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Water Storage Changes in Upper Soil Layers in Different Forest Habitats

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Trends in changes of water storage in upper soil layers were analyzed. The observations were carried out from 2002 to 2016 hydrological year in a small forest catchment in the district of Siemianice Forest Experimental Farm (LZD). The samples were taken from the upper soil layer of profiles located in different forest habitats, both at the beginning and at the end of hydrological half-years. Water storage was evaluated separately for two layers at the depths of 0–15 cm and 15–100 cm. Changes in water storage determined using the Mann-Kendall test were found to indicate multi-year trends. Results of the study are inconclusive. There were no statistically significant long-term trends in water storage changes in soil profiles in moist mixed broadleaved and coniferous forest and also in the soil profiles of fresh habitats. However, it is worth noting that statistically significant downward trends of water storage in two soil profiles located in ash alder swamp forest and moist broadleaved forest were observed. To some degree, they can be accounted for by long-term downward trends of ground-water levels in the area.
Rocznik
Strony
152--159
Opis fizyczny
Bibliogr. 18 poz., rys., tab.
Twórcy
autor
  • Institute of Land Improvement, Environmental Development and Geodesy, Faculty of Environmental Engineering and Spatial Management, Poznań University of Life Sciences, Piątkowska 94, 60-649 Poznań, Poland, stasikr@up.poznan.pl
autor
  • Institute of Land Improvement, Environmental Development and Geodesy, Faculty of Environmental Engineering and Spatial Management, Poznań University of Life Sciences, Piątkowska 94, 60-649 Poznań, Poland, basia.kesicka@gmail.com
Bibliografia
  • 1. Czernecki B., Miętus M. 2011. Comparison of thermal classification for selected regions of Poland, 201-233 [in Polish].
  • 2. Gilbert R. O. 1987. Statistical method for environmental pollution monitoring, chapt. 16.4 Mann-Kendall Test, 208-217.
  • 3. Grajewski, S. (2013). Thermal conditions in the Zielonka Forest in the period 1987-2008. Nauka Przyroda Technologie, 7(1), 9 [in Polish].
  • 4. Grajewski S., Miler A. T., Krysztofiak-Kaniewska A. 2013. Changes of groundwater levels in the Zielonka Forest in period 1970–2009, Annual Set The Environment Protection (Rocznik Ochrony Środowiska), 15(cz. 2), 1594-1611 [in Polish].
  • 5. Hirsch R. M., Slack J. R., Smith R. A. 1982. Techniques of trend analysis for monthly water quality data, Water Resources Researches, vol. 18, no. 1, 107-121.
  • 6. Hodnett M. G., Da Silva L. P., Da Rocha H. R., Senna R. C. (1995). Seasonal soil water storage changes beneath central Amazonian rainforest and pasture. Journal of hydrology, 170(1–4), 233-254.
  • 7. Kędziora A., Kępińska-Kasprzak M., Kowalczak P., Kundziewicz Z. W., Miler A. T., Pierzgalski E., Tokarczyk T. 2014. Risks resulting from water shortages, Nauka 2014/1, 149-172 [in Polish].
  • 8. Komisarek J., Kozłowski M., Wiatrowska K. 2008. Deficiencies of plant available water in soil catena of undulating ground moraine. Nauka Przyroda Technologie, 2(3), 23.
  • 9. Kondracki J. 2011. Regional geography of Poland. Wydawnictwo Naukowe PWN Warszawa, 444 ss. [in Polish].
  • 10. Liberacki D., Szafrański C. 2013. Trends in level of the groundwater table in the selected catchments in the Zielonka Forest. Annual Set The Environment Protection (Rocznik Ochrony Środowiska), 15, 2425-2436 [in Polish].
  • 11. Maksymiuk A., Furmańczyk K., Ignar S., Krupa J, Okruszko T. 2008. Analysis of climatic and hydrologic parameters variability in the Biebrza River basin, Przegląd naukowy Inżynieria i Kształtowanie Środowiska nr 3 (41), 59-68.
  • 12. Soil-Habitat Assessment of LZD Siemianice. 1999. Zakład Usług Ekologicznych i Urządzeniowo Leśnych Poznań [in Polish].
  • 13. Stasik R., Korytowski M., Liberacki D. 2016. Trends in groundwater level changes in small forest catchments of Wielkopolska. Journal of Ecological Engineering, 17(4), 99-106.
  • 14. Szafrański Cz. 1993. Water management of rich relief area and needs of its reclamation. Rocz. AR Poznań. Rostr. Nauk. 244 ss [in Polish].
  • 15. Tomaszewska T. 1994. Atmospheric droughts in the last four decades. In Mat. konf. XXV Zjazdu Agrometeorologów, Olsztyn-Mierki (169-178) [in Polish].
  • 16. Yeh P. J. F., Swenson S. C., Famiglietti J. S., Rodell M. (2006). Remote sensing of groundwater storage changes in Illinois using the Gravity Recovery and Climate Experiment (GRACE). Water Resources Research, 42(12).
  • 17. Zielony R., Kliczkowska A. 2012. Natural-forest regionalization of Poland 2010. Centrum Informacyjne Lasów Państwowych. Warszawa, 356 ss [in Polish].
  • 18. www.bdl.lasy.gov.pl/portal/mapy
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-04a8fbe5-f1ca-47a0-8626-c7530b6b538b
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