Ábrahám Levente (szerk.): Válogatott tanulmányok VI. - Natura Somogyiensis 19. (Kaposvár, 2010)
SALAMON-ALBERT É., HORVÁTH F., & ORTMANN-AJKAI A.: Climatic conditions and habitats in Belső-Somogy, Külső-Somogy and Zselic as vegetation-based landscape regions II. Temperature and precipitation sensitivity of woodlands
SALAMON-ALBERT ET AL.: CLIMATIC CONDITIONS AND HABITATS 65 woodlands are the most sensitive indicators of these regional-scale climatic gradient, occurring here on the western border of their climatic range. Their Gaussian distribution curves show the most distinct peaks, especially to regional climate envelopes. Other tree dominated habitats (R) are also completely fitted to regional climate envelopes, both by number and position of multipeaks. The only one exception is the first peak of temperature seasonality (BIOCLIM-4), where this woodlands are missing. This climate function of other tree dominated habitats may represent a result of landscape management, or it can suggest their deriving from numerous woody or probably nonwoody habitat types. Acknowledgements Data for the analyses were delivered from MÉTA workgroup, Institute of Ecology and Botany of the Hungarian Academy of Sciences (Vácrátót, Hungary). The project was financed by the grant of OM-NKFP/2002: „Magyarország természetes növényzeti örökségének felmérése és összehasonlító értékelése". Further participating botanists are Bauer N., Bódis J., Botta-Dukát Z., Börcsök Z., Csiky J., Dávid J., Filotás Z., Fridrich A., Hegedős L., Horváth A., Juhász M., Kádár G., Király G., Kovács T., Lelkes A., Lőrincz P., Mányoki G., Pándi I., Pfeiffer N., Szabó A., Szalóky I., Szeglet P., Toldi M., Varga A., Wágner L., Zsidákovits J. contributed to field data collection. Special thank to Bálint Czúcz, who consent to apply climatic datatsets developed for MÉTA database. References ATTORRE, F., ALFO, M., DE SANCTIS, M., FRANCESCONI, F., BRUNO, F. 2007: Comparison of interpolation method for mapping climatic and bioclimatic variables at regional scale. - International Journal of Climatology 27: 1825-1843. BEALE, C.M., LENNON, J.L., GIMONA A. 2008: Opening the climate envelope reveals no macroscale associations with climate in European birds. - Proceedings of the National Academy of Sciences of the United States of America 105.39.: 14908-14912. BEAUMONT, L.J., HUGHES, L., POULSEN, M. 2005: Predicting species distributions: use of climatic parameters in BIOCLIM and its impact on predictions of species current and future distribution. - Ecological Modelling 186: 250-269. BORHIDI A. 1961: Klimadiagramme and klimazonale Karte Ungarns. - Annales Universitatis Scientiarum Budapestinensis, Sectio Biologica 4: 21-250. BOTKIN D.B., SAXE H., ARAÚJO M, BETTS R., BRADSHAW R.H.W., CEDHAGEN T., CHESSON P., DAWSON T.P., ETTERSON J.R., FAITH D.P., FERRIER S, GUISAN A, SKJOLDBORCÍ-HANSEN A., HILBERT D.W., LOEHLE C., MARGULES C., NEW M., SOEL M.J., STOCKWELL D.R.B. 2007: Forecasting the effects of global warming on biodiversity. - Bioscience 57: 227-236. BOLONI, J., MOLNÁR, ZS., ILLYÉS, E. AND KUN , A. 2007: A new habitat classification and manual for standardized habitat mapping. - Annali di Botanica (nuova serie) 7: 55-76. Czúcz, B., KRÖEL-DULAY, GY., RÉDEI, T., BOTTA-DUKÁT, Z., MOLNÁR, ZS. (eds) 2007: Éghajlatváltozás és biológiai sokféleség. Elemzések az adaptációs stratégia tudományos megalapozásához. Kutatási jelentés, (Climate change and biological diversity - explorative analysis for a more effective adaptation strategy in Hungary" (in Hungarian with English summary), Institute of Ecology and Botany of the Hungarian Academy of Sciences, Vácrátót, Hungary, Available: http://www.botanika.hu/download-01/NES
