Articles citing this paper
Characteristics of lightning-attributed wildland fires in south-east Australia
Andrew J. Dowdy A B C and Graham A. Mills A B
+ Author Affiliations
- Author Affiliations
A Centre for Australian Weather and Climate Research, 700 Collins Street, Docklands, Vic. 3008, Australia.
B Bushfire Cooperative Research Centre, 340 Albert Street, East Melbourne, Vic. 3002, Australia.
C Corresponding author. Email: a.dowdy@bom.gov.au
International Journal of Wildland Fire 21(5) 521-524 https://doi.org/10.1071/WF10145
Submitted: 14 December 2010 Accepted: 8 November 2011 Published: 30 April 2012
33 articles found in Crossref database.
Drivers of Wildfire Occurrence Patterns in the Inland Riverine Environment of New South Wales, Australia
Zhang Yang, Lim Samsung
Forests. 2019 10(6). p.524
Exploratory analysis of lightning-ignited wildfires in the Warren Region, Western Australia
Bates Bryson C.,
McCaw Lachlan, Dowdy Andrew J.
Journal of Environmental Management. 2018 225 p.336
Seasonal forecasting of lightning and thunderstorm activity in tropical and temperate regions of the world
Dowdy Andrew J.
Scientific Reports. 2016 6(1).
Using machine learning to predict fire‐ignition occurrences from lightning forecasts
Coughlan Ruth,
Di Giuseppe Francesca,
Vitolo Claudia,
Barnard Christopher,
Lopez Philippe, Drusch Matthias
Meteorological Applications. 2021 28(1).
Characterizing the Holdover Phase of Lightning-Ignited Wildfires in Catalonia
Pineda Nicolau,
Altube Patricia,
Alcasena Fermín J.,
Casellas Enric,
San Segundo Helen, Montanyà Joan
SSRN Electronic Journal . 2022
Spatial patterns of wildfire ignitions in south-eastern Australia
Collins Kathryn M.,
Price Owen F., Penman Trent D.
International Journal of Wildland Fire. 2015 24(8). p.1098
Quantifying Hail and Lightning Risk Factors Using Long‐Term Observations Around Australia
Dowdy Andrew J.,
Soderholm Joshua,
Brook Jordan,
Brown Andrew, McGowan Hamish
Journal of Geophysical Research: Atmospheres. 2020 125(21).
Multi-decadal increase of forest burned area in Australia is linked to climate change
Canadell Josep G.,
Meyer C. P.,
Cook Garry D.,
Dowdy Andrew,
Briggs Peter R.,
Knauer Jürgen,
Pepler Acacia, Haverd Vanessa
Nature Communications. 2021 12(1).
Survival functions of holdover time of lightning-ignited wildfires
Moris Jose V.,
Ascoli Davide, Hunt Hugh G.P.
Electric Power Systems Research. 2024 231 p.110296
The timing of vegetation fire occurrence in a human landscape
Plucinski M.P.
Fire Safety Journal. 2014 67 p.42
Atmospheric and Fuel Moisture Characteristics Associated with Lightning-Attributed Fires
Dowdy Andrew J., Mills Graham A.
Journal of Applied Meteorology and Climatology. 2012 51(11). p.2025
Modelling spatial patterns of wildfire occurrence in South-Eastern Australia
Zhang Yang,
Lim Samsung, Sharples Jason John
Geomatics, Natural Hazards and Risk. 2016 7(6). p.1800
Wildfire occurrence patterns in ecoregions of New South Wales and Australian Capital Territory, Australia
Zhang Yang,
Lim Samsung, Sharples Jason John
Natural Hazards. 2017 87(1). p.415
Meteorological and geographical factors associated with dry lightning in central and northern California
Kalashnikov Dmitri A,
Abatzoglou John T,
Nauslar Nicholas J,
Swain Daniel L,
Touma Danielle, Singh Deepti
Environmental Research: Climate. 2022 1(2). p.025001
Lightning strikes: rethinking the nexus between Australian Indigenous land management and natural forces
Egloff B.
Australian Forestry. 2017 80(5). p.275
Lightning-caused fires in the Alps: Identifying the igniting strokes
Moris Jose V.,
Conedera Marco,
Nisi Luca,
Bernardi Marina,
Cesti Giancarlo, Pezzatti Gianni Boris
Agricultural and Forest Meteorology. 2020 290 p.107990
Electrically caused wildfires in Victoria, Australia are over-represented when fire danger is elevated
Miller Claire,
Plucinski Matt,
Sullivan Andrew,
Stephenson Alec,
Huston Carolyn,
Charman Kay,
Prakash Mahesh, Dunstall Simon
Landscape and Urban Planning. 2017 167 p.267
Climatology of thunderstorms, convective rainfall and dry lightning environments in Australia
Dowdy Andrew J.
Climate Dynamics. 2020 54(5-6). p.3041
Lightning modelling for the research of forest fire ignition in Portugal
Couto Flavio Tiago,
Iakunin Maksim,
Salgado Rui,
Pinto Paulo,
Viegas Tânia, Pinty Jean-Pierre
Atmospheric Research. 2020 242 p.104993
Modelling the daily probability of lightning-caused ignition in the Iberian Peninsula
Rodrigues Marcos,
Jiménez-Ruano Adrián,
Gelabert Pere Joan,
de Dios Víctor Resco,
Torres Luis,
Ribalaygua Jaime, Vega-García Cristina
International Journal of Wildland Fire. 2023 32(3). p.351
Classification of Australian Thunderstorms Using Multivariate Analyses of Large-Scale Atmospheric Variables
Bates Bryson C.,
Dowdy Andrew J., Chandler Richard E.
Journal of Applied Meteorology and Climatology. 2017 56(7). p.1921
Causes of the Widespread 2019–2020 Australian Bushfire Season
Deb Proloy,
Moradkhani Hamid,
Abbaszadeh Peyman,
Kiem Anthony S.,
Engström Johanna,
Keellings David, Sharma Ashish
Earth's Future. 2020 8(11).
The Value of Probabilistic Prediction for Lightning Ignited Fires
Di Giuseppe F.
Geophysical Research Letters. 2022 49(17).
The rainfall factor in lightning-ignited wildfires in Catalonia
Pineda Nicolau, Rigo Tomeu
Agricultural and Forest Meteorology. 2017 239 p.249
Lightning-Ignited Wildfires and Associated Meteorological Conditions in Western Siberia for 2016–2021
Kharyutkina Elena,
Moraru Evgeniia,
Pustovalov Konstantin, Loginov Sergey
Atmosphere. 2024 15(1). p.106
Spatially adaptive probabilistic computation of a sub-kilometre resolution lightning climatology for New Zealand
Etherington Thomas R., Perry George L.W.
Computers & Geosciences. 2017 98 p.38
Characterizing Spatial and Temporal Variability of Lightning Activity Associated with Wildfire over Tasmania, Australia
Nampak Haleh,
Love Peter,
Fox-Hughes Paul,
Watson Christopher,
Aryal Jagannath, Harris Rebecca M. B.
Fire. 2021 4(1). p.10
Interannual variations in spring lightning activity and convective rainfall over South China during the TRMM era
Mao Jiangyu, Li Majun
Theoretical and Applied Climatology. 2020 142(1-2). p.483
Evaluation and calibration of a high-resolution soil moisture product for wildfire prediction and management
Vinodkumar , Dharssi Imtiaz
Agricultural and Forest Meteorology. 2019 264 p.27
Synoptic weather patterns conducive to lightning-ignited wildfires in Catalonia
Pineda Nicolau,
Peña Juan Carlos,
Soler Xavier,
Aran Montse, Pérez-Zanón Núria
Advances in Science and Research. 2022 19 p.39
Characterising the holdover phase of lightning-ignited wildfires in Catalonia
Pineda Nicolau,
Altube Patricia,
Alcasena Fermín J.,
Casellas Enric,
Segundo Helen San, Montanyà Joan
Agricultural and Forest Meteorology. 2022 324 p.109111
SPITFIRE within the MPI Earth system model: Model development and evaluation
Lasslop Gitta,
Thonicke Kirsten, Kloster Silvia
Journal of Advances in Modeling Earth Systems. 2014 6(3). p.740
Pyrocumulonimbus lightning and fire ignition on Black Saturday in southeast Australia
Dowdy Andrew J.,
Fromm Michael D., McCarthy Nicholas
Journal of Geophysical Research: Atmospheres. 2017 122(14). p.7342
