1. Analitis, A., Katsouyanni, К., Biggeri, А., Baccini, M., Forsberg, B., Bisanti, L., Kirchmayer, U., Ballester, F., Cadum, E., goodman, PG., Hojs, a., Sunyer, J., Tittanen, P., & Michelozzi, P. (2008). Effects of cold weather on mortality: results from 15 European cities within the PHEWE project. American Journal of Epidemiology, 168(12), 1397-1408. doi: 10.1093/aje/kwn266;
2. Aksha K.S., Juran K., Resler M.L. (2017). Spatial and temporal analysis of natural hazard mortality in Nepal. Environmental Hazards. doi.org/10.1080/17477891.2017.1398630;
3. Arsenović D. (2019). Climate and population in Central Europe: results for temperature-related mortality in Novi Sad. In New Generations in Demography: New Challenging Adventures in the Population Sciene (Eds. Fisher J., Mazouch P., Hulikova Tesarkova K., Kurtinova O.), 27-35. Univeristy of Economics, Faculty of Informatics and Statistics, Prague. Oeconomica Publishing House. ISBN 978-80-245-2302-6;
4. Arsenović, D., Lehnert, M., Fiedor, D., Šimáček, P., Středová, H., Středa, T., & Savić, S. (2019). Heatwaves and Mortality in Czech Cities: A Case Study for the Summers of 2015 and 2016. Geographica Pannonica, 23(3), 162-172;
5. Arsenović D. (2018). Seasonality in human mortality: results for the City of Novi Sad (Serbia). Stanovništvo, 56(1). 27-42. doi.org/10.2298/STNV1801027A;