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References BABIŃSKI Z., HABEL M. 2013. Hydromorphological conditions of the lower Vistula in the development of naviga tion and hydropower. Acta Energetica. Nr 2 p. 83-90. DOI: 10.12736/issn.2300-3022.2013206. BARKER L.J., HANNAFORD J., CHIVERTON A., SVENSSON C. 2016. From meteorological to hydrological drought using standardised indicators. Hydrology and Earth System Sciences. Vol. 20 p. 2483-2505. DOI: 10.5194/ hess-20-2483-2016. BARTCZAK A., GLAZIK R., TYSZKOWSKI S. 2014. Identyfikacja i ocena intensywności okresów suchych we wschodniej części Kujaw

References [1] Byun H.-R., & Wilhite, D.A. (1999). Objective quantifi cation of drought severity and duration. J. Climate , 12, 2747-2756. [2] Dębski K. (1970). Hydrologia . Warszawa: Dział Wydawnictw SGGW. [3] Dubicki A., & Tokarczyk, T. (2002). Zasoby wodne w dorzeczu górnej i środkowej Odry w warunkach suszy . Warszawa: Wydawnictwo IMGW [4] Łabędzki L., & Bąk, B. (2002). Monitoring suszy za pomocą wskaźnika standaryzowanego opadu SPI. Woda - Środowisko - Obszary wiejskie , 2, 2, 9-19. [5] Łabędzki L., Bąk, B., & Kanecka-Geszke, E., et al. (2008). A

References AKCURA, M. - PARTIGOC, F. - KAYA, Y. 2011. Evaluating of drought stress tolerance based on selection indices in Turkish bread wheat landraces. In The Journal of Animal and Plant Sciences, 2011, no. 21, pp. 700-709. BLUM, A. 1996. Crop responses to drought and the interpretation of adaptation. In Plant Growth Regulation, 1996, no. 20, pp. 135-148. BOUSLAMA, M. - SCHAPAUGH, W. T. 1984. Stress tolerance in soybean. Part 1: evaluation of three screening techniques for heat and drought tolerance. In Crop Science, 1984, no. 24, pp. 933-937. CECCARELLI, S

References ALLEY, W. M. 1984. The Palmer Drought Severity Index: Limitations and Assumptions. In Journal of Climate and Applied Meteorology [online], vol. 23, 1984, no. 7 [Retrieved 2016-04-10]. Retrieved from: http://journals.ametsoc.org/doi/pdf/10.1175/1520-0450%281984%29023%3C1100%3ATPDSIL%3E2.0.CO%3B2 BENETIN, J. – FÍDLER, J. – HRABAL, A. – RAUČINA, Š. 1979. Závlahy. Bratislava : Príroda, 1979, 544 p. CHMI. 2016. Sucho [online], [Retrieved 2016-10-28]. Retrieved from: http://portal.chmi.cz/files/portal/docs/meteo/ok/SUCHO/New_Definice_sucha.html ČABOUN, V

References Albergel, C., Rüdiger, C., Pellarin, T., Calvet, J.C., Fritz, N., Froissard, F., Suquia, D., Petitpa, A., Piguet, B., Martin, E. 2008. From near-surface to root-zone soil moisture using an exponential filter: an assessment of the method based on in-situ observations and model simulations. Hydrology and Earth System Sciences 12(6), 1323–1337. DOI: 10.5194/hess-12-1323-2008 Anyamba, A., Tucker, C. J. 2012. Historical perspective of AVHRR NDVI and vegetation drought monitoring. in Remote Sensing of Drought: Innovative Monitoring Approaches. Wardlow, B

-1311. DECROOCQ-FERRANT, V., S. DECROOCQ, J. VAN WENT, E. SCHMIDT and M. KREIS (1995): A homologue of the MAP/ERK family of protein kinase genes is expressed in vegetative and in female reproductive organs of Petunia hybrida. Plant Molecular Biology 27: 339-350. DICKMAN, D. I., Z. J. LIU and P. V. NGUYEN (1992): Photosynthesis, water relations, and growth of two hybrids Populus genotypes during a severe drought. Canadian Journal of Forest Research 22: 1094-1106. GION, J. M., C. LALANNE, G. LE PROVOST, H. FERRYDUMAZET, J. PAIVA, P. CHAUMEIL, J. M. FRIGERIO, J. BRACH, A. BARRE, A

) Dębski K.,1970, Hydrologia (Hydrology), Arkady, Warszawa, 368 pp. (in Polish) Dynowska I., 1994, Reżim odpływu rzecznego. Plansza 32.3: Odpływ rzeczny (River runoff regime. Sheet 32.3: River runoff), [in:] IGiPZ PAN (ed.), Atlas Rzeczypospolitej Polskiej (Atlas of the Republic of Poland), Główny Geodeta Kraju, Warszawa. (in Polish) Hisdal H., Stahl K., Tallaksen L. M., Demuth S., 2001, Have streamflow droughts in Europe become more severe or frequent?, Int. J. Climatol. 21(3): 317–333. Hisdal H., Tallaksen L.M., Clausen B., Peters E., Gustard A., 2004, Hydrological

REFERENCES B ąk B., Ł abędzki L. 2014. Prediction of precipitation deficit and excess in Bydgoszcz Region in view of predicted climate change. Journal of Water and Land Development. No. 23 p. 11–19. DOI: 10.1515/jwld-2014-0025. B artczak A., G lazik R., T yszkowski S. 2014. The application of Box–Cox transformation to determine the Standardized Precipitation Index ( SPI ), the Standardized Discharge Index ( SDI ) and to identify drought events: Case study in Eastern Kujawy (Central Poland). Journal of Water and Land Development. No. 22 p. 3–15. B yun H

References DUNKEL, Z. 2009. Brief surveying and discussing of drought indices used in agricultural meteorology. In Időjárás : Quarterly Journal of the Hungarian Meteorological Service, vol. 113, 2009, no. 1–2, pp. 23–37. ISBN 0324-6329. EPA. 2016. Climate change indicators in the United States, 2016. 4 th ed., EPA 430-R-16-004. www.epa.gov/climate-indicators FATULOVÁ, E. – MAJERČÁKOVÁ, O. – HOUŠKOVÁ, B. 2015. Globálne vodné partnerstvo pre strednú a východnú Európu. Príručka pre prípravu plánov manažmentu sucha. Vypracovanie a implementácia plánov v kontexte

REFERENCES A bera W., F ormetta G., B rocca L., R igon R. 2016. Modeling the water budget of the Upper Blue Nile basin using the JGrass-NewAge model system and satellite. Hydrology and Earth System Sciences. Vol. 21 p. 3145–3165. A hmed A.A., I smail U.H.A.E. 2008. Sediment in the Nile River system [online]. UNESCO-IHP-International Sediment Initiative. Available at: http://isi.irtces.org/isi/rootfiles/2017/07/07/1487239390353757-1498713528334367.pdf AMS Council 1997. Policy statement: Meteorological drought. Bulletin of American Meteorological Society. No