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Model for the Volume-Area-Depth Relations of Midfield Ponds using LiDAR

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Small midfield ponds have important functions in the hydrology and ecology of hummocky areas of Poland. Because of their sensitivity to meteorological conditions, their number and hydroperiod are altered as a result of climate changes and agriculture pressure. Accurate estimation of the pond area and storage capacities requires up-to-date high-resolution elevation data. In this paper, we developed 0.2 m and 1.0 m bare-earth DEMs from LiDAR data and compared them with DEMs obtained from old bathymetric maps. Then, we calculated A-h and V-h relations and compared them with the relations derived from simplified models describing the pond shape. The analyses showed that LiDAR data are also useful for detecting changes in the ponds morphometry.
Słowa kluczowe
EN
Rocznik
Strony
36--42
Opis fizyczny
Bibliogr. 22 poz.
Twórcy
autor
  • Department of Land Improvement, Environmental Development and Geodesy, Poznan University of Life Sciences, 60-649 Poznań, ul. Piątkowska 94C, Poland, fiedler@up.poznan.pl
autor
  • Department of Land Improvement, Environmental Development and Geodesy, Poznan University of Life Sciences, 60-649 Poznań, ul. Piątkowska 94C, Poland
  • Department of Land Improvement, Environmental Development and Geodesy, Poznan University of Life Sciences, 60-649 Poznań, ul. Piątkowska 94C, Poland
autor
  • Department of Land Improvement, Environmental Development and Geodesy, Poznan University of Life Sciences, 60-649 Poznań, ul. Piątkowska 94C, Poland
Bibliografia
  • 1. Büllow-Olsen A., 1988: Disappearance of ponds and lakes in southern Jutland, Denmark. Ecological Bulletin 39, 180-182.
  • 2. Drwal l., Lange W., 1985: Niektóre limnologiczne odrębności oczek. Zeszyty Naukowe Wydziału Biologii i Nauk o Ziemi Uniwersytetu Gdańskiego, Geografia 6, 69-83.
  • 3. Conrad O., Bechtel B., Bock M., Dietrich H., Fischer E., Gerlitz L., Wehberg J., Wichmann V., Boehner J., 2015: System for Automated Geoscientific Analyses (SAGA) v. 2.1.4. Geoscientific Model Development, 8, 1991-2007, doi:10.5194/gmd-8–1991–2015.
  • 4. Fiedler M., 2011: Gospodarka wodna mikrozlewni rolniczych z występującymi oczkami wodnymi na Pojezierzu Gnieźnieńskim. Rozprawy naukowe 425, 106 pp.
  • 5. Hayashi M., van der Kamp G., Rudolph D.L., 1981: Water and solute transfer between a prairie wetland and adjacent uplands, 1. Water balance. Journal of Hydrology 207, 42-55.
  • 6. Hayashi M., van der Kamp G., 2000: Simple equations to represent the volume-area-depth relations of the shallow wetlands in small topographic depressions. Journal of Hydrology 237, 74-85.
  • 7. Huang S., Young C., Feng M., Heidemann K., Cushing M., Mushet D.M., Liu S., 2011: Demonstration of a conceptual model for using LiDAR to improve the estimation of floodwater mitigation potential of Prairie Pothole Region wetlands. Journal of Hydrology 405, 417-426, doi:10.1016/j.jhydrol.2011.05.040.
  • 8. Huang S., Young C., Abdul-Aziz O.I., Dahal D., Feng M., 2013: Simulating the water budget of Prairie Potholes complex from LIDAR and hydrological models in North Dakota, USA, Hydrological Sciences Journal, 58:7, 1434-1444, doi: 10.1080/02626667.2013.831419.
  • 9. Johnson W. C., Werner B., Guntenspergen G.R., Voldseth R.A., Millett B., Naugle D.E., Tulbure M., Carroll R.W. H., Tracy J., Olawsky C. 2010: Prairie wetland complexes as landscape functional units in a changing climate. BioScience 60(2), 128-140, doi.org/10.1525/bio.2010.60.2.7
  • 10. Korytowski M., Szafrański Cz., 2014: Zmiany składników bilansu wodnego śródleśnego oczka wodnego w latach o różnym przebiegu warunków meteorologicznych. Inżynieria Ekologiczna nr 39, 85-94.
  • 11. LaBaugh J.W., Winter T.C., Rosenberry D.O., 1998: Hydrologic functions of prairie wetlands. Great Plains Research 8, 17-37.
  • 12. Lutze G., Kiesel J., Kalettka T., 2006: Charakteristische Ausstattungselemente von Jungmoränenlandschaften – dargestellt am Beispiel von Ackerhohlformen und Flurgehölzen in der Ziethener Moränenlandschaft. In: Landschaft beobachten, nutzen und schützen. Ed. G. Lutze, A. Schultz, K.O. Wenkel. Teubner Verlag, Wiesbaden, 219-235.
  • 13. Major M., Cieśliński R., 2015: Retentivity as an indicator of the capacity of basins without an outlet to accumulate water surpluses. Polish Journal of Environmental studies 24 (6), 2503-2514, doi:10.15244/pjoes/58650.
  • 14. Meyboom P., 1966: Unsteady groundwater flow near a willow ring in hummocky moraine. Journal of Hydrology 4, 38-62.
  • 15. Millar J.B., 1971: Shoreline-area ratio as a factor in rate of water loss from small sloughs. Journal of Hydrology 14(3-4), 259-284.
  • 16. Niemuth N.D., Wangler B., Reynolds R.E., 2010: Spatial and temporal variation in wet area of wetlands in the Prairie Pothole Region of North Dakota and South Dakota. Wetlands 30:1053-1064, doi: 10.1007/s13157-010-0111-1.
  • 17. Sibbett N., 1999: The distribution and abundance of ponds in Suffolk. English Nature research report 333, 23 pp.
  • 18. van der Kamp G., Hayashi M., 2009: Groundwater-wetland ecosystem interaction in the semiarid glaciated plains of North America. Hydrogeology Journal 17(1), 203-214.
  • 19. van der Valk A.G., 2005: Water level fluctuations in North American prairie wetlands. Hydrobiologia 539(1), 171-188.
  • 20. Whittow J., 1984: Dictionary of Physical Geography. London: Penguin, p. 133. ISBN 0-14-051094-X.
  • 21. Winter T.C., Rosenberry D.O., 1998: Hydrology of prairie pothole wetlands during drought an deluge: a 17-year study of the Cottonwood Lake wetland complex in North Dakota in the perspective of longer term measured and proxy hydrological records. Climate Change 40(2), 189-209.
  • 22. Zhang B., Schwartz F.W., Liu G., 2009: Systematics in the size structure of prairie pothole lakes through drought an deluge. Water Resources Research 45, doi:10.1029/2008WR006878.
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-68915438-3173-4394-a998-6a002ccd626e
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