Quantifying groundwater fluxes from an aapa mire to a riverside esker formation
H. Marttila; Aurela, M.; Büngener, L.; Rossi, P. M.; Lohila, A.; Postila, H.; Saari, M.; Penttilä, T.; Kløve, B. (2021-04-01)
H. Marttila, M. Aurela, L. Büngener, P. M. Rossi, A. Lohila, H. Postila, M. Saari, T. Penttilä, B. Kløve; Quantifying groundwater fluxes from an aapa mire to a riverside esker formation. Hydrology Research 1 April 2021; 52 (2): 585–596. doi: https://doi.org/10.2166/nh.2021.064
© 2021 The Authors. This is an Open Access article distributed under the terms of the Creative Commons Attribution Licence (CC BY-NC-ND 4.0), which permits copying and redistribution for non-commercial purposes with no derivatives, provided the original work is properly cited (http://creativecommons.org/licenses/by-nc-nd/4.0/)
https://creativecommons.org/licenses/by-nc-nd/4.0/
https://urn.fi/URN:NBN:fi-fe2021060834715
Tiivistelmä
Abstract
Water flows in peatland margins is an under-researched topic. This study examines recharge from a peatland to an esker aquifer in an aapa mire complex of northern Finland. Our objective was to study how the aapa mire margin is hydrogeologically connected to the riverside aquifer and spatial and temporal variations in the recharge of peatland water to groundwater (GW). Following geophysical studies and monitoring of the saturated zone, a GW model (MODFLOW) was used in combination with stable isotopes to quantify GW flow volumes and directions. Peatland water recharge to the sandy aquifer indicated a strong connection at the peatland–aquifer boundary. Recharge volumes from peatland to esker were high and rather constant (873 m³ d⁻¹) and dominated esker recharge at the study site. The peat water recharging the esker boundary was rich in dissolved organic carbon (DOC). Stable isotope studies on water (δ¹⁸O, δ²H, and d-excess) from GW wells verified the recharge of DOC-rich water from peatlands to mineral soil esker. Biogeochemical analysis revealed changes from DOC to dissolved inorganic carbon in the flow pathway from peatland margin to the river Kitinen. This study highlights the importance of careful investigation of aapa mire margin areas and their potential role in regional GW recharge patterns.
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