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2019 | 28 | 1 |

Tytuł artykułu

The reaction of groundwater to several months’ meteorological drought in Poland

Autorzy

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Our article presents the results of research aimed at determining the effect of precipitation on the level of the groundwater table and the impact of meteorological drought on the hydrogeological groundwater level in the area of Kujawy and Wielkopolska in the years 1981-2015. Monthly sums of precipitation came from Bydgoszcz and Poznan. Underground water table levels were measured by the Geological Institute in the area of Kujawy, near Bydgoszcz (Solec Kujawski and Jagodowo) and in the area of Wielkopolska (Stęszew and Czachurki). The drought periods were determined on the basis of standardized precipitation index (SPI), meteorology drought, and standardized groundwater level (SGI) in four time scales (6, 12, 24, and 48 months). The results confirmed the findings of other authors that there is no linear relationship between the terms of meteorological drought and hydrogeological groundwater drought. The relatively low value of correlation coefficients between SPI and SGI indices show that the groundwater droughts are affected by other factors independent of rainfall. The relationships between the climatic conditions and the level of the water table as well as groundwater droughts were determined by the properties of the aquifer.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

28

Numer

1

Opis fizyczny

p.187-195,fig.,ref.

Twórcy

autor
  • Institute of Environmental Engineering, Wroclaw University of Environmental and Life Sciences, Wroclaw, Poland
autor
  • Institute of Technology and Life Sciences, Kuyavian-Pomeranian Research Center, Bydgoszcz, Poland

Bibliografia

  • 1. VAN LOON A.F., LAAHA G. Hydrological drought severity explained by climate and catchment characteristics. Journal of Hydrology 526, 3, 2015.
  • 2. BLUNDEN J., ARNDT D., BARINGER M. State of the Climate in 2010. Bulletin of the American Meteorological Society 92 (6), 2011.
  • 3. BURKE E.J., BROWN S.J., CHRISTIDIS N. Modeling the recent evolution of global drought and projections for the twenty-first century with the Hadley Centre climate model. Journal of Hydrometeorology 7 (5), 1113, 2006.
  • 4. BOCZOŃ A., KOWALSKA A., DUDZIŃSKA M., WRÓBEL M. Drought in Polish Forests in 2015. Polish Journal of Environmental Studies 25 (5), 1857, 2016.
  • 5. GARCIA-HERRERA R., DAZ J., TRIGO R.M., LUTERBACHERJ., FISCHER E.M. A review of the european summer heat wave of 2003. Critical Reviews in Environmental Science and Technology 40 (4), 267, 2010.
  • 6. HSIANG S.M., BURKEM, MIGUEL E. Quantifying the influence of climate on human conflict. Science 341, 1235367-1, 2013.
  • 7. LAKE P.S. X Drought and Aquatic Ecosystems: Effects and Responses. John Wiley & Sons, 2011.
  • 8. LEWIS S.L., BRANDO P.M., PHILLIPS O.L., VAN DER HEIJDEN G.M.F., NEPSTAD D. The 2010 Amazon drought. Science 331, 554, 2011.
  • 9. WHILHITE D.A. Drought as a natural hazard: Concepts and definitions. Drought: A Global Assessment 3-18, 2000.
  • 10. CARROLL N., FRIJTERS P., SHIELDS M.A. Quantifying the costs of drought: new evidence from life satisfaction data. Journal of Population Economics 22 (2), 445, 2009.
  • 11. HAYES M., SVOBODA M., WALL N., WIDHALM M. The Lincoln declaration on drought indices: universal meteorological drought index recommended, Bulletin of the American Meteorological Society 92 (4), 485, 2010.
  • 12. WHILHITE D.A., GLANTZ M.H. Understanding the drought phenomenon: the role of definitions. Water International 10 (3), 111, 1985.
  • 13. WHILHITE D.A. Drought: A Global Assessment, vols. I & II. Routledge Hazards and Disasters Series, Routledge, London, 2000.
  • 14. TALLAKSEN L.M., VAN LANEN H.A.J. Hydrological drought: processes and estimation methods for streamflow and groundwater. Developments in Water Science 48, The Elsevier Science B.V., 2004.
  • 15. MISHRA A.K., SINGH V.P. A review of drought concepts. Journal of Hydrology 391 (1-2), 202, 2010.
  • 16. LEHNER B., DOELL P., ALCAMO J. Estimating the impact of global change on flood and drought risks in Europe: A continental, integrated assesment. Climatic Change 75, 273, 2006.
  • 17. FEYEN L., DANKERS R. Impact of global warming on streamflow drought in Europe. Journal of Geophysical Research-Atmospheres 114, 2009.
  • 18. VAN LOON A.F. Hydrological drought explained, Wiley Interdisciplinary Reviews: Water 2 (4), 359, 2015.
  • 19. ŁABĘDZKI L., BĄK B., KANECKA-GESZKE E., KASPERSKA-WOŁOWICZ W., SMARZYŃSKA K. Relationship beetwen meteorological and agricultural drought in different agroclimatic regions in Poland. Woda-Środowisko-Obszary Wiejskie - Rozprawy naukowe i monografie – 25, ITP, 2008.
  • 20. BĄK B. Climatic conditions of Wielkopolska and Kujawy. Woda-Środowisko-Obszary Wiejskie 9, 14, 2004.
  • 21. WOŚ A. Klimat Niziny Wielkopolskiej. Wydawnictwo Naukowe UAM w Poznaniu. Poznań, 1994 [In Polish].
  • 22. WOŚ A. Klimat regionu środkowowielkopolskiego w świetle częstości występowania wybranych typów pogody i ich zmienności w latach 1951-2000. W: Józef Banaszak (red.) Stepowienie Wielkopolski pół wieku później. Wydawnictwo Akademii Bydgoskiej. Bydgoszcz, 2003 [In Polish].
  • 23. ILNICKI P., FARAT R., GORECKI K., LEWANDOWSKI P. Impact of climatic change on River discharge in the driest region of Poland. Hydrological Sciences Journal. 59 (5-6), 1117, 2014.
  • 24. ŁABĘDZKI L., BĄK B. Differentiation of the atmospheric drought index SPI in the vegetation period in Poland. Woda-Środowisko-Obszary Wiejskie 4, 2a (11), 111, 2004.
  • 25. MRUGAŁA S. Opady atmosferyczne o normalnej i anomalnej wysokości na obszarze Polski (1951-1990). Wydawnictwo UMCS. Rozpr. Habil. LXVI, 2001 [In Polish].
  • 26. BĄK B., ŁABĘDZKI L. Prediction of precipitation deficit and excess in Bydgoszcz Region in view of predicted climate change. Journal of Water and Land Development 23 (X–XII), 11, 2014.
  • 27. BARTCZAK A., GLAZIK R., TYSZKOWSKI S. Identification and evaluation of the intensity of dry periods in eastern part of Kujawy. Nauka Przyroda Technologie 8, 4, 46, 2014.
  • 28. BORDI I., FRAEDRICH K., SUTERA A. Observed drought and wetness trends in Europe: an update. Hydrology and Earth System Sciences 13, 1519, 2009.
  • 29. GÓRSKI J., PRZYBYŁEK J. Wpływ suszy w latach 1989-1992 na warunki eksploatacji infiltracyjnych ujęć wody w dolinie Warty. Współczesne Problemy Hydrologii VIII. 1, 1997 [In Polish].
  • 30. KAZIMIERSKI, B., CABALSKA J., MIKOŁAJCZYK A., PILICHOWSKA-KAZIMIERSKA E. Ocena zagrożenia suszą hydrogeologiczną (gruntową) na obszarze Polski. Materiały XVIII Ogólnopolskiego. Sympozjum Zintegrowanego Monitoringu Środowiska Przyrodniczego, Szymbar, 2009 [In Polish].
  • 31. Quarterly Bulletin of Groundwaters https://www.pgi.gov.pl/psh/psh-2/najnowsze-publikacje/5056-kwartalny-biuletyn-informacyjny-wod-podziemnych-tom-15-56-maj-2017-lipiec-2017/file.html (Access on 20.10.2017)
  • 32. Krajowy Zarząd Gospodarki Wodnej http://www.kzgw.gov.pl/index.php/pl/materialy-informacyjne/opracowanie-planow-przeciwdzialania-skutkom-suszy-na-obszarach-dorzeczy (Access on 20.10.2017)
  • 33. SZKUDLAREK Ł., STODOLAK R., KUBICZ J. Adaptacja projektu przeciwdziałania skutkom suszy do ogólnopolskich metodyk. Ekovert Łukasz Szkudlarek, 2015 [In Polish].
  • 34. STOLARSKA M., GURWIN J.P. Wskazanie obszarów występowania zjawiska suszy wraz z określeniem jej zasięgu i natężenia na terenie RZGW w Warszawie oraz analiza możliwości zwiększenia na wskazanych obszarach dyspozycyjności zasobów wodnych. Wind-hydro, 2014 [In Polish].
  • 35. GURWIN J. Long term monitoring and GIS based determination of groundwater drought propagation, the Lower Silesia region, SW Poland. Episodes 37 (3), 2014.
  • 36. ŁABĘDZKI L., BĄK B. Predicting meteorological and agricultural drought in the system of drought monitoring in Kujawy and the upper Noteć valley. Infrastruktura i Ekologia Terenów Wiejskich 5/2011, 19, 2011.
  • 37. VERMES L. How to work out a drought mitigation strategy. An ICID Guide. Guidelines for Water Management. Bonn: DVWK, 1998.
  • 38. LLOYD-HUGHES B., SAUNDERS M.A. A drought climatology for Europe. International Journal of Climatology 22, 1571, 2002.
  • 39. BHUIYAN C., SINGH R.P., KOGAN F.N. Monitoring drought dynamics in the Aravalli region (India) using different indices based on ground and remote sensing data, International Journal of Applied Earth Observations and Geoinformation, 8 (4), 289, 2006.
  • 40. BLOOMFIELD J. P., MARCHANT B. P. Analysis of groundwater drought building on the standardized precipitation index approach, Hydrology and Earth System Sciences 17, 4769, 2013.
  • 41. LI B., RODELL M. Evaluation of a model-based groundwater drought indicator in the conterminous U.S. Journal of Hydrology 526, 78, 2015.
  • 42. SENEVIRATNES. I., NICHOLLS N., EASTERLING D., GOODESSC., KANAE S., KOSSINJ., LUO Y., MARENGO J., MCINNES K., RAHIMI M., REICHSTEIN M., SORTEBERG A., VERA C., ZHANG X. Changes in climate extremes and their impacts on the natural physical environment, in: Managing the Risks of Extreme Events and Disasters to Advance Climate Change Adaptation. A Special Report of Working Groups I and II of the Intergovernmental Panel on Climate Change, 167, 2012.
  • 43. KUMAR R., MUSUUZA J.L., VAN LOON A.F., TEULING A.J., BARTHEL R., TEN BROEK J., MAI J., SAMANIEGO L., ATTINGER S. Multiscale evaluation of the standardized precipitation index as a groundwater drought indicator. Hydrology and Earth System Sciences 20, 1117, 2016.
  • 44. MOHAMMADI GHALENI M., EBRAHIMI K. Assessing impact of irrigation and drainage network on surface and groundwater resources – case study: Aaveh Plain, Iran. 21st International Congress on Irrigation and Drainage, Tehran: ICID, 15, 2011.
  • 45. KONDRACKI J. Geografia regionalna Polski, Wydawnictwo Naukowe PWN, Warszawa, 2002 [In Polish].
  • 46. GORĄCZKO M., KUBIAK-WÓJCICKA K. Komentarz do mapy hydrograficznej w skali 1:50000: arkusz N-34-97-C Bydgoszcz. Mapa Hydrograficzna Polski w skali 1:5000. Główny Geodeta Kraju, Warszawa, 2015 [In Polish].
  • 47. SKOWRON R., PIASECKI A. Komentarz do mapy hydrograficznej w skali 1:50000: arkusz N-34-97-A Pruszcz. Mapa Hydrograficzna Polski w skali 1:5000. Główny Geodeta Kraju, Warszawa, 2015 [In Polish].
  • 48. PACZYŃSKI B., SADURSKIA. Hydrogeologia regionalna Polski 1, Państwowy Instytut Geologiczny, Warszawa, 2007 [In Polish].
  • 49. Modele pojęciowe i charakterystyka JCWPd. Państwowy Monitoring Środowiska, Available online http://mjwp.gios.gov.pl/modele-pojeciowe-i-charakterystyka-jcwpd/modele-pojeciowe-i-charakterystyka-jcwpd.html (Access on 01.02.2017) [In Polish]
  • 50. PEREG M. Wahania zwierciadła wód gruntowych w dolinie Dolnej Wisły. Kwartalnik Geologiczny 31 (4), 755, 1997 [In Polish].
  • 51. DĄBROWSKI S., RYNARZEWSKI W., STRABURZYŃSKA-JANISZEWSKA R., ZACHAŚ-JANECKA J., PAWLAK A. The groundwater resources of hydrogeological system in the eastern Wielkopolska Lake Region. Biuletyn Państwowego Instytutu Geologicznego 445 (1), 75, 2011.
  • 52. BĄK B., KUBIAK-WÓJCICKA. Assessment of meteorological and hydrological drought in Torun (central Poland town) in 1971-2010 based on standardized indicators. 3rd International Conference: Water resources and wetlands. 8-10 September 2016, Tulcea, Romania, 2016.
  • 53. SHARMA T.C., PANU U.S. Prediction of hydrological drought durations based on Markov chains in the Canadian prairies. Hydrological Sciences Journal, 57 (4), 2012.
  • 54. ŁABĘDZKI L., BĄK B. Monitoring of droughts using the standardized precipitation index SPI. Woda-Środowisko-Obszary Wiejskie 2 (5), 9, 2002.
  • 55. BARKER L.J., HANNAFORD J., CHIVERTON A., SVENSSON C. From meteorological to hydrological drought using standardised indicators. Hydrology and Earth System Sciences. 20, 2483-2505, doi:10.5194/hess-20-2483-2016, 2016.
  • 56. EL AFANDI G., MORSY M., KAMEL A. Estimation of drought index over the northern coast of Egypt. IJSRSET, 2, 6, 2395, 2016.
  • 57. HUA XIE, RINGLER C., TINGJU Zh, WAQAS A. Droughts in Pakistan: a spatiotemporal variability analysis using the Standardized Precipitation Index. Water International, 38 (5), 620, 2013.
  • 58. LI B., RODELL M. Evaluation of a model-based groundwater drought indicator in the conterminous U.S., Journal of Hydrology 526, 78, 2015.
  • 59. NAM W. H., HAYES M. J., SVOBODAM. D., TADESSET., WILHITE D. A., Drought hazard assessment in the context of climate change for South Korea. Agricultural Water Management 160, 2015.
  • 60. PAULO A. A., PEREIRA L.S. Drought concepts and characterization. Comparing drought indices applied at local and regional scales. Water International, 31, 1, 37, 2006.
  • 61. STAGGE J. H., TALLAKSEN L. M., GUDMUNDSSON L., Van LOON A. F., STAHLE K. Candidate Distributions for Climatological Drought Indices (SPI and SPEI). Int. J. Climatol. 2015.
  • 62. TOKARCZYK T., SZALIŃSKA W. Combined analysis of precipitation and water deficit for drought hazard assessment. Hydrological Sciences Journal, 59 (9), 1675, 2014.
  • 63. ŠEBENIK U., BRILLY M., ŠRAJ M. Drought analysis using the standardized precipitation index (SPI). Acta geographica Slovenica, 57 (1), 31, 2017.
  • 64. VIDO J. TADESSE T., ŠUSTEK Z., KANDRÍK R., HANZELOVÁ M., ŠKVARENINA J., ŠKVARENINOVÁ J., HAYES M. Drought occurrence in central European mountainous region (Tatra National Park, Slovakia) within the period 1961-2010. Hindawi Publishing Corporation, Advances in Meteorology, 5, 2015.
  • 65. Standardized Precipitation Index User Guide. WMO, 1090, 2012.
  • 66. OZGA-ZIELIŃSKA M., BRZEZIŃSKI J. Hydrologia stosowana [Applied Hydrology]. Wyd. Naukowe PWN, 1994 [In Polish].
  • 67. VICENTE-SERRANO S. M., BEGUERÍA V., LORENZO-LACRUZ J., CAMARERO J. J., LÓPEZ-MORENO J. I., AZORIN-MOLINA C., REVUELTO J., MORÁN-TEJEDA E., SANCHEZ-LORENZO A. Performance of drought indices for ecological, agricultural, and hydrological applications. Earth Interactions, 16 (10), 1-27, 2012.
  • 68. Relationship of drought frequency and duration to time scales. Eighth Conference on Applied Climatology, Anaheim, California, 1993.
  • 69. BACHMAIR S., KOHN I., STAHL K. A quantitative analysis to objectively appraise drought indicators and model drought impacts. Hydrology and Earth System Sciences 12, 2015.
  • 70. CHAMANPIRA GH., ZEHTABIAN GH., AHMADI H., MALEKIAN A. Effect of Drought on Groundwater Resources; a Study to Optimize Utilization Management (Case Study: Alashtar Plain). Bulletin of Environment, Pharmacology and Life Sciences 3 (10), 48, 2014.
  • 71. KHAN S., GABRIEL H. F., RANA T. Standard precipitation index to track drought and assess impact of rainfall on water tables in irrigation areas. Irrigation and Drainage Systems, 2008.
  • 72. CHEN Z.H., GRASBY S.E., OSADETS K.G. Predicting average annual groundwater levels from climatic variables: An empirical model. Journal of Hydrology 260, 102, 2002.
  • 73. LEELARUBAN N., PADMANABHAN G., ODUOR P. Examining the Relationship between Drought Indices and Groundwater Levels. Water, 9 (2), 82, 2017.
  • 74. WHITTEMORE D.O., BUTLER J.J., WILSON B.B. Assessing the major drivers of water-level declines: New insights into the future of heavily stressed aquifers. Hydrological Sciences Journal 61, 134, 2016.

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