Alexandra D. Syphard
Alexandra D. Syphard
Vertus Wildfire, Conservation Biology Institute, San Diego State University
Verified email at
Cited by
Cited by
Human influence on California fire regimes
AD Syphard, VC Radeloff, JE Keeley, TJ Hawbaker, MK Clayton, ...
Ecological applications 17 (5), 1388-1402, 2007
Learning to coexist with wildfire
MA Moritz, E Batllori, RA Bradstock, AM Gill, J Handmer, PF Hessburg, ...
Nature 515 (7525), 58-66, 2014
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
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
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
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
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
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
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
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
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, 2013
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
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
Simulating fire frequency and urban growth in southern California coastal shrublands, USA
AD Syphard, KC Clarke, J Franklin
Landscape ecology 22 (3), 431-445, 2007
Simulating the effects of different fire regimes on plant functional groups in Southern California
J Franklin, AD Syphard, DJ Mladenoff, HS He, DK Simons, RP Martin, ...
Ecological Modelling 142 (3), 261-283, 2001
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
Simulating the effects of frequent fire on southern California coastal shrublands
AD Syphard, J Franklin, JE Keeley
Ecological Applications 16 (5), 1744-1756, 2006
Land use planning and wildfire: development policies influence future probability of housing loss
AD Syphard, AB Massada, V Butsic, JE Keeley
PloS one 8 (8), e71708, 2013
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
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
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