Lehrstuhl für Landschaftsökologie und Geoinformation

Literatur: Wirkungen des Klimawandels auf Ausmaß und Frequenz von Wald- und Buschbränden und deren Management am Beispiel des Westens der USA

Aʙᴀᴛᴢᴏɢʟᴏᴜ, J.T. und A. Pᴀʀᴋ Wɪʟʟɪᴀᴍs (2016): Impact of anthropogenic climate change on wildfire across western US forests. In: Earth, Atmospheric, and Planetary Science 113 (43), S. 11770–11775.

Bᴇᴠᴀɴ, S.L., Nᴏʀᴛʜ, P.R.J., Gʀᴇʏ, W.M.F., Lᴏs, S.O. und E. Pʟᴜᴍᴍᴇʀ (2009): Impact of atmospheric aerosol from biomass burning on Amazon dry-season drought. In: Journal of Geophysical Research (114), S. 1-11.

Bᴏᴅᴇɴ, T.A., G. Mᴀʀʟᴀɴᴅ, und R.J. Aɴᴅʀᴇs (2017): Global, Regional, and National Fossil-Fuel CO2 Emissions. URL: http://cdiac.ess-dive.lbl.gov/trends/emis/tre_glob_2014.html (Stand: 18.12.2017).

Bᴏᴡᴍᴀɴ D., Bᴀʟᴄʜ, J., Aʀᴛᴀxᴏ, P., Bond, W.J., Cᴏᴄʜᴀɴᴇ, M., Aɴᴛᴏɴɪᴏ, C. DᴇFʀɪᴇs, R., Johnston, F.H., Keeley, J.F., Krawchuk, M.A., Kull, C.A., Mack, M., Moritz, M.A., Pyne, S., Roos, C.I., Scott, A.C., Sodhi, S. und T.W. Swetnam (2011): The human dimension of fire regimes on Earth. In:  Journal of Biogeography (38), S. 2223–2236.

Bᴏᴡᴍᴀɴ, D., Bᴀʟᴄʜ, J.K., Aʀᴛᴀxᴏ, P., Bᴏɴᴅ, W.J., Cᴀʀʟsᴏɴ, J.M. Cochrane, M.A., D’Antonio, C.M., DeFries, R.S., Doyle, J.C., Harrison, S.P., Johnston, F.H., Keeley, J.E., Krawchuk, M.A., Kull, C.A., Marston, J.B., Moritz, M.A. Prentice, C., Roos, C.I., Scott, A.C., Swetnam, T.W., von der Werft, M.A. und S.J. Pyne (2009): Fire in the Earth System. In: Science (324), S. 481-484.

Bʀᴀᴅsᴛᴏᴄᴋ, R.A. (2010): A biogeographic model of fire regimes in Australia: current and future implications. In:  Global Ecology and Biogeography 19 (2), S.145-158. 

Dɪᴄᴋɪɴsᴏɴ, K., Bʀᴇɴᴋᴇʀᴛ-Sᴍɪᴛʜ, H., Cʜᴀᴍᴘ, P. und N. Fʟᴏʀᴇs (2015): Catching fire? Social Interactions, Beliefs, and Wildfire Risk Mitigation Behaviors. In: Society & Natural Resources (28), S. 807-824. 

 Fʟᴀɴɴɪɢᴀɴ, M., Kʀᴀᴡᴄʜᴜᴋ, M.A., Wᴏᴛᴛᴏɴ, M. und L.M. Jᴏʜɴsᴛᴏɴ (2009): Implication of changing climate for global Wildland fire. In: International Journal of Wildland Fire (18), S. 483-507.

Global Fire Emission Database (GFED) (2017) URL: http://www.globalfiredata .org/index.html (Stand: 18.12. 2017).

Gᴏɴᴢáʟᴇᴢ-Cᴀʙáɴ, A. (2008): Proceedings of the Second International Symposium on Fire Economics, Planning, and Policy: A Global View. URL: https://www.fs.usda.gov/treesearch/ pubs/34437 (Stand: 15.12.2017).

Hᴀᴍɪʟᴛᴏɴ, B.A. (2014): Quadrennial Fire Review; Final Report. URL: https://www. forestsandrangelands.gov/QFR/ (Stand: 10.01.2018).

IPCC (2014): Climate Change 2014: Synthesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change [Core Writing Team, R.K. Pachauri und L.A. Meyer (eds.)]. IPCC, Geneva, Swit-

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 Jᴏʟʟʏ, W., Cᴏᴄʜʀᴀɴᴇ, M., Fʀᴇᴇʙᴏʀɴ, P., Hᴏʟᴅᴇɴ, Z., Bʀᴏᴡɴ, T., Wɪʟʟɪᴀᴍsᴏɴ, G. und D. Bᴏᴡᴍᴀɴɴ (2015):  Climate-induced variations in global wildfire danger from 1979 to 2013. In: Nature Communications (6), S.7537.

MᴄKᴇʟᴠᴇʏ, K.S., Sᴋɪɴɴᴇʀ, C.N., Cʜᴀɴɢ, C., Eᴛ-ᴍᴀɴ, D. C., Hᴜsᴀʀɪ, S.J., Paʀsᴏɴs, D.J., Wᴀɢᴛᴇɴᴅᴏɴᴋ, J.W.ᴠ. und C.P. Wᴇᴀᴛʜᴇʀsᴘᴏᴏɴ (1996): An overview of fire in the Sierra Nevada. In: Sierra Nevada Ecosystem Project: Final report to Congress 2 (37), S. 1033-1040.

MᴄKᴇɴᴢɪᴇ, D. und J.S. Lɪᴛᴛᴇʟʟ (2017): Climate change and the eco-hydrology of fire: Will area burned increase in a warming western USA? In: Ecological Applications 27(1), S. 26-36.

Kᴜʀᴢ, W.A., Sᴛɪɴsᴏɴ, G. und G. Rᴀᴍᴘʟᴇʏ (2008): Could increased boreal forest ecosystem productivity offset carbon losses from increased disturbances? In: Philosophical Transactions of the Royal Society B (363), S.2261-2269.

Kᴏᴛᴛᴇᴋ, M., J. Gʀɪᴇsᴇʀ, C. Bᴇᴄᴋ, B. Rᴜᴅoʟf, und F. Rᴜʙᴇʟ (2006): World Map of the Köppen-Geiger climate classification updated. In: Meteorologische Zeitschrift (15), S. 259-263.

Mᴏʀɪᴛᴢ, M., Mᴏʀᴀɪs, M., Sᴜᴍᴍᴇʀᴇʟʟ, L., Cᴀʀʟsᴏɴ, J.M., und J. Dᴏʏʟᴇ (2005): Wildfires, complexity, and highly optimized tolerance. In: Environmental Science 102 (50), S. 17912-17917.

Mᴏʀɪᴛᴢ, M., Pᴀʀɪsɪᴇɴ, M-A., Bᴀᴛʟʟᴏʀɪ, E., Kʀᴀᴡᴄʜᴜᴋ, M.A., Vᴀɴ Dᴏʀɴ, J., Gᴀɴᴢ, D.J. und K. Hᴀʏʜᴏᴇ (2012): Climate change and disruptions to global fire activity. In: Ecosphere 3(6), Article 49, S. 1-22.

National Park Service; U.S. Department of Interior (2017): Wildland Fire; Wildfire Causes. URL: https://www.nps.gov/ fire/wildland-fire/learning-center/fire-in-depth/wildfire-causes.cfm (Stand: 22.12.2017).

Pʏɴᴇ, S.J. (2010): America’s Fires: A historical context for policy and practice. Forest History Society. Durham.

Rᴀᴍᴀɴᴀᴛʜᴀɴ, V. und G.R. Cᴀʀᴍɪᴄʜᴀᴇʟ (2008): Global and Regional Climate Changes Due to Black Carbon. In: Nature Geoscience March 2008, S. 221-227.

Rᴇᴀᴍs, M.A., Hᴀɪɴᴇs, T.K., Rᴇɴɴᴇʀ, C.R., Wᴀsᴄᴏᴍ, M.W. und H. Kɪɴɢʀᴇ (2005): Goals, obstacles and effective strategies of wildfire mitigation programs in the Wildland-Urban-Interface. In: Forest Policy and Economics (7), S. 818-826.

Sᴄʜᴏᴇɴɴᴀɢᴇʟ, T., Vᴇʙɪᴇɴ, T.T. und W.H. Rᴏᴍᴍᴇ (2004): The Interaction of Fre, Fuels, and Climate across Rocky Mountain Forests. In: Bioscience (54), S. 661-676.

Sᴄʜᴏᴇɴɴᴀɢᴇʟ, T., Bᴀʟᴄʜ, J.K., Bʀᴇɴᴋᴇʀᴛ-Sᴍɪᴛʜ, H., Dᴇɴɴɪsᴏɴ, P.E., Hᴀʀᴠᴇʏ, B.J., Krawchuk, M.A., Mietkiewicz, N., Morgan, P., Moritz, M.A., Rasker, R., Turner, M.G. und C. Whitlock (2017): Adapt to more wildfire in western North American forests as climate changes. In: Perspective 114 (18), S. 4582-4590. 

Tʀᴏᴜᴇᴛ, V. Tᴀʏʟᴏʀ, A.H., Cᴀʀʟᴇᴛᴏɴ, A.M. und C.N. Sᴋɪɴɴᴇʀ (2009): Interannual variations in fire weather, fire extent, and synoptic-scale circulation patterns in northern California and Oregon. In: Theoretical and Applied Climatology (95), S. 349-360.

Wᴇsᴛᴇʀʟɪɴɢ A.L., Hɪᴅᴀʟɢᴏ, H.G., Cᴀʏᴀɴ, D.R. und T.W. Sᴡᴇᴛɴᴀᴍ (2006): Warming and Earlier Spring Increase Western U.S. Forest Wildfire Activity. In: Science (313), S. 940-943.

Wʜɪᴛᴇ Pᴀᴘᴇʀ Sᴄɪᴇɴᴄᴇ Tᴇᴀᴍ (2015): Vegetation Fires and Global Change; Challenges for Concerted International Action. A White Paper directed to the United Nations and International Organizations. In: Planet@Risk 3(1), S. 45-57.