Seite - (000058) - in Tourismus und Klimawandel

Richardson, R.B. & Loomis, J.B. (2004) Adaptive recreation planning and climate change: a contingent visitation approach. Ecological Economics 50(1–2), 83–99. DOI: https://doi.org/10.1016/j.ecole- con.2004.02.010 Rogelj, J., Popp, A., Calvin, K.V., Luderer, G., Emmerling, J., Gernaat, D., Fujimori, S., Strefler, J., Hasegawa, T., Marangoni, G., Krey, V., Kriegler, E., Riahi, K., van Vuuren, D.P., Doelman, J., Drouet, L., Edmonds, J., Fricko, O., Harmsen, M., Havlík, P., Humpenöder, F., Stehfest, E. & Tavoni, M. (2018) Scenarios towards limiting global mean temperature increase below 1.5 C. Nature Climate Change 8(4), 325–332. DOI: https://doi.org/10.1038/s41558-018-0091-3 Romanowsky, E., Handorf, D., Jaiser, R., Wohltmann, I., Dorn, W., Ukita, J., Cohen, J., Dethloff, K. & Rex, M. (2019) The role of stra- tospheric ozone for Arctic-midlatitude linkages. Scientific Reports 9, 7962. DOI: https://doi.org/10.1038/s41598-019-43823-1 Roth, R. (Hrsg.) (2018) Gemeinsames Positionspapier Experten- forum 2018: Klima.Schnee.Sport. FdSnow 53, 6–7. Online unter: https://www.stiftung.ski/fdsnow/dflip/FdSnow.pdf (letzter Zugrifff: 15.04.2020). Saffioti, C., Fischer, E.M., Scherrer, S.C. & Knutti, R. (2016) Recon- ciling observed and modeled temperature and precipitation trends over Europe by adjusting for circulation variability. Geophysical Research Letters 43(15), 8189–8198. DOI: https://doi.org/10.1002/ 2016GL069802 Sander, J. (2011) Extremwetterereignisse im Klimawandel: Bewertung der derzeitigen und zukünftigen Gefährdung. Dissertation, Ludwig Maximilians Universität München, Deutschland. Online unter: https://core.ac.uk/download/pdf/11032462.pdf (letzter Zugriff: 15.04.2020). Sass O., Malowerschnig, B., Vacik, H., Arpaci, A., Müller, M., For- mayer, H., Leidinger, D. & Sailer, R. (2014) Fire risk and vulne- rability of Austrian forests under the impact of climate change. Endbericht zum Projekt FIRIA, gefördert durch den Klima- und Energiefonds im Rahmen des Programms „Austrian Climate Re- search Programme“ (ACRP). Online unter: https://www.klimafonds. gv.at/wp-content/uploads/sites/6/01112014FIRIASASSEBACRP3- B068712K10AC1K00091.pdf (letzter Zugriff: 15.04.2020). Scherrer, S.C. & Begert, M. (2019) Effects of large-scale atmosphe- ric flow and sunshine duration on the evolution of minimum and maximum temperature in Switzerland. Theoretical and Applied Climatology 138(1–2), 227–235. DOI: https://doi.org/10.1007/ s00704-019-02823-x Scherrer, S.C., Appenzeller, C. & Laternser, M. (2004) Trends in Swiss Alpine snow days: the role of local- and large-scale climate variabi- lity. Geophysical Research Letters 31(13), L13215. DOI: https://doi. org/10.1029/2004GL020255 Schlögl, M. & Matulla, C. (2018) Potential future exposure of European land transport infrastructure to rainfall-induced landslides throughout the 21st century. Natural Hazards and Earth System Sciences 18(4), 1121–1132. DOI: https://doi.org/10.5194/nhess-18-1121-2018 Schmucki, E., Marty, C., Fierz, C. & Lehning, M. (2015). Simulations of 21st century snow response to climate change in Switzerland from a set of RCMs. International Journal of Climatology 35(11), 3262–3273. DOI: https://doi.org/10.1002/joc.4205 Schöner, W., Auer, I. & Böhm, R. (2009) Long term trend of snow depth at Sonnblick (Austrian Alps) and its relation to climate change. Hydrological Processes 23(7), 1052–1063. DOI: https:// doi.org/10.1002/hyp.7209 Schöner, W., Böckli, L., Hausmann, H., Otto, J.-C., Reisenhofer, S., Riedl, C. & Seren, S. (2012) Patterns of permafrost at Hoher Sonn- blick (Austrian Alps) – Extensive field-measurements and modelling approaches. Austrian Journal of Earth Sciences 105(2), 154–168. Online unter: https://epic.awi.de/id/eprint/35601/1/schoener_et_al_ ajes_105_2.pdf (letzter Zugriff: 15.04.2020). Schöner, W., Koch, R., Matulla, C., Marty, C. & Tilg, A.-M. (2018) Spatiotemporal patterns of snow depth within the Swiss-Austrian Alps for the past half century (1961to 2012) and linkages to climate change. International Journal of Climatology 39(3), 1589–1603. DOI: https://doi.org/10.1002/joc.5902 Schroeer, K. & Kirchengast, G. (2018) Sensitivity of extreme precipita- tion to temperature: the variability of scaling factors from a regional to local perspective. Climate Dynamics 50(11–12), 3981–3994. DOI: https://doi.org/10.1007/s00382-017-3857-9 Schwaiger, H., Bird, D.N., Damm, A., Kortschak, D. & Prettenthaler, F. (2017) Die Klima- und Energiebilanz von Skigebieten mit tech- nischer Beschneiung unter Berücksichtigung des Albedo-Effektes. Joanneum Research Forschungsgesellschaft mbH, LIFE – Zentrum für Klima, Energie und Gesellschaft, Graz, Österreich. Online un- ter: https://www.joanneum.at/fileadmin/LIFE/News_Bilder_Logos/ news/Klima-und_Energiebilanz_von_Beschneiung.pdf (letzter Zu- griff: 15.04.2020). Scott, D., McBoyle, G. & Schwartzentruber, M. (2004) Climate change and the distribution of climatic resources for tourism in North Ame- rica. Climate Research 27(2), 105–117. DOI: https://doi.org/10.3354/ cr027105 Scott, D., Rutty, M., Amelung, B. & Tang, M. (2016) An inter-compari- son of the holiday climate index (HCI) and the tourism climate index (TCI) in Europe. Atmosphere 7(6), 80. DOI: https://doi.org/10.3390/ atmos7060080 Serquet, G., Marty, C., Dulex, J.P. & Rebetez, M. (2011) Seasonal trends and temperature dependence of the snowfall/precipitation-day ratio in Switzerland. Geophysical Research Letters 38(7), L07703. DOI: https://doi.org/10.1029/2011GL046976 Shakun, J.D., Clark, P.U., He, F., Marcott, S.A., Mix, A.C., Liu, Z., Otto-Bliesner, B., Schmittner, A. & Bard, E. (2012) Global war- ming preceded by increasing carbon dioxide concentrations during the last deglaciation. Nature 484(7392), 49–54. DOI: https://doi. org/10.1038/nature10915 Spandre, P., François, H., Morin, S., George-Marcelpoil, E. (2015) Snowmaking in the French Alps: climatic context, existing facilities and outlook. Journal of Alpine Research 103(2), 1–17. DOI: https:// doi.org/10.4000/rga.2913 Spandre, P., François, H., Verfaillie, D., Lafaysse, M., Déqué, M., Eckert, N., George, E. & Morin, S. (2019) Climate controls on snow reliability in French Alps ski resorts. Scientific Reports 9, 8043. DOI: https://doi.org/10.1038/s41598-019-44068-8 Steiger, R. (2016) Klimawandel und Naturtourismus. In: Mayer, M. & Job, H. (Hrsg.) Naturtourismus: Chancen und Herausforderungen, S. 49–60. Studien zur Freizeit- und Tourismusforschung, Band 12. Verlag MetaGIS-Systems, Mannheim, Deutschland. Steiger, R. & Abegg, B. (2013) The sensitivity of Austrian ski areas to climate change. Tourism Planning & Development 10(4), 480–493. DOI: https://doi.org/10.1080/21568316.2013.804431 Stephenson, D., Hannachi, A. & O’Neill, A. (2004) On the existence of multiple climate regimes. Quarterly Journal of the Royal Meteoro- logical Society 130(597), 583–605. DOI: https://doi.org/10.1256/ qj.02.146 Switanek, M.B., Troch, P.A., Castro, C.L., Leuprecht, A., Chang, H.-I., Mukherjee, R. & Demaria, E.M.C. (2017) Scaled distribution map- ping: a bias correction method that preserves raw climate model projected changes. Hydrology and Earth System Sciences 21(6), 2649–2666. DOI: https://doi.org/10.5194/hess-21-2649-2017 Trimmel, H., Weihs, P., Faroux, S., Formayer, H., Hamer, P., Hasel, K., Laimighofer, J., Leidinger, D., Masson, V., Nadeem, I., Oswald, S., Revesz, M. & Schoetter, R. (2019) Thermal conditions during heat waves of a mid-European metropolis under consideration of climate change, urban development scenarios and resilience measures for the mid-21st century. Meteorologische Zeitschrift. PrePub DOI: https:// doi.org/10.1127/metz/2019/0966 Trnka, M., Balek, J., Štěpánek, P., Zahradníček, P., Možný, M., Eitzin- ger, J., Žalud, Z., Formayer, H., Turňa, M., Nejedlík, P., Semerádová, D., Hlavinka, P. & Brázdil, R. (2016) Drought trends over part of 2 Klimawandel – Auswirkungen mit Blick auf den Tourismus 45