Biblio
“A brief description of the VINCERA project; vulnerability and impacts of North American forests to climate change: ecosystem responses and adaptation.”, Global Vegetation Dynamics: Concepts and Applications in the MC1 Model, vol. 213, p. 61, 2015.
“Historical Climate and Suppression Effects on Simulated Fire and Carbon Dynamics in the Conterminous United States”, Global Vegetation Dynamics: Concepts and Applications in the MC1 Model, pp. 17–30, 2015.
, “G03037 Impacts of climate change on fire regimes and carbon stocks of the US Pacific Northwest (doi 10.1029/2011JG001695)”, Journal of Geophysical Research-Part G-BioGeo, 2011.
, “Impacts of climate change on fire regimes and carbon stocks of the US Pacific Northwest”, Journal of Geophysical Research: Biogeosciences, vol. 116, 2011.
, “Response of vegetation distribution, ecosystem productivity, and fire to climate change scenarios for California”, Climatic Change, vol. 87, pp. 215–230, 2008.
, “Simulated response of conterminous United States ecosystems to climate change at different levels of fire suppression, CO 2 emission rate, and growth response to CO 2”, Global and Planetary Change, vol. 64, pp. 16–25, 2008.
, “The importance of climate change for future wildfire scenarios in the western United States”, Regional Impacts of climate change; Four Case Studies in the United States, pp. 22–41, 2007.
, “COMPARING NEW AND OLD SCENARIOS OF FUTURE CLIMATE CHANGE IMPACTS ON FIRE, CARBON AND VEGETATION DYNAMICS IN EASTERN US FORESTS”, in EastFIRE Conference Proceedings–Published Abstracts, 2005.
, “Simulating changes in fire occurrence, behavior, and effects in North America ecosystems under multiple future climate scenarios”, in Sixth Symposium on Fire and Forest Meteorology, 2005.
, “Regional differences in the carbon source-sink potential of natural vegetation in the USA”, Environmental Management, vol. 33, pp. S23–S43, 2004.
, “Appendix IV: Climate Change Effects on Vegetation Distribution, Carbon Stocks, and Fire Regimes in California”, Global Climate Change and California: Potential Implications for Ecosystems, Health, and the Economy. Draft Final Report. February, vol. 10, 2003.
, “Climate change effects on vegetation distribution, carbon, and fire in California”, Ecological Applications, vol. 13, pp. 1667–1681, 2003.
, “Simulating past and future dynamics of natural ecosystems in the United States”, Global Biogeochemical Cycles, vol. 17, 2003.
, “Climate change effects on vegetation distribution and carbon budget in the United States”, Ecosystems, vol. 4, pp. 164–185, 2001.
, “Forest processes and global environmental change: Predicting the effects of individual and multiple stressors we review the effects of several rapidly changing environmental drivers on ecosystem function, discuss interactions among them”, BioScience, vol. 51, pp. 735–751, 2001.
, , “MC1: a dynamic vegetation model for estimating the distribution of vegetation and associated ecosystem fluxes of carbon, nutrients, and water”, Pacific Northwest Station General Technical Report PNW-GTR-508, 2001.
, , “Dynamic simulation of tree–grass interactions for global change studies”, Ecological applications, vol. 10, pp. 449–469, 2000.
, “Interactions between fire, grazing and climate change at Wind Cave National Park, SD”, Ecological Modelling, vol. 134, pp. 229–244, 2000.
, MC: Corvallis Dynamic Vegetation Model. Oregon State University, 1999.
, “Simulating broad-scale fire severity in a dynamic global vegetation model”, Northwest Science, vol. 72, pp. 91–101, 1998.
,