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Human Impact on Water Circulation Patterns in Raised Bogs of the Baltic Type, Northern Poland

Author

Listed:
  • Zuzanna Lipińska

    (Department of Hydrology, Faculty of Oceanography and Geography, University of Gdańsk, 80-952 Gdańsk, Poland)

  • Roman Cieśliński

    (Department of Hydrology, Faculty of Oceanography and Geography, University of Gdańsk, 80-952 Gdańsk, Poland)

  • Marlena Pawłowska

    (Department of Hydrology, Faculty of Oceanography and Geography, University of Gdańsk, 80-952 Gdańsk, Poland)

  • Izabela Chlost

    (Department of Hydrology, Faculty of Oceanography and Geography, University of Gdańsk, 80-952 Gdańsk, Poland)

  • Łukasz Pietruszyński

    (Department of Hydrology, Faculty of Oceanography and Geography, University of Gdańsk, 80-952 Gdańsk, Poland)

Abstract

Raised bogs of the Baltic type are unique because of their geomorphologic structure and hydrologic conditions. There are about 80 bogs of this type in Poland. All are affected by human impact, and their water circulation patterns are disrupted by artificial outflows. The aim of the study was to show the effects of human impact on water circulation patterns in raised bog on an example of the Wielkie Bagno peat bog. The main work consisted of field studies, during which measurements of groundwater fluctuations, flows at main outflows, and hydrographic mapping were performed. Data on precipitation and evaporation were also obtained from state institutions. Research has shown that fluctuations in groundwater levels in the Wielkie Bagno bog average 78 cm per year (hydrological years 2018–2019) and the bog is in poor condition. This is mainly due to climate change, which manifests itself in too little precipitation in summer and an increase in evaporation, a too dense drainage network causing the lowering of the groundwater level in the peat bog, and the close proximity of a peat mine causing significant drainage of water from the examined peat bog, as well as too large fluctuations of groundwater during the year and in individual months. In some areas, a near-surface layer of the bog was also detected, about 30 cm thick, which is a sign of bog desiccation (especially in summer). Water balance data were used to show that the quantity of water available in the bog is determined by atmospheric precipitation, which is too small in the warm period. As a consequence, there are months with a negative climatic balance. It was also observed that factors such as physical location in different parts of the bog and the degree of degradation also affect water circulation patterns in the study area. At the moment, the most important task in the peat bog is to raise the groundwater level, reduce its fluctuations, and reduce human pressure on the bog.

Suggested Citation

  • Zuzanna Lipińska & Roman Cieśliński & Marlena Pawłowska & Izabela Chlost & Łukasz Pietruszyński, 2023. "Human Impact on Water Circulation Patterns in Raised Bogs of the Baltic Type, Northern Poland," Sustainability, MDPI, vol. 15(16), pages 1-25, August.
    • Handle: RePEc:gam:jsusta:v:15:y:2023:i:16:p:12277-:d:1215371
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    References listed on IDEAS

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    1. J. Loisel & A. V. Gallego-Sala & M. J. Amesbury & G. Magnan & G. Anshari & D. W. Beilman & J. C. Benavides & J. Blewett & P. Camill & D. J. Charman & S. Chawchai & A. Hedgpeth & T. Kleinen & A. Korhol, 2021. "Author Correction: Expert assessment of future vulnerability of the global peatland carbon sink," Nature Climate Change, Nature, vol. 11(4), pages 362-362, April.
    2. Yuanyuan Huang & Phillipe Ciais & Yiqi Luo & Dan Zhu & Yingping Wang & Chunjing Qiu & Daniel S. Goll & Bertrand Guenet & David Makowski & Inge Graaf & Jens Leifeld & Min Jung Kwon & Jing Hu & Laiye Qu, 2021. "Tradeoff of CO2 and CH4 emissions from global peatlands under water-table drawdown," Nature Climate Change, Nature, vol. 11(7), pages 618-622, July.
    3. J. Loisel & A. V. Gallego-Sala & M. J. Amesbury & G. Magnan & G. Anshari & D. W. Beilman & J. C. Benavides & J. Blewett & P. Camill & D. J. Charman & S. Chawchai & A. Hedgpeth & T. Kleinen & A. Korhol, 2021. "Expert assessment of future vulnerability of the global peatland carbon sink," Nature Climate Change, Nature, vol. 11(1), pages 70-77, January.
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