|
Bioclimatic velocity: the pace of species exposure to climate change |
Serra-Diaz, Josep M., Franklin, Janet, Ninyerola, Miquel, Davis, Frank W., Syphard, Alexandra D., Regan, Helen M. and Ikegami, Makihiko |
2013 |
plants, endemic species, biodiversity, bioclimatic modeling |
|
Changes in climatic water balance drive downhill shifts in plant species' optimum elevations |
Crimmins S. M., Dobrowski S. Z., Greenberg J. A., Abatzoglou J.T., and Mynsberge A. R. |
2011 |
climate change, plants, species distributions, climatic water deficit |
|
Climate change and the future of California's endemic flora |
Loarie, Scott R., Carter, Benjamin E., Hayhoe, Katharine, McMahon, Sean, Moe, Richard, Knight, Charles A., Ackerly, David D., |
2008 |
climate change, plants, endemic species, plant diversity |
|
Climate change effects on vegetation distribution, carbon, and fire in California |
Lenihan, J. M., Drapek R., Bachelet D., and Neilson, R. P. |
2003 |
fire frequency, climate change, plants, species distributions, wildfire |
|
Cross-scale modeling of surface temperature and tree seedling establishment in mountain landscapes |
Dingman, John R., Lynn C. Sweet, Ian McCullough, Frank W. Davis, Alan Flint, Janet Franklin, and Lorraine E. Flint |
2013 |
microclimatology, temperature, downscaling, plants |
|
Fire management, managed relocation, and land conservation options for long-lived obligate seeding plants under global changes in climate, urbanization, and fire regime |
Bonebrake, Timothy C., Syphard, Alexandra D., Franklin, Janet, Anderson, Kurt E., Akçakaya, H. Resit, Mizerek, Toni, Winchell, Clark, and Regan, Helen M. |
2014 |
chaparral, plants, biodiversity management, wildfire, biodiversity, urban growth |
|
Impacts of sea level rise and climate change on coastal plant species in the central California coast. |
Garner, K. L., M. Y. Chang, M. T. Fulda, J. A. Berlin, R. E. Freed, M. M. Soo-Hoo, D. L. Revell, M. Ikegami, L. E. Flint, A. L. Flint, and others |
2015 |
plants, vegetation, vegetation distribution |
|
Influence of climatic niche suitability and geographical overlap on hybridization patterns among southern Californian oaks |
Ortego, Joaquin, Gugger, Paul F., Riordan, Eric C., and Sork, Victoria L. |
2014 |
Quercus engelmannii, plants, ecological genetics, biodiversity |
|
Life history characteristics may be as important as climate projections for defining range shifts: An example for common tree species in the intermountain western US |
Copeland, S. M., Bradford, J. B., Duniway, M. C. & Butterfield, B. J. |
2018-08 |
climate change impacts on biodiversity, species distribution modeling, plants |
|
Modeling plant species distributions under future climates: how fine scale do climate projections need to be? |
Franklin, Janet, Davis, Frank W., Ikegami, Makihiko, Syphard, Alexandra D., Flint, Lorraine E., Flint, Alan L., and Hannah, Lee |
2013 |
species distribution modeling, plants, biodiversity, model uncertainty |
|
National Fish, Wildlife and Plants Climate Adaptation Strategy |
U.S. Fish and Wildlife Service, National Oceanic and Atmospheric Administration |
March, 2013 |
fish, wildlife, plants, climate change adaptation |
|
Predicting species responses to climate change: demography and climate microrefugia in California valley oak (Quercus lobata) |
Mclaughlin, B. C. and Zaveleta, E. S. |
2012 |
bioclimatic modeling, climate change, Quercus lobata, plants |
|
Relative vulnerability to climate change of trees in western North America |
Case, Michael J., and Joshua J. Lawler |
2016 |
plants, biodiversity, climate change assessment |
|
Topographic, latitudinal and climatic distribution of Pinus coulteri: geographic range limits are not at the edge of the climate envelope |
Chardon, Nathalie I., Cornwell, William K., Flint, Lorraine E., Flint, Alan L., and Ackerly, David D. |
2014 |
plants, Pinus coulteri, biodiversity, species distributions |
|
Using species traits to guide conservation actions under climate change |
Butt, N. & Gallagher, R. |
2018-09 |
vulnerability assessment, plants |
