Mire Development and Disappearance due to River Capture as Hydrogeological and Geomorphological Consequences of LGM Ice-Marginal Valley Evolution at the Vistula-Neman Watershed

Mire Development and Disappearance due to River Capture as Hydrogeological and Geomorphological Consequences of LGM Ice-Marginal Valley Evolution at the Vistula-Neman Watershed

The advances and retreats of ice sheets during Pleistocene significantly changed high- and mid-latitude landscapes and hydrological systems, albeit differently, in North America and Europe. On the southern margin of the Last Glacial Maximum (LGM) in the Baltic Sea basin, a specific type of valley ha...

Full description

Bibliographic Details
Main Authors: Grzegorz Wierzbicki, Mateusz Grygoruk, Maria Grodzka-Łukaszewska, Piotr Bartold, Tomasz Okruszko
Format: Article
Language:English
Published: MDPI AG 2020-09-01
Series:Geosciences
Subjects:
wetland
fluvioglacial
glaciofluvial
ice lobe
bifurcation
Belarus
Online Access:https://www.mdpi.com/2076-3263/10/9/363
id doaj-b295a22701c34256b20ed6241b4d97a5
record_format Article
spelling doaj-b295a22701c34256b20ed6241b4d97a52020-11-25T01:26:23ZengMDPI AGGeosciences2076-32632020-09-011036336310.3390/geosciences10090363Mire Development and Disappearance due to River Capture as Hydrogeological and Geomorphological Consequences of LGM Ice-Marginal Valley Evolution at the Vistula-Neman WatershedGrzegorz Wierzbicki0Mateusz Grygoruk1Maria Grodzka-Łukaszewska2Piotr Bartold3Tomasz Okruszko4Institute of Environmental Engineering, Warsaw University of Life Sciences SGGW-WULS, ul. Nowoursynowska 166, 02-787 Warsaw, PolandInstitute of Environmental Engineering, Warsaw University of Life Sciences SGGW-WULS, ul. Nowoursynowska 166, 02-787 Warsaw, PolandFaculty of Building Services, Hydro and Environmental Engineering, Warsaw University of Technology, ul. Nowowiejska 20, 00-653 Warsaw, PolandInstitute of Environmental Engineering, Warsaw University of Life Sciences SGGW-WULS, ul. Nowoursynowska 166, 02-787 Warsaw, PolandInstitute of Environmental Engineering, Warsaw University of Life Sciences SGGW-WULS, ul. Nowoursynowska 166, 02-787 Warsaw, PolandThe advances and retreats of ice sheets during Pleistocene significantly changed high- and mid-latitude landscapes and hydrological systems, albeit differently, in North America and Europe. On the southern margin of the Last Glacial Maximum (LGM) in the Baltic Sea basin, a specific type of valley has developed between glacial margins and upland or mountain slopes. We studied new geological data (boreholes, electrical resistivity imaging (ERI) from this geomorphic setting in Northeast Poland to understand: (1) how the landscape and river network evolved to eventually produce peat mires during the Holocene, and (2) the nature of groundwater recharge to fens in the upper Biebrza Valley. We present the results on a geological cross-section with hydrogeological interpretation. We also discuss regional geomorphology. In addition, we present the LGM extent derived from a spatial distribution of Vistulian (Weichselian) terminal moraines. These end moraines are also interpreted as Saalian kames. Thus, we additionally present another method of LGM extent delineation from a physicogeographical division. We link the steep slopes of the studied valley walls (kame terrace fronts) with thermokarst erosion in the periglacial zone. We then document the hydrogeological window (DISCONTINUITY in the till layer over the confined aquifer), which enables the outflow of groundwater into the peat bog. Although minerotrophic fen mire development in the study area is likely to be sustained in the near future through sufficient groundwater supply, the projected capture of the Biebrza River by the Neman River will not allow for sustaining peatland development.https://www.mdpi.com/2076-3263/10/9/363wetlandfluvioglacialglaciofluvialice lobebifurcationBelarus
collection DOAJ
language English
format Article
sources DOAJ
author Grzegorz Wierzbicki
Mateusz Grygoruk
Maria Grodzka-Łukaszewska
Piotr Bartold
Tomasz Okruszko
spellingShingle Grzegorz Wierzbicki
Mateusz Grygoruk
Maria Grodzka-Łukaszewska
Piotr Bartold
Tomasz Okruszko
Mire Development and Disappearance due to River Capture as Hydrogeological and Geomorphological Consequences of LGM Ice-Marginal Valley Evolution at the Vistula-Neman Watershed
Geosciences
wetland
fluvioglacial
glaciofluvial
ice lobe
bifurcation
Belarus
author_facet Grzegorz Wierzbicki
Mateusz Grygoruk
Maria Grodzka-Łukaszewska
Piotr Bartold
Tomasz Okruszko
author_sort Grzegorz Wierzbicki
title Mire Development and Disappearance due to River Capture as Hydrogeological and Geomorphological Consequences of LGM Ice-Marginal Valley Evolution at the Vistula-Neman Watershed
title_short Mire Development and Disappearance due to River Capture as Hydrogeological and Geomorphological Consequences of LGM Ice-Marginal Valley Evolution at the Vistula-Neman Watershed
title_full Mire Development and Disappearance due to River Capture as Hydrogeological and Geomorphological Consequences of LGM Ice-Marginal Valley Evolution at the Vistula-Neman Watershed
title_fullStr Mire Development and Disappearance due to River Capture as Hydrogeological and Geomorphological Consequences of LGM Ice-Marginal Valley Evolution at the Vistula-Neman Watershed
title_full_unstemmed Mire Development and Disappearance due to River Capture as Hydrogeological and Geomorphological Consequences of LGM Ice-Marginal Valley Evolution at the Vistula-Neman Watershed
title_sort mire development and disappearance due to river capture as hydrogeological and geomorphological consequences of lgm ice-marginal valley evolution at the vistula-neman watershed
publisher MDPI AG
series Geosciences
issn 2076-3263
publishDate 2020-09-01
description The advances and retreats of ice sheets during Pleistocene significantly changed high- and mid-latitude landscapes and hydrological systems, albeit differently, in North America and Europe. On the southern margin of the Last Glacial Maximum (LGM) in the Baltic Sea basin, a specific type of valley has developed between glacial margins and upland or mountain slopes. We studied new geological data (boreholes, electrical resistivity imaging (ERI) from this geomorphic setting in Northeast Poland to understand: (1) how the landscape and river network evolved to eventually produce peat mires during the Holocene, and (2) the nature of groundwater recharge to fens in the upper Biebrza Valley. We present the results on a geological cross-section with hydrogeological interpretation. We also discuss regional geomorphology. In addition, we present the LGM extent derived from a spatial distribution of Vistulian (Weichselian) terminal moraines. These end moraines are also interpreted as Saalian kames. Thus, we additionally present another method of LGM extent delineation from a physicogeographical division. We link the steep slopes of the studied valley walls (kame terrace fronts) with thermokarst erosion in the periglacial zone. We then document the hydrogeological window (DISCONTINUITY in the till layer over the confined aquifer), which enables the outflow of groundwater into the peat bog. Although minerotrophic fen mire development in the study area is likely to be sustained in the near future through sufficient groundwater supply, the projected capture of the Biebrza River by the Neman River will not allow for sustaining peatland development.
topic wetland
fluvioglacial
glaciofluvial
ice lobe
bifurcation
Belarus
url https://www.mdpi.com/2076-3263/10/9/363
work_keys_str_mv AT grzegorzwierzbicki miredevelopmentanddisappearanceduetorivercaptureashydrogeologicalandgeomorphologicalconsequencesoflgmicemarginalvalleyevolutionatthevistulanemanwatershed
AT mateuszgrygoruk miredevelopmentanddisappearanceduetorivercaptureashydrogeologicalandgeomorphologicalconsequencesoflgmicemarginalvalleyevolutionatthevistulanemanwatershed
AT mariagrodzkałukaszewska miredevelopmentanddisappearanceduetorivercaptureashydrogeologicalandgeomorphologicalconsequencesoflgmicemarginalvalleyevolutionatthevistulanemanwatershed
AT piotrbartold miredevelopmentanddisappearanceduetorivercaptureashydrogeologicalandgeomorphologicalconsequencesoflgmicemarginalvalleyevolutionatthevistulanemanwatershed
AT tomaszokruszko miredevelopmentanddisappearanceduetorivercaptureashydrogeologicalandgeomorphologicalconsequencesoflgmicemarginalvalleyevolutionatthevistulanemanwatershed
_version_ 1725109175477862400

Similar Items