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The occurrence of drought is one of the characteristic features of Polish climate. Drought usually lasts for many weeks and covers consid- erable area causing economic and social losses. Due to the influence which drought has on environment, economy and society, more and more research and implementation works are devoted to issues concerning its occurrence, risk assessment, monitoring, and forecasting. Literature indicates that hydrological droughts are most often associated with low flow periods on rivers. The paper presents analyses of hydrological drought periods on the basis of hydrological drought index (HDI) for selected Nysa Kłodzka study basin (SW part of Poland). Analyses were carried out in relation to the Maximum Credible Hydrological Drought (MCHD). In addition, attempts were taken to assess the hydrological drought based on atmospheric drought focused on application in ungauged basins in terms of hydrological monitoring.
Wydawca
Czasopismo
Rocznik
Tom
Strony
404--421
Opis fizyczny
Bibliogr. 28 poz.
Twórcy
autor
- Institute of Meteorology and Water Management, National Research Institute, Wrocław Branch, Wrocław, Poland, Tamara.Tokarczyk@imgw.pl
Bibliografia
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- Clausen, B., and C.P. Pearson (1995), Regional frequency analysis of annual maximum streamflow drought, J. Hydrol. 173, 1-4, 111-130, DOI: 10.1016/0022-1694(95)02713-Y.
- Demuth, S. (1994), Regionalization of low flows using a multiple regression approach – a review. In: Proc. 17th Conf. of Danube Countries, Budapest, Vol. 1, 115-122.
- Dracup, J.A., K.S. Lee, and E.G. Paulson Jr. (1980), On the definition of droughts, Water Resour. Res. 16, 2, 297-302, DOI: 10.1029/WR016i002p00297.
- Dubicki, A. (ed.) (2002), Water resources in the upper and middle Odra river basin under drought conditions, Wyd. IMGW, Ser. Atlasy i Monografie, Warszawa (in Polish).
- Eyton, J.R. (1984), Complementary-color, two-variable maps, Ann. Assoc. Am. Geographers 74, 3, 477-490, DOI: 10.1111/j.1467-8306.1984.tb01469.x.
- Hudson, H.E., and R. Hazen (1964), Droughts and low streamflow. In: V.T. Chow (ed.), Handbook of Applied Hydrology, Sec. 18, McGraw-Hill, New York.
- Jakubowski, W. (2003), Guide and computer program NIZOWKA, Mathematic Division, Agricultural University, Wrocław.
- Jakubowski, W., and L. Radczuk (2004), Nizowka 2003 software. In: L.M. Tallaksen and H.A.J. van Lanen (eds.), Hydrological Drought – Processes and Estimation Methods for Streamflow and Groundwater, Developments in Water Science, Vol. 48, Elsevier Science, Amsterdam.
- Jakubowski, W., and T. Tokarczyk (2007), The maximum low flow parameters depending on assumed threshold level. In: Proc. IUGG 24th General Assembly ”Earth: Our Changing Planet”, 2-13 July, 2007, Perugia, Italy, poster, http://www.iugg2007perugia.it/webbook/.
- Jakubowski, W., and T. Tokarczyk (2008), Temporal variability of the hydrological drought intensity in Nysa Kłodzka basin. In: A. Dubicki (ed.), Meteorologia, Hydrologia, Ochrona Środowiska – Kierunki Badań i Problemy, Wyd. IMGW, Seria: Monografie, Warszawa, 234-243 (in Polish).
- Łabędzki, L. (1999), Usability of the Penman-Monteith equation for calculating reference and grassland evapotranspiration, Wiad. IMUZ 20, 2, 89-101 (in Polish).
- Musiał, E., and E. Gąsiorek (2003), Penman – software to determine the potential evaporation according to Penman formule, Katedra Mat. AR we Wrocławiu, Wrocław.
- Peters, E., P.J.J.F. Torfs, H.A.J. van Lanen, and G. Bier (2003), Propagation of drought through groundwater – a new approach using linear reservoir theory, Hydrol. Process. 17, 15, 3023-3040, DOI: 10.1002/hyp.1274.
- Smakhtin, V.U. (2001), Low flow hydrology: a review, J. Hydrol. 240, 3-4, 147-186, DOI: 10.1016/S0022-1694(00)00340-1.
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- Tallaksen, L.M., and H.A.J. van Lanen (eds.) (2004), Hydrological Drought – Processes and Estimation Methods for Streamflow and Groundwater, Developments in Water Science, Vol. 48, Elsevier Science, Amsterdam.
- Tokarczyk, T. (2001), Low flow’s appearance in the Ziemia Kłodzka region, Wiadomości IMGW 24, 2.
- Tokarczyk, T. (2010), Low Flow as an Indicator of Hydrological Drought, Wyd. IMGW, Ser. Monografie IMGW, Warszawa (in Polish).
- Tokarczyk, T., and W. Jakubowski (2006), Temporal and spatial variability of drought in mountain catchments of Nysa Klodzka basin. In: Climate Variability and Change: Hydrological Impacts, IAHS Publication 308, Wallingford, 139-144.
- Vogel, R.M., and J.R. Stedinger (1987), Generalized storage-reliability-yield relationships, J. Hydrol. 89, 3-4, 303-327, DOI: 10.1016/0022-1694(87)90184-3.
- Yevjevich, V. (1967), An objective approach to definition and investigations of Continental hydrologic droughts, Hydrology Papers, Vol. 23, Colorado State University, Fort Collins, USA.
- Zelenhasić, E., and A. Salvai (1987), A method of streamflow drought analysis, Water Resour. Res. 23, 1, 156-168, DOI: 10.1029/WR023i001p00156.
- Zeliaś, A. (ed.) (1991), Spatial Econometrics, PWE, Warszawa (in Polish).
- Zielińska, M. (1963), Statistical methods of low-water computation – I, Prz. Geof. 7, 1-2 (in Polish).
- Zielińska, M. (1964), Statistical methods of low-water computation – II, Prz. Geof. 9, 2 (in Polish).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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