CSIRO Publishing

Journal of the International Association of Wildland Fire

Shopping Cart: ( empty )

Articles citing this paper

Different historical fire–climate patterns in California

Jon E. Keeley ^A ^B ^D and Alexandra D. Syphard ^C

+ Author Affiliations

- Author Affiliations

^A US Geological Survey, Western Ecological Research Center, Sequoia–Kings Canyon Field Station, 47050 Generals Highway, Three Rivers, CA 93271, USA.

^B Department of Ecology and Evolutionary Biology, University of California, Los Angeles, CA 90095, USA.

^C Conservation Biology Institute, 10423 Sierra Vista Avenue, La Mesa, CA 91941, USA.

^D Corresponding author. Email: jon_keeley@usgs.gov

International Journal of Wildland Fire 26(4) 253-268 https://doi.org/10.1071/WF16102
Submitted: 1 June 2016 Accepted: 26 February 2017 Published: 4 April 2017

48 articles found in Crossref database.

Studying the occurrence and burnt area of wildfires using zero-one-inflated structured additive beta regression

Ríos-Pena Laura, Kneib Thomas, Cadarso-Suárez Carmen, Klein Nadja, Marey-Pérez Manuel

Environmental Modelling & Software. 2018 110 p.107

Burned Area Mapping over the Southern Cape Forestry Region, South Africa Using Sentinel Data within GEE Cloud Platform

Xulu Sifiso, Mbatha Nkanyiso, Peerbhay Kabir

ISPRS International Journal of Geo-Information. 2021 10(8). p.511

The 2017 North Bay and Southern California Fires: A Case Study

Nauslar Nicholas, Abatzoglou John, Marsh Patrick

Fire. 2018 1(1). p.18

Historical patterns of wildfire ignition sources in California ecosystems

Keeley Jon E., Syphard Alexandra D.

International Journal of Wildland Fire. 2018 27(12). p.781

Quantifying increased fire risk in California in response to different levels of warming and drying

Madadgar Shahrbanou, Sadegh Mojtaba, Chiang Felicia, Ragno Elisa, AghaKouchak Amir

Stochastic Environmental Research and Risk Assessment. 2020 34(12). p.2023

Increasing wildfires and changing sociodemographics in communities across California, USA

Yadav Kamini, Escobedo Francisco J., Thomas Alyssa S., Johnson Nels G.

International Journal of Disaster Risk Reduction. 2023 98 p.104065

Long‐term monitoring of a highly invaded annual grassland community through drought, before and after an unintentional fire

Thomson Diane M., Bonapart Adin D., King Rachel A., Schultz Emily L., Startin Charlotte R., Ward David

Journal of Vegetation Science. 2020 31(2). p.307

What Makes Wildfires Destructive in California?

Syphard Alexandra D., Keeley Jon E., Gough Mike, Lazarz Mitchell, Rogan John

Fire. 2022 5(5). p.133

Anthropogenic climate change contribution to wildfire-prone weather conditions in the Cerrado and Arc of deforestation

Li Sihan, Sparrow Sarah N, Otto Friederike E L, Rifai Sami W, Oliveras Imma, Krikken Folmer, Anderson Liana O, Malhi Yadvinder, Wallom David

Environmental Research Letters. 2021 16(9). p.094051

Large California wildfires: 2020 fires in historical context

Keeley Jon E., Syphard Alexandra D.

Fire Ecology. 2021 17(1).

High-resolution mapping of wildfire drivers in California based on machine learning

Qiu Linghua, Chen Ji, Fan Linfeng, Sun Liqun, Zheng Chunmiao

Science of The Total Environment. 2022 833 p.155155

Drought and Fire in the Western USA: Is Climate Attribution Enough?

Littell Jeremy S.

Current Climate Change Reports. 2018 4(4). p.396

An assessment of climate, weather, and fuel factors influencing a large, destructive wildfire in the Knysna region, South Africa

Kraaij Tineke, Baard Johan A., Arndt Jacob, Vhengani Lufuno, van Wilgen Brian W.

Fire Ecology. 2018 14(2).

Observed Impacts of Anthropogenic Climate Change on Wildfire in California

Williams A. Park, Abatzoglou John T., Gershunov Alexander, Guzman‐Morales Janin, Bishop Daniel A., Balch Jennifer K., Lettenmaier Dennis P.

Earth's Future. 2019 7(8). p.892

The Synoptic and Mesoscale Evolution Accompanying the 2018 Camp Fire of Northern California

Mass Clifford F., Ovens David

Bulletin of the American Meteorological Society. 2021 102(1). p.E168

Wildfire prediction using zero-inflated negative binomial mixed models: Application to Spain

Bugallo María, Esteban María Dolores, Marey-Pérez Manuel Francisco, Morales Domingo

Journal of Environmental Management. 2023 328 p.116788

Drought-related wildfire accounts for one-third of the forest wildfires in subtropical China

Yin Jianpeng, He Binbin, Fan Chunquan, Chen Rui, Zhang Hongguo, Zhang Yiru

Agricultural and Forest Meteorology. 2024 346 p.109893

Welfare in the 21st century: Increasing development, reducing inequality, the impact of climate change, and the cost of climate policies

Lomborg Bjorn

Technological Forecasting and Social Change. 2020 156 p.119981

The September 2020 Wildfires over the Pacific Northwest

Mass Clifford F., Ovens David, Conrick Robert, Saltenberger John

Weather and Forecasting. 2021

Relationships of climate, human activity, and fire history to spatiotemporal variation in annual fire probability across California

Park Isaac W., Mann Michael L., Flint Lorraine E., Flint Alan L., Moritz Max, Pickell Paul

PLOS ONE. 2021 16(11). p.e0254723

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).

Twenty-first century California, USA, wildfires: fuel-dominated vs. wind-dominated fires

Keeley Jon E., Syphard Alexandra D.

Fire Ecology. 2019 15(1).

Predicting the influence of climate on grassland area burned in Xilingol, China with dynamic simulations of autoregressive distributed lag models

Shabbir Ali Hassan, Zhang Jiquan, Johnston James D., Sarkodie Samuel Asumadu, Lutz James A., Liu Xingpeng, Li Delei

PLOS ONE. 2020 15(4). p.e0229894

Dry Live Fuels Increase the Likelihood of Lightning‐Caused Fires

Rao Krishna, Williams A. Park, Diffenbaugh Noah S., Yebra Marta, Bryant Colleen, Konings Alexandra G.

Geophysical Research Letters. 2023 50(15).

Exacerbated fires in Mediterranean Europe due to anthropogenic warming projected with non-stationary climate-fire models

Turco Marco, Rosa-Cánovas Juan José, Bedia Joaquín, Jerez Sonia, Montávez Juan Pedro, Llasat Maria Carmen, Provenzale Antonello

Nature Communications. 2018 9(1).

Determining the sensitivity of grassland area burned to climate variation in Xilingol, China, with an autoregressive distributed lag approach

Shabbir Ali Hassan, Zhang Jiquan, Liu Xingpeng, Lutz James A., Valencia Carlos, Johnston James D.

International Journal of Wildland Fire. 2019 28(8). p.628

The role of drought conditions on the recent increase in wildfire occurrence in the high Andean regions of Peru

Zubieta Ricardo, Ccanchi Yerson, Martínez Alejandra, Saavedra Miguel, Norabuena Edmundo, Alvarez Sigrid, Ilbay Mercy

International Journal of Wildland Fire. 2023 32(4). p.531

Forecasting the Frequency and Magnitude of Postfire Debris Flows Across Southern California

Kean Jason W., Staley Dennis M.

Earth's Future. 2021 9(3).

Assessment of Biological and Environmental Factors Influence on Fire Hazard in Pine Forests: A Case Study in Central Forest-Steppe of the East European Plain

Slavskiy Vasiliy, Litovchenko Daria, Matveev Sergey, Sheshnitsan Sergey, Larionov Maxim V.

Land. 2022 12(1). p.103

Correction: Predicting the influence of climate on grassland area burned in Xilingol, China with dynamic simulations of autoregressive distributed lag models

Shabbir Ali Hassan, Zhang Jiquan, Johnston James D., Sarkodie Samuel Asumadu, Lutz James A., Liu Xingpeng

PLOS ONE. 2021 16(1). p.e0245828

Mapping fire regime ecoregions in California

Syphard Alexandra D., Keeley Jon E.

International Journal of Wildland Fire. 2020 29(7). p.595

The season for large fires in Southern California is projected to lengthen in a changing climate

Dong Chunyu, Williams A. Park, Abatzoglou John T., Lin Kairong, Okin Gregory S., Gillespie Thomas W., Long Di, Lin Yen-Heng, Hall Alex, MacDonald Glen M.

Communications Earth & Environment. 2022 3(1).

Climate Change and Future Wildfire in the Western United States: An Ecological Approach to Nonstationarity

Littell Jeremy S., McKenzie Donald, Wan Ho Yi, Cushman Samuel A.

Earth's Future. 2018 6(8). p.1097

The Dynamic Temperate and Boreal Fire and Forest-Ecosystem Simulator (DYNAFFOREST): Development and evaluation

Hansen Winslow D., Krawchuk Meg A., Trugman Anna T., Williams A. Park

Environmental Modelling & Software. 2022 156 p.105473

Encyclopedia of the World's Biomes (2020)

Parker V. Thomas

Wildfires and global change

Pausas Juli G, Keeley Jon E

Frontiers in Ecology and the Environment. 2021 19(7). p.387

A fiery past: A comparison of glacial and contemporary fire regimes on the Palaeo-Agulhas Plain, Cape Floristic Region

Kraaij Tineke, Engelbrecht Francois, Franklin Janet, Cowling Richard M.

Quaternary Science Reviews. 2020 235 p.106059

Global environmental controls on wildfire burnt area, size, and intensity

Haas Olivia, Prentice Iain Colin, Harrison Sandy P

Environmental Research Letters. 2022 17(6). p.065004

Flammability of native and invasive alien plants common to the Cape Floristic Region and beyond: Fire risk in the wildland–urban interface

Kraaij Tineke, Msweli Samukelisiwe T, Potts Alastair J

Trees, Forests and People. 2024 15 p.100513

Quantifying drivers of change in social-ecological systems: land management impacts wildfire probability in forests of the western US

Siegel Katherine J., Larsen Laurel, Stephens Connor, Stewart William, Butsic Van

Regional Environmental Change. 2022 22(3).

Human presence diminishes the importance of climate in driving fire activity across the United States

Syphard Alexandra D., Keeley Jon E., Pfaff Anne H., Ferschweiler Ken

Proceedings of the National Academy of Sciences. 2017 114(52). p.13750

The relative influence of climate and housing development on current and projected future fire patterns and structure loss across three California landscapes

Syphard Alexandra D., Rustigian-Romsos Heather, Mann Michael, Conlisk Erin, Moritz Max A., Ackerly David

Global Environmental Change. 2019 56 p.41

Multiple-Scale Relationships between Vegetation, the Wildland–Urban Interface, and Structure Loss to Wildfire in California

Syphard Alexandra D., Rustigian-Romsos Heather, Keeley Jon E.

Fire. 2021 4(1). p.12

Contrasting prescription burning and wildfires in California Sierra Nevada national parks and adjacent national forests

Keeley Jon E., Pfaff Anne, Caprio Anthony C.

International Journal of Wildland Fire. 2021 30(4). p.255

Fire weather effects on flammability of indigenous and invasive alien plants in coastal fynbos and thicket shrublands (Cape Floristic Region)

Msweli Samukelisiwe T., Potts Alastair J., Fritz Herve, Kraaij Tineke

PeerJ. 2020 8 p.e10161

Forests in the northern Sierra Nevada of California, USA, store large amounts of carbon in different patterns

Mattson Kim G., Zhang Jianwei

Ecosphere. 2019 10(6).

Valuing Chaparral (2018)

Molinari Nicole A., Underwood Emma C., Kim John B., Safford Hugh D.

Effect of Reduced Summer Cloud Shading on Evaporative Demand and Wildfire in Coastal Southern California

Williams A. Park, Gentine Pierre, Moritz Max A., Roberts Dar A., Abatzoglou John T.

Geophysical Research Letters. 2018 45(11). p.5653