Groundwater recharge over the past 100 years: Regional spatiotemporal assessment and climate change impact over the Saguenay-Lac-Saint-Jean region, Canada

Boumaiza, Lamine; Walter, Julien; Chesnaux, Romain; Lambert, M�lanie; Jha, Madan Kumar; Wanke, Heike; Brookfield, Andrea; Batelaan, Okke; Galv�o, Paulo; Laftouhi, Nour?Eddine; Stumpp, Christine

doi:10.1002/hyp.14526

Groundwater recharge over the past 100 years: Regional spatiotemporal assessment and climate change impact over the Saguenay-Lac-Saint-Jean region, Canada

Boumaiza, Lamine; Walter, Julien; Chesnaux, Romain; Lambert, M�lanie; Jha, Madan Kumar; Wanke, Heike; Brookfield, Andrea; Batelaan, Okke; Galv�o, Paulo; Laftouhi, Nour?Eddine; Stumpp, Christine

Authors

Lamine Boumaiza

Julien Walter

Romain Chesnaux

M�lanie Lambert

Madan Kumar Jha

Heike Wanke Heike.Wanke@uwe.ac.uk
Senior Lecturer in Geology

Andrea Brookfield

Okke Batelaan

Paulo Galv�o

Nour?Eddine Laftouhi

Christine Stumpp

Abstract

Proper knowledge of potential groundwater recharge (PGR) and its spatiotemporal distribution are essential for sustainable groundwater management, especially within the context of climate change. Here, a robust GIS-based water budget framework was developed to estimate PGR at a regional scale and map its spatial distribution. This framework is demonstrated over the Saguenay-Lac-Saint-Jean region (13 200 km2) of Quebec (Canada). The PGR mapping process was based on a model incorporating water budget components. The vertical inflows (VI) include water amounts from rainfall and snowmelt, whereby the latter was assessed using HYDROTEL model. VI were combined with the maximum and minimum temperatures to estimate actual evapotranspiration (AET), while the surface runoff (RuS) was assessed using the curve number method. Field observations of annual variation in temperatures and the water budget components, over a period of 100 years (1910–2009), were used to provide a comprehensive overview of the effects of climate change on PGR. The last 10 years of the observation period (i.e., 2000–2009) indicate that 6% of the study area has PGR rates of 35%–50%. PGR rates of 20%–35% occur in 58% of the study area, while 36% have PGR of 5%–20%. The trend analysis of temperature time series reveals an average of 1.1 ± 0.6°C increase over 100 years. Also, an increase in the water budget components is observed. Despite the increasing trends of RuS and AET, PGR still showed an increasing trend with an average increase of 0.7 ± 0.4 mm/year over the past 100 years. This observation indicates that the increase in VI was enough to compensate for the increases in AET and RuS. This finding of an increasing PGR in the study area provides useful information for future studies focusing on predicting long-term PGR evolution and for the development of efficient long-term groundwater management strategies.

Citation

Boumaiza, L., Walter, J., Chesnaux, R., Lambert, M., Jha, M. K., Wanke, H., …Stumpp, C. (2022). Groundwater recharge over the past 100 years: Regional spatiotemporal assessment and climate change impact over the Saguenay-Lac-Saint-Jean region, Canada. Hydrological Processes, 36(3), Article e14526. https://doi.org/10.1002/hyp.14526

Journal Article Type	Article
Acceptance Date	Feb 14, 2022
Online Publication Date	Feb 17, 2022
Publication Date	2022-03
Deposit Date	Mar 31, 2022
Publicly Available Date	Feb 18, 2023
Journal	Hydrological Processes
Print ISSN	0885-6087
Electronic ISSN	1099-1085
Publisher	Wiley
Peer Reviewed	Peer Reviewed
Volume	36
Issue	3
Article Number	e14526
DOI	https://doi.org/10.1002/hyp.14526
Keywords	Water Science and Technology
Public URL	https://uwe-repository.worktribe.com/output/9094226
Additional Information	Received: 2021-10-04; Accepted: 2022-02-14; Published: 2022-02-17

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This is the peer reviewed version of the following article: Boumaiza, L., Walter, J., Chesnaux, R., Lambert, M., Jha, M. K., Wanke, H., …Stumpp, C. (2022). Groundwater recharge over the past 100 years: Regional spatiotemporal assessment and climate change impact over the Saguenay‐Lac‐Saint‐Jean region, Canada. Hydrological Processes, 36(3), https://doi.org/10.1002/hyp.14526, which has been published in final form at https://doi.org/10.1002/hyp.14526.

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