Learning to coexist with wildfire MA Moritz, E Batllori, RA Bradstock, AM Gill, J Handmer, PF Hessburg, ... Nature 515 (7525), 58-66, 2014 | 1015 | 2014 |
Rapid growth of the US wildland-urban interface raises wildfire risk VC Radeloff, DP Helmers, HA Kramer, MH Mockrin, PM Alexandre, ... Proceedings of the National Academy of Sciences 115 (13), 3314-3319, 2018 | 928 | 2018 |
Human influence on California fire regimes AD Syphard, VC Radeloff, JE Keeley, TJ Hawbaker, MK Clayton, ... Ecological applications 17 (5), 1388-1402, 2007 | 766 | 2007 |
Modeling plant species distributions under future climates: how fine scale do climate projections need to be? J Franklin, FW Davis, M Ikegami, AD Syphard, LE Flint, AL Flint, L Hannah Global change biology 19 (2), 473-483, 2013 | 402 | 2013 |
Global change and terrestrial plant community dynamics J Franklin, JM Serra-Diaz, AD Syphard, HM Regan Proceedings of the National Academy of Sciences 113 (14), 3725-3734, 2016 | 381 | 2016 |
Fine-grain modeling of species’ response to climate change: holdouts, stepping-stones, and microrefugia L Hannah, L Flint, AD Syphard, MA Moritz, LB Buckley, IM McCullough Trends in ecology & evolution 29 (7), 390-397, 2014 | 361 | 2014 |
Fire and biodiversity in the Anthropocene LT Kelly, KM Giljohann, A Duane, N Aquilué, S Archibald, E Batllori, ... Science 370 (6519), eabb0355, 2020 | 319 | 2020 |
Predicting spatial patterns of fire on a southern California landscape AD Syphard, VC Radeloff, NS Keuler, RS Taylor, TJ Hawbaker, SI Stewart, ... International Journal of Wildland Fire 17 (5), 602-613, 2008 | 313 | 2008 |
Conservation threats due to human‐caused increases in fire frequency in Mediterranean‐climate ecosystems AD Syphard, VC Radeloff, TJ Hawbaker, SI Stewart Conservation Biology 23 (3), 758-769, 2009 | 239 | 2009 |
Wildfire ignition-distribution modelling: a comparative study in the Huron–Manistee National Forest, Michigan, USA AB Massada, AD Syphard, SI Stewart, VC Radeloff International journal of wildland fire 22 (2), 174-183, 2012 | 215 | 2012 |
Housing arrangement and location determine the likelihood of housing loss due to wildfire AD Syphard, JE Keeley, AB Massada, TJ Brennan, VC Radeloff PloS one 7 (3), e33954, 2012 | 213 | 2012 |
Detection rates of the MODIS active fire product in the United States TJ Hawbaker, VC Radeloff, AD Syphard, Z Zhu, SI Stewart Remote Sensing of Environment 112 (5), 2656-2664, 2008 | 193 | 2008 |
Using a cellular automaton model to forecast the effects of urban growth on habitat pattern in southern California AD Syphard, KC Clarke, J Franklin Ecological Complexity 2 (2), 185-203, 2005 | 186 | 2005 |
The role of defensible space for residential structure protection during wildfires AD Syphard, TJ Brennan, JE Keeley International Journal of Wildland Fire 23 (8), 1165-1175, 2014 | 179 | 2014 |
Human presence diminishes the importance of climate in driving fire activity across the United States AD Syphard, JE Keeley, AH Pfaff, K Ferschweiler Proceedings of the National Academy of Sciences 114 (52), 13750-13755, 2017 | 178 | 2017 |
Climate change and future fire regimes: examples from California JE Keeley, AD Syphard Geosciences 6 (3), 37, 2016 | 169 | 2016 |
Location, timing and extent of wildfire vary by cause of ignition AD Syphard, JE Keeley International Journal of Wildland Fire 24 (1), 37-47, 2015 | 163 | 2015 |
Differences in spatial predictions among species distribution modeling methods vary with species traits and environmental predictors AD Syphard, J Franklin Ecography 32 (6), 907-918, 2009 | 152 | 2009 |
Simulating dynamic and mixed-severity fire regimes: a process-based fire extension for LANDIS-II BR Sturtevant, RM Scheller, BR Miranda, D Shinneman, A Syphard Ecological Modelling 220 (23), 3380-3393, 2009 | 144 | 2009 |
Twenty-first century California, USA, wildfires: fuel-dominated vs. wind-dominated fires JE Keeley, AD Syphard Fire Ecology 15 (1), 1-15, 2019 | 142 | 2019 |