Articles citing this paper
Detection of non-linearities in the dependence of burn area on fuel age and climatic variables
Frederic Paik Schoenberg, Roger Peng, Zhijun Huang and Philip Rundel
12(1) pp.1 - 6
60 articles found in Crossref database.
Extremal index blocks estimator: the threshold and the block size choice
Gomes D. Prata, Neves M. Manuela
Journal of Applied Statistics. 2020 47(13-15). p.2846
Modeling Anthropogenic Fire Occurrence in the Boreal Forest of China Using Logistic Regression and Random Forests
Guo Futao,
Zhang Lianjun,
Jin Sen,
Tigabu Mulualem,
Su Zhangwen, Wang Wenhui
Forests. 2016 7(12). p.250
Assessing the performance of fire danger indexes in a Mediterranean area
Sirca C,
Salis M,
Arca B,
Duce P, Spano D
iForest - Biogeosciences and Forestry. 2018 11(5). p.563
Interannual variations of area burnt in Tasmanian bushfires: relationships with climate and predictability
Nicholls Neville, Lucas Christopher
International Journal of Wildland Fire. 2007 16(5). p.540
Wildfire risk estimation in the Mediterranean area
Ager A. A.,
Preisler H. K.,
Arca B.,
Spano D., Salis M.
Environmetrics. 2014 25(6). p.384
On the Meteorological Mechanisms Driving Postfire Flash Floods: A Case Study
Tryhorn Lee,
Lynch Amanda,
Abramson Rebecca, Parkyn Kevin
Monthly Weather Review. 2008 136(5). p.1778
Integrating Fire Risk Considerations in Forest Management Planning in Spain – A Landscape Level Perspective
González José Ramón,
Palahí Marc, Pukkala Timo
Landscape Ecology. 2005 20(8). p.957
The fire frequency analysis branch of the pyrostatistics tree: sampling decisions and censoring in fire interval data
Moritz Max A.,
Moody Tadashi J.,
Miles Lori J.,
Smith Matthew M., de Valpine Perry
Environmental and Ecological Statistics. 2009 16(2). p.271
Large‐scale, dynamic transformations in fuel moisture drive wildfire activity across southeastern Australia
Nolan R. H.,
Boer M. M.,
Resco de Dios V.,
Caccamo G., Bradstock R. A.
Geophysical Research Letters. 2016 43(9). p.4229
Determining fuel moisture thresholds to assess wildfire hazard: A contribution to an operational early warning system
Argañaraz Juan P.,
Landi Marcos A.,
Scavuzzo Carlos Marcelo,
Bellis Laura M., Zia Asim
PLOS ONE. 2018 13(10). p.e0204889
Temporal and spatial characteristics of forest fires in South Korea between 1970 and 2003
Lee Byungdoo,
Park Pil Sun, Chung Joosang
International Journal of Wildland Fire. 2006 15(3). p.389
Wildfire Selectivity for Land Cover Type: Does Size Matter?
Barros Ana M. G.,
Pereira José M. C., Bohrer Gil
PLoS ONE. 2014 9(1). p.e84760
Valuing Chaparral (2018)
A critical assessment of the Burning Index in Los Angeles County, California
Schoenberg Frederic P.,
Chang Chien-Hsun,
Keeley Jon E.,
Pompa Jamie,
Woods James, Xu Haiyong
International Journal of Wildland Fire. 2007 16(4). p.473
Overstory tree mortality resulting from reintroducing fire to long-unburned longleaf pine forests: the importance of duff moisture
Varner J. Morgan,
Hiers J. Kevin,
Ottmar Roger D.,
Gordon Doria R.,
Putz Francis E., Wade Dale D.
Canadian Journal of Forest Research. 2007 37(8). p.1349
Ecological effects of large fires on US landscapes: benefit or catastrophe?
Keane Robert E.,
Agee James K.,
Fulé Peter,
Keeley Jon E.,
Key Carl,
Kitchen Stanley G.,
Miller Richard, Schulte Lisa A.
International Journal of Wildland Fire. 2008 17(6). p.696
Forecasting Live Fuel Moisture of Adenostema fasciculatum and Its Relationship to Regional Wildfire Dynamics across Southern California Shrublands
Park Isaac,
Fauss Kristina, Moritz Max A.
Fire. 2022 5(4). p.110
The Effect of Ecophysiological Traits on Live Fuel Moisture Content
Pivovaroff Alexandria L.,
Emery Nathan,
Sharifi M. Rasoul,
Witter Marti,
Keeley Jon E., Rundel Philip W.
Fire. 2019 2(2). p.28
Spatial and temporal dynamics of live fuel moisture content in eastern Mediterranean woodlands are driven by an interaction between climate and community structure
Bar-Massada Avi, Lebrija-Trejos Edwin
International Journal of Wildland Fire. 2021 30(3). p.190
Modelling Fire Ignition Probability from Satellite Estimates of Live Fuel Moisture Content
Jurdao Sara,
Chuvieco Emilio, Arevalillo Jorge M.
Fire Ecology. 2012 8(1). p.77
Tools for Assessing the Impacts of Climate Variability and Change on Wildfire Regimes in Forests
Herawati Hety,
González-Olabarria José,
Wijaya Arief,
Martius Christopher,
Purnomo Herry, Andriani Rubeta
Forests. 2015 6(12). p.1476
Spatial patterns and drivers of fire occurrence in a Mediterranean environment: a case study of southern Croatia
Pavlek Katarina,
Bišćević Filip,
Furčić Petra,
Grđan Ana,
Gugić Vesna,
Malešić Nino,
Moharić Paula,
Vragović Vera,
Fuerst-Bjeliš Borna, Cvitanović Marin
Geografisk Tidsskrift-Danish Journal of Geography. 2017 117(1). p.22
Forest Fire Driving Factors and Fire Risk Zoning Based on an Optimal Parameter Logistic Regression Model: A Case Study of the Liangshan Yi Autonomous Prefecture, China
Zhang Fuhuan,
Zhang Bin,
Luo Jun,
Liu Hui,
Deng Qingchun,
Wang Lei, Zuo Ziquan
Fire. 2023 6(9). p.336
The Influence of Precipitation and Consecutive Dry Days on Burned Areas in Yunnan Province, Southwestern China
Chen Feng,
Fan Zhaofei,
Niu Shukui, Zheng Jingming
Advances in Meteorology. 2014 2014 p.1
Point process modeling of wildfire hazard in Los Angeles County, California
Xu Haiyong, Schoenberg Frederic Paik
The Annals of Applied Statistics. 2011 5(2A).
Relationship between landscape structure and burn severity at the landscape and class levels in Samchuck, South Korea
Lee Sang-Woo,
Lee Myung-Bo,
Lee Young-Geun,
Won Myoung-Soo,
Kim Jong-Jin, Hong Sung-kwon
Forest Ecology and Management. 2009 258(7). p.1594
Impact of drought on wildland fires in Greece: implications of climatic change?
Dimitrakopoulos Alexandros P.,
Vlahou M.,
Anagnostopoulou Ch. G., Mitsopoulos I. D.
Climatic Change. 2011 109(3-4). p.331
Integrated wildfire danger models and factors: A review
Zacharakis Ioannis, Tsihrintzis Vassilios A.
Science of The Total Environment. 2023 899 p.165704
Bottom-Up Variables Govern Large-Fire Size in Portugal
Fernandes Paulo M.,
Monteiro-Henriques Tiago,
Guiomar Nuno,
Loureiro Carlos, Barros Ana M. G.
Ecosystems. 2016 19(8). p.1362
Role of weather and fuel in stopping fire spread in tropical savannas
Price Owen F.,
Borah Rittick, Maier Stefan W.
Austral Ecology. 2014 39(2). p.135
Prediction of regional wildfire activity in the probabilistic Bayesian framework of Firelihood
Pimont François,
Fargeon Héléne,
Opitz Thomas,
Ruffault Julien,
Barbero Renaud,
Martin‐StPaul Nicolas,
Rigolot Eric,
RiviÉre Miguel, Dupuy Jean‐Luc
Ecological Applications. 2021 31(5).
Assessing forest fire properties in Northeastern Asia and Southern China with satellite microwave Emissivity Difference Vegetation Index (EDVI)
Li Rui,
Fu Yuyun,
Bergeron Yves,
Valeria Osvaldo,
Chavardès Raphaël D.,
Hu Jiheng,
Wang Yipu,
Duan Jiawei,
Li Dong, Cheng Yuanxi
ISPRS Journal of Photogrammetry and Remote Sensing. 2022 183 p.54
Effect of Climate on Wildfire Size: A Cross-Scale Analysis
Slocum Matthew G.,
Beckage Brian,
Platt William J.,
Orzell Steve L., Taylor Wayne
Ecosystems. 2010 13(6). p.828
Evaluation of microwave soil moisture data for monitoring live fuel moisture content (LFMC) over the coterminous United States
Lu Yang, Wei Chunzhu
Science of The Total Environment. 2021 771 p.145410
A global review of remote sensing of live fuel moisture content for fire danger assessment: Moving towards operational products
Yebra Marta,
Dennison Philip E.,
Chuvieco Emilio,
Riaño David,
Zylstra Philip,
Hunt E. Raymond,
Danson F. Mark,
Qi Yi, Jurdao Sara
Remote Sensing of Environment. 2013 136 p.455
Procrustes based metrics for spatial validation and calibration of two-dimensional perimeter spread models: A case study considering fire
Duff Thomas J.,
Chong Derek M.,
Taylor Peter, Tolhurst Kevin G.
Agricultural and Forest Meteorology. 2012 160 p.110
The impact of antecedent fire area on burned area in southern California coastal ecosystems
Price Owen F.,
Bradstock Ross A.,
Keeley Jon E., Syphard Alexandra D.
Journal of Environmental Management. 2012 113 p.301
Data Analysis and Applications 4 (2020)
Testing Separability in Spatial‐Temporal Marked Point Processes
Paik Schoenberg Frederic
Biometrics. 2004 60(2). p.471
Modelling Mediterranean landscape succession-disturbance dynamics: A landscape fire-succession model
Millington James D.A.,
Wainwright John,
Perry George L.W.,
Romero-Calcerrada Raul, Malamud Bruce D.
Environmental Modelling & Software. 2009 24(10). p.1196
The Impact of Precipitation Regimes on Forest Fires in Yunnan Province, Southwest China
Chen Feng,
Niu Shukui,
Tong Xiaojuan,
Zhao Jinlong,
Sun Yu, He Tengfei
The Scientific World Journal. 2014 2014 p.1
Extreme value analysis of wildfires in Canadian boreal forest ecosystems
Jiang Yueyang, Zhuang Qianlai
Canadian Journal of Forest Research. 2011 41(9). p.1836
Unifying Wildfire Models from Ecology and Statistical Physics
Zinck Richard D., Grimm Volker
The American Naturalist. 2009 174(5). p.E170
Applying landscape principles to fire hazard reduction
Loehle Craig
Forest Ecology and Management. 2004 198(1-3). p.261
Anticipating surprise: Using agent-based alternative futures simulation modeling to identify and map surprising fires in the Willamette Valley, Oregon USA
Hulse David,
Branscomb Allan,
Enright Chris,
Johnson Bart,
Evers Cody,
Bolte John, Ager Alan
Landscape and Urban Planning. 2016 156 p.26
The Tension between Fire Risk and Carbon Storage: Evaluating U.S. Carbon and Fire Management Strategies through Ecosystem Models
Girod C. M.,
Hurtt G. C.,
Frolking S.,
Aber J. D., King A. W.
Earth Interactions. 2007 11(2). p.1
Effects of Live Fuel Moisture Content on Wildfire Occurrence in Fire-Prone Regions over Southwest China
Luo Kaiwei,
Quan Xingwen,
He Binbin, Yebra Marta
Forests. 2019 10(10). p.887
The Economics of Forest Disturbances (2008)
Evaluation of different parameter estimation techniques in extreme bushfire modelling for Victoria, Australia
Khastagir Anirban,
Hossain Iqbal, Aktar Nazneen
Urban Climate. 2021 37 p.100862
Utilizing Vegetation and Environmental New Micro Spacecraft (VENµS) Data to Estimate Live Fuel Moisture Content in Israel's Mediterranean Ecosystems
Bar-Massada Avi, Sviri Achiad
IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing. 2020 13 p.3204
Evaluation of Wildfire Occurrences in Pakistan with Global Gridded Soil Properties Derived from Remotely Sensed Data
Rafaqat Warda,
Iqbal Mansoor,
Kanwal Rida, Weiguo Song
Remote Sensing. 2022 14(21). p.5503
A Cautionary Note Regarding the Use of Cumulative Burnt Areas for the Determination of Fire Danger Index Breakpoints
Pimont F.,
Ruffault J.,
Martin-StPaul N.K., Dupuy J.-L.
International Journal of Wildland Fire. 2019 28(3). p.254
Gamma generalized linear model to investigate the effects of climate variables on the area burned by forest fire in northeast China
Guo Futao,
Wang Guangyu,
Innes John L.,
Ma Xiangqing,
Sun Long, Hu Haiqing
Journal of Forestry Research. 2015 26(3). p.545
Quantifying Fire Cycle from Dendroecological Records Using Survival Analyses
Cyr Dominic,
Gauthier Sylvie,
Boulanger Yan, Bergeron Yves
Forests. 2016 7(12). p.131
A fire probability model for forest stands in Catalonia (north-east Spain)
González José Ramón,
Palahí Marc,
Trasobares Antoni, Pukkala Timo
Annals of Forest Science. 2006 63(2). p.169
Autoregressive Forecasting of the Number of Forest Fires Using an Accumulated MODIS-Based Fuel Dryness Index
Vega-Nieva Daniel José,
Briseño-Reyes Jaime,
López-Serrano Pablito-Marcelo,
Corral-Rivas José Javier,
Pompa-García Marín,
Cruz-López María Isabel,
Cuahutle Martin,
Ressl Rainer,
Alvarado-Celestino Ernesto, Burgan Robert E.
Forests. 2023 15(1). p.42
Evaluating predictive models of critical live fuel moisture in the Santa Monica Mountains, California
Dennison Philip E.,
Moritz Max A., Taylor Robert S.
International Journal of Wildland Fire. 2008 17(1). p.18
Critical live fuel moisture in chaparral ecosystems: a threshold for fire activity and its relationship to antecedent precipitation
Dennison Philip E., Moritz Max A.
International Journal of Wildland Fire. 2009 18(8). p.1021
Effects of plant hydraulic traits on the flammability of live fine canopy fuels
Scarff Fiona R.,
Lenz Tanja,
Richards Anna E.,
Zanne Amy E.,
Wright Ian J.,
Westoby Mark, McCulloh Katherine
Functional Ecology. 2021 35(4). p.835
Large, high‐intensity fire events in southern California shrublands: debunking the fine‐grain age patch model
Keeley Jon E., Zedler Paul H.
Ecological Applications. 2009 19(1). p.69
