice & J. Ju. (2008) The collection 5 MODIS burned area product — Global evaluation by comparison with the MODIS active fire product. Remote Sensing of Environment 112:9, pages 3690-3707.
Crossref
Crossref