CSIRO Publishing

Journal of the International Association of Wildland Fire

Shopping Cart: ( empty )

Articles citing this paper

Defining fire spread event days for fire-growth modelling

Justin Podur ^A ^C and B. Mike Wotton ^B

+ Author Affiliations

- Author Affiliations

^A Faculty of Environmental Studies, York University, 109 Health, Nursing and Environmental Studies (HNES) Building, 4700 Keele Street, Toronto, ON, M3J 1P3, Canada.

^B Natural Resources Canada, Canadian Forest Service, Faculty of Forestry, University of Toronto, 33 Willcocks Street, Toronto, ON, M5S 3B3, Canada.

^C Corresponding author. Email: jpodur@yorku.ca

International Journal of Wildland Fire 20(4) 497-507 https://doi.org/10.1071/WF09001
Submitted: 7 January 2009 Accepted: 18 October 2010 Published: 20 June 2011

58 articles found in Crossref database.

Verification of Red Flag Warnings across the Northwestern U.S. as Forecasts of Large Fire Occurrence

Clark Joshua, Abatzoglou John T., Nauslar Nicholas J., Smith Alistair M.S.

Fire. 2020 3(4). p.60

Projected changes in the hotspots for agriculturally relevant compound events in Western Canada cropping regions under the RCP8.5 scenario

Agyeman Richard Y. K., Huo Fei, Li Zhenhua, Li Yanping

Quarterly Journal of the Royal Meteorological Society. 2023 149(752). p.830

Broadleaf tree phenology and springtime wildfire occurrence in boreal Canada

Parisien Marc‐André, Barber Quinn E., Flannigan Mike D., Jain Piyush

Global Change Biology. 2023 29(21). p.6106

Future burn probability in south-central British Columbia

Wang Xianli, Parisien Marc-André, Taylor Stephen W., Perrakis Daniel D. B., Little John, Flannigan Mike D.

International Journal of Wildland Fire. 2016 25(2). p.200

Future wildfire extent and frequency determined by the longest fire-conducive weather spell

Wang Xianli, Swystun Tom, Flannigan Mike D.

Science of The Total Environment. 2022 830 p.154752

Natural disturbance regimes for implementation of ecological forestry: a review and case study from Nova Scotia, Canada

MacLean David A., Taylor Anthony R., Neily Peter D., Steenberg James W.N., Basquill Sean P., Quigley Eugene, Boone Celia K., Oikle Morgan, Bush Peter, Stewart Bruce

Environmental Reviews. 2022 30(1). p.128

Drought triggers and sustains overnight fires in North America

Luo Kaiwei, Wang Xianli, de Jong Mark, Flannigan Mike

Nature. 2024 627(8003). p.321

Potential climate change impacts on fire intensity and key wildfire suppression thresholds in Canada

Wotton B M, Flannigan M D, Marshall G A

Environmental Research Letters. 2017 12(9). p.095003

Considerations for modeling burn probability across landscapes with steep environmental gradients: an example from the Columbia Mountains, Canada

Parisien Marc-André, Walker Gregg R., Little John M., Simpson Brian N., Wang Xianli, Perrakis Daniel D. B.

Natural Hazards. 2013 66(2). p.439

Spatial planning of fire-agency stations as a function of wildfire likelihood in Thasos, Greece

Sakellariou Stavros, Parisien Marc-André, Flannigan Mike, Wang Xianli, de Groot Bill, Tampekis Stergios, Samara Fani, Sfougaris Athanasios, Christopoulou Olga

Science of The Total Environment. 2020 729 p.139004

Scénarios de probabilité et puissance potentielle des feux de végétation dans le département des Landes, France

Parisien Marc-André, Robinne François-Nicolas, Perez Jean-Yves, Denave Bruno, DeLancey Evan R., Doche Clément

Canadian Journal of Forest Research. 2018 48(12). p.1587

Fuel moisture sensitivity to temperature and precipitation: climate change implications

Flannigan M. D., Wotton B. M., Marshall G. A., de Groot W. J., Johnston J., Jurko N., Cantin A. S.

Climatic Change. 2016 134(1-2). p.59

The potential and realized spread of wildfires across Canada

Wang Xianli, Parisien Marc‐André, Flannigan Mike D., Parks Sean A., Anderson Kerry R., Little John M., Taylor Steve W.

Global Change Biology. 2014 20(8). p.2518

Vegetation Mortality within Natural Wildfire Events in the Western Canadian Boreal Forest: What Burns and Why?

Ferster Colin, Eskelson Bianca, Andison David, LeMay Valerie

Forests. 2016 7(9). p.187

Projected changes in daily fire spread across Canada over the next century

Wang Xianli, Parisien Marc-André, Taylor Steve W, Candau Jean-Noël, Stralberg Diana, Marshall Ginny A, Little John M, Flannigan Mike D

Environmental Research Letters. 2017 12(2). p.025005

Static and dynamic controls on fire activity at moderate spatial and temporal scales in the Alaskan boreal forest

Barrett Kirsten, Loboda Tatiana, McGuire A. D., Genet Hélène, Hoy Elizabeth, Kasischke Eric

Ecosphere. 2016 7(11).

Forecasting wildfire-induced declines in potential forest harvest levels across Québec

Bouchard Mathieu, Aquilué Núria, Filotas Élise, Boucher Jonathan, Parisien Marc-André

Canadian Journal of Forest Research. 2023 53(2). p.119

Inter- and intra-annual profiles of fire regimes in the managed forests of Canada and implications for resource sharing

Magnussen Steen, Taylor Stephen W.

International Journal of Wildland Fire. 2012 21(4). p.328

Methodology to obtain isochrones from large wildfires

Manzano-Agugliaro F., Pérez-Aranda J., De La Cruz J. L.

International Journal of Wildland Fire. 2014 23(3). p.338

Modelling fire perimeter formation in the Canadian Rocky Mountains

Macauley Kiera A.P., McLoughlin Neal, Beverly Jennifer L.

Forest Ecology and Management. 2022 506 p.119958

Contributions of Ignitions, Fuels, and Weather to the Spatial Patterns of Burn Probability of a Boreal Landscape

Parisien Marc-André, Parks Sean A., Miller Carol, Krawchuk Meg A., Heathcott Mark, Moritz Max A.

Ecosystems. 2011 14(7). p.1141

A simple metric of landscape fire exposure

Beverly Jennifer L., McLoughlin Neal, Chapman Elizabeth

Landscape Ecology. 2021 36(3). p.785

Increasing frequency of extreme fire weather in Canada with climate change

Wang Xianli, Thompson Dan K., Marshall Ginny A., Tymstra Cordy, Carr Richard, Flannigan Mike D.

Climatic Change. 2015 130(4). p.573

Fifty years of wildland fire science in Canada

Coogan Sean C.P., Daniels Lori D., Boychuk Den, Burton Philip J., Flannigan Mike D., Gauthier Sylvie, Kafka Victor, Park Jane S., Wotton B. Mike

Canadian Journal of Forest Research. 2021 51(2). p.283

Mapping wildfire hazard, vulnerability, and risk to Canadian communities

Erni Sandy, Wang Xianli, Swystun Tom, Taylor Stephen W., Parisien Marc-André, Robinne François-Nicolas, Eddy Brian, Oliver Jackie, Armitage Brad, Flannigan Mike D.

International Journal of Disaster Risk Reduction. 2024 101 p.104221

Regional projections of the likelihood of very large wildland fires under a changing climate in the contiguous Western United States

Stavros E. Natasha, Abatzoglou John T., McKenzie Donald, Larkin Narasimhan K.

Climatic Change. 2014 126(3-4). p.455

Global and Regional Trends and Drivers of Fire Under Climate Change

Jones Matthew W., Abatzoglou John T., Veraverbeke Sander, Andela Niels, Lasslop Gitta, Forkel Matthias, Smith Adam J. P., Burton Chantelle, Betts Richard A., van der Werf Guido R., Sitch Stephen, Canadell Josep G., Santín Cristina, Kolden Crystal, Doerr Stefan H., Le Quéré Corinne

Reviews of Geophysics. 2022 60(3).

Spatial bottom‐up controls on fire likelihood vary across western North America

Parks Sean A., Parisien Marc-André, Miller Carol

Ecosphere. 2012 3(1). p.1

Daily synoptic conditions associated with large fire occurrence in Mediterranean France: evidence for a wind-driven fire regime

Ruffault J., Moron V., Trigo R. M., Curt T.

International Journal of Climatology. 2017 37(1). p.524

Assessing directional vulnerability to wildfire

Beverly Jennifer L., Forbes Air M.

Natural Hazards. 2023 117(1). p.831

Impacts of changing fire weather conditions on reconstructed trends in U.S. wildland fire activity from 1979 to 2014

Freeborn Patrick H., Jolly W. Matt, Cochrane Mark A.

Journal of Geophysical Research: Biogeosciences. 2016 121(11). p.2856

Attributing Increases in Fire Weather to Anthropogenic Climate Change Over France

Barbero Renaud, Abatzoglou John T., Pimont François, Ruffault Julien, Curt Thomas

Frontiers in Earth Science. 2020 8

How a new fire‐suppression policy can abruptly reshape the fire‐weather relationship

Ruffault J., Mouillot F.

Ecosphere. 2015 6(10). p.1

Characterisation of initial fire weather conditions for large spring wildfires in Alberta, Canada

Tymstra Cordy, Jain Piyush, Flannigan Mike D.

International Journal of Wildland Fire. 2021 30(11). p.823

Fire in arctic tundra of Alaska: past fire activity, future fire potential, and significance for land management and ecology

French Nancy H. F., Jenkins Liza K., Loboda Tatiana V., Flannigan Michael, Jandt Randi, Bourgeau-Chavez Laura L., Whitley Matthew

International Journal of Wildland Fire. 2015 24(8). p.1045

Will land use land cover change drive atmospheric conditions to become more conducive to wildfires in the United States?

Zhong Shiyuan, Wang Ting, Sciusco Pietro, Shen Meicheng, Pei Lisi, Nikolic Jovanka, McKeehan Kevin, Kashongwe Herve, Hatami‐Bahman‐Beiglou Pouyan, Camacho Ken, Akanga Donald, Charney Joseph J., Bian Xindi

International Journal of Climatology. 2021 41(6). p.3578

Synoptic weather patterns during fire spread events in Siberia

Tomshin Oleg, Solovyev Vladimir

Science of The Total Environment. 2024 921 p.171205

Trend analysis of fire season length and extreme fire weather in North America between 1979 and 2015

Jain Piyush, Wang Xianli, Flannigan Mike D.

International Journal of Wildland Fire. 2017 26(12). p.1009

Mapping day-of-burning with coarse-resolution satellite fire-detection data

Parks Sean A.

International Journal of Wildland Fire. 2014 23(2). p.215

Comparing the performance of daily forest fire danger summary metrics for estimating fire activity in southern Australian forests

Plucinski M. P., Sullivan A. L., McCaw W. L.

International Journal of Wildland Fire. 2020 29(10). p.926

A high-resolution reanalysis of global fire weather from 1979 to 2018 – overwintering the Drought Code

McElhinny Megan, Beckers Justin F., Hanes Chelene, Flannigan Mike, Jain Piyush

Earth System Science Data. 2020 12(3). p.1823

Integrated wildfire risk assessment of natural and anthropogenic ecosystems based on simulation modeling and remotely sensed data fusion

Sakellariou Stavros, Sfougaris Athanassios, Christopoulou Olga, Tampekis Stergios

International Journal of Disaster Risk Reduction. 2022 78 p.103129

Wildfire‐mediated vegetation change in boreal forests of Alberta, Canada

Stralberg Diana, Wang Xianli, Parisien Marc‐André, Robinne François‐Nicolas, Sólymos Péter, Mahon C. Lisa, Nielsen Scott E., Bayne Erin M.

Ecosphere. 2018 9(3).

Measuring Initial Attack Suppression Effectiveness through Burn Probability

Reimer Jonathan, Thompson Dan K., Povak Nicholas

Fire. 2019 2(4). p.60

Quantile Regression Analysis of the Modifying Industrial Operations Protocol’s Impact on Forestry Fire Incremental Growth

Granville Kevin, Cao Shi Yu, Woolford Douglas G, McFayden Colin B

Forest Science. 2023 69(5). p.538

Downscaling fire weather extremes from historical and projected climate models

Jain Piyush, Tye Mari R., Paimazumder Debasish, Flannigan Mike

Climatic Change. 2020 163(1). p.189

Climate and very large wildland fires in the contiguous western USA

Stavros E. Natasha, Abatzoglou John, Larkin Narasimhan K., McKenzie Donald, Steel E. Ashley

International Journal of Wildland Fire. 2014 23(7). p.899

Attributing extreme fire risk in Western Canada to human emissions

Kirchmeier-Young Megan C., Zwiers Francis W., Gillett Nathan P., Cannon Alex J.

Climatic Change. 2017 144(2). p.365

Integrating forest fuels and land cover data for improved estimation of fuel consumption and carbon emissions from boreal fires

Anderson Kerry, Simpson Brian, Hall Ronald J., Englefield Peter, Gartrell Michael, Metsaranta Juha M.

International Journal of Wildland Fire. 2015 24(5). p.665

One extreme fire weather event determines the extent and frequency of wildland fires

Wang Xianli, Swystun Tom, Oliver Jacqueline, Flannigan Mike D

Environmental Research Letters. 2021 16(11). p.114031

Using Infrared Imagery to Assess Fire Behaviour in a Mulched Fuel Bed in Black Spruce Forests

Moore Brett, Thompson Dan K., Schroeder Dave, Johnston Joshua M., Hvenegaard Steven

Fire. 2020 3(3). p.37

Critical fire weather conditions during active fire spread days in Canada

Wang Xianli, Oliver Jacqueline, Swystun Tom, Hanes Chelene C., Erni Sandy, Flannigan Mike D.

Science of The Total Environment. 2023 869 p.161831

Modeling very large-fire occurrences over the continental United States from weather and climate forcing

Barbero R, Abatzoglou J T, Steel E A, K Larkin Narasimhan

Environmental Research Letters. 2014 9(12). p.124009

A comparison of the US National Fire Danger Rating System (NFDRS) with recorded fire occurrence and final fire size

Walding Nicholas G., Williams Hywel T. P., McGarvie Scott, Belcher Claire M.

International Journal of Wildland Fire. 2018 27(2). p.99

Automated prediction of extreme fire weather from synoptic patterns in northern Alberta, Canada

Lagerquist Ryan, Flannigan Mike D., Wang Xianli, Marshall Ginny A.

Canadian Journal of Forest Research. 2017 47(9). p.1175

Modeling the duration and size of extended attack wildfires as dependent outcomes

Xi Dexen DZ., Dean C.B., Taylor Stephen W.

Environmetrics. 2020 31(5).

Data-Driven Wildfire Spread Modeling of European Wildfires Using a Spatiotemporal Graph Neural Network

Rösch Moritz, Nolde Michael, Ullmann Tobias, Riedlinger Torsten

Fire. 2024 7(6). p.207

Projected changes in fire size from daily spread potential in Canada over the 21st century

Wang Xianli, Studens Kala, Parisien Marc-André, Taylor Steve W, Candau Jean-Noël, Boulanger Yan, Flannigan Mike D

Environmental Research Letters. 2020 15(10). p.104048