Diverse response of shallow lake water levels to decadal weather patterns in a heterogeneous glacial Boreal Plains landscape

Sam Leader; Nicholas Kettridge; David Hannah; C. Mendoza; K. J. Devito

doi:10.1002/hyp.15125

Diverse response of shallow lake water levels to decadal weather patterns in a heterogeneous glacial Boreal Plains landscape

Sam Leader^*, Nicholas Kettridge, David Hannah, C. Mendoza, K. J. Devito^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

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Abstract

To examine the relative controls of landscape and climate on spatial variability, we measured water level dynamics of shallow lakes over two decades that represent both the heterogeneity of surficial geology classifications, and thus the potential range in surface and groundwater connectivity, and the long‐term weather patterns of the Boreal Plain hydrogeoclimatic setting. Large ranges in shallow lakes water levels (between 0.25 and 2 m) were observed corresponding to extremes in precipitation relative to the long‐term mean precipitation over the study period. We found low concurrence in water level dynamics among four detailed study lakes that received the same meteorological weather signal, but were located in different surficial geology texture classifications that incorporated important landscape parameters associated with lake water balance and storage. Surficial geology classification alone did not, however, distinguish between different ranges in lake water level measured in a broader synoptic survey of 26 lakes across the region. Thus, simple surficial geology classifications cannot alone be applied to classify Boreal Plain lake water level dynamics and other controls, notably landscape position, must also be considered. We further show that inter‐annual variability in lake water levels was significantly greater than seasonal variability in this hydrogeoclimatic setting. This emphasizes the need for studies of sufficient length to capture weather extremes that include periods of wetting and drying, and demonstrates how observed magnitudes of water level variability, and lake function, can be an artefact of study length and initiation date. These findings provide a foundation to test and calibrate conceptual understanding of the wider controls of lake water levels to form holistic frameworks to mitigate ecological and societal impacts due to hydrological changes under climate and anthropogenic disturbance within and between hydrogeoclimatic settings.

Original language	English
Article number	e15125
Number of pages	21
Journal	Hydrological Processes
Volume	38
Issue number	4
Early online date	3 Apr 2024
DOIs	https://doi.org/10.1002/hyp.15125
Publication status	Published - Apr 2024

Bibliographical note

ACKNOWLEDGEMENTS
Funding was provided by Natural Sciences and Engineering Research Council of Canada Collaborative Research and Development Grants to KJD (CRD238050-00, CRDPJ337273-06, and CRDPJ477235-14) with industry partners Syncrude Canada, Canadian Natural Resources, AlPAc Forest Industries, Tolco Forest Ind., and Ducks Unlimited Canada Boreal Program, and by Natural Environment Research Council (NERC) funding to SL and NK through the Data Risk and Environmental Analytica Methods (DREAM) Centre for Doctoral Training. We thank Wayne Bell, Debbie Bryant and Gunther Tondilier for initial installation and monitoring and Kelly Hokanson, Mika Little-Devito, Sarah Percsadus, and Emily Pugh for long-term maintenance; and to Carolynn Forsyth for camp facilities at the ArtisInn.

Keywords

lake–landscape interaction
inter‐annual variability
sampling bias
water‐level dynamics
glacial lakes
surficial geology

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title = "Diverse response of shallow lake water levels to decadal weather patterns in a heterogeneous glacial Boreal Plains landscape",

abstract = "To examine the relative controls of landscape and climate on spatial variability, we measured water level dynamics of shallow lakes over two decades that represent both the heterogeneity of surficial geology classifications, and thus the potential range in surface and groundwater connectivity, and the long‐term weather patterns of the Boreal Plain hydrogeoclimatic setting. Large ranges in shallow lakes water levels (between 0.25 and 2 m) were observed corresponding to extremes in precipitation relative to the long‐term mean precipitation over the study period. We found low concurrence in water level dynamics among four detailed study lakes that received the same meteorological weather signal, but were located in different surficial geology texture classifications that incorporated important landscape parameters associated with lake water balance and storage. Surficial geology classification alone did not, however, distinguish between different ranges in lake water level measured in a broader synoptic survey of 26 lakes across the region. Thus, simple surficial geology classifications cannot alone be applied to classify Boreal Plain lake water level dynamics and other controls, notably landscape position, must also be considered. We further show that inter‐annual variability in lake water levels was significantly greater than seasonal variability in this hydrogeoclimatic setting. This emphasizes the need for studies of sufficient length to capture weather extremes that include periods of wetting and drying, and demonstrates how observed magnitudes of water level variability, and lake function, can be an artefact of study length and initiation date. These findings provide a foundation to test and calibrate conceptual understanding of the wider controls of lake water levels to form holistic frameworks to mitigate ecological and societal impacts due to hydrological changes under climate and anthropogenic disturbance within and between hydrogeoclimatic settings.",

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author = "Sam Leader and Nicholas Kettridge and David Hannah and C. Mendoza and Devito, {K. J.}",

note = "ACKNOWLEDGEMENTS Funding was provided by Natural Sciences and Engineering Research Council of Canada Collaborative Research and Development Grants to KJD (CRD238050-00, CRDPJ337273-06, and CRDPJ477235-14) with industry partners Syncrude Canada, Canadian Natural Resources, AlPAc Forest Industries, Tolco Forest Ind., and Ducks Unlimited Canada Boreal Program, and by Natural Environment Research Council (NERC) funding to SL and NK through the Data Risk and Environmental Analytica Methods (DREAM) Centre for Doctoral Training. We thank Wayne Bell, Debbie Bryant and Gunther Tondilier for initial installation and monitoring and Kelly Hokanson, Mika Little-Devito, Sarah Percsadus, and Emily Pugh for long-term maintenance; and to Carolynn Forsyth for camp facilities at the ArtisInn.",

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AU - Leader, Sam

AU - Kettridge, Nicholas

AU - Hannah, David

AU - Mendoza, C.

AU - Devito, K. J.

N1 - ACKNOWLEDGEMENTS Funding was provided by Natural Sciences and Engineering Research Council of Canada Collaborative Research and Development Grants to KJD (CRD238050-00, CRDPJ337273-06, and CRDPJ477235-14) with industry partners Syncrude Canada, Canadian Natural Resources, AlPAc Forest Industries, Tolco Forest Ind., and Ducks Unlimited Canada Boreal Program, and by Natural Environment Research Council (NERC) funding to SL and NK through the Data Risk and Environmental Analytica Methods (DREAM) Centre for Doctoral Training. We thank Wayne Bell, Debbie Bryant and Gunther Tondilier for initial installation and monitoring and Kelly Hokanson, Mika Little-Devito, Sarah Percsadus, and Emily Pugh for long-term maintenance; and to Carolynn Forsyth for camp facilities at the ArtisInn.

PY - 2024/4

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N2 - To examine the relative controls of landscape and climate on spatial variability, we measured water level dynamics of shallow lakes over two decades that represent both the heterogeneity of surficial geology classifications, and thus the potential range in surface and groundwater connectivity, and the long‐term weather patterns of the Boreal Plain hydrogeoclimatic setting. Large ranges in shallow lakes water levels (between 0.25 and 2 m) were observed corresponding to extremes in precipitation relative to the long‐term mean precipitation over the study period. We found low concurrence in water level dynamics among four detailed study lakes that received the same meteorological weather signal, but were located in different surficial geology texture classifications that incorporated important landscape parameters associated with lake water balance and storage. Surficial geology classification alone did not, however, distinguish between different ranges in lake water level measured in a broader synoptic survey of 26 lakes across the region. Thus, simple surficial geology classifications cannot alone be applied to classify Boreal Plain lake water level dynamics and other controls, notably landscape position, must also be considered. We further show that inter‐annual variability in lake water levels was significantly greater than seasonal variability in this hydrogeoclimatic setting. This emphasizes the need for studies of sufficient length to capture weather extremes that include periods of wetting and drying, and demonstrates how observed magnitudes of water level variability, and lake function, can be an artefact of study length and initiation date. These findings provide a foundation to test and calibrate conceptual understanding of the wider controls of lake water levels to form holistic frameworks to mitigate ecological and societal impacts due to hydrological changes under climate and anthropogenic disturbance within and between hydrogeoclimatic settings.

AB - To examine the relative controls of landscape and climate on spatial variability, we measured water level dynamics of shallow lakes over two decades that represent both the heterogeneity of surficial geology classifications, and thus the potential range in surface and groundwater connectivity, and the long‐term weather patterns of the Boreal Plain hydrogeoclimatic setting. Large ranges in shallow lakes water levels (between 0.25 and 2 m) were observed corresponding to extremes in precipitation relative to the long‐term mean precipitation over the study period. We found low concurrence in water level dynamics among four detailed study lakes that received the same meteorological weather signal, but were located in different surficial geology texture classifications that incorporated important landscape parameters associated with lake water balance and storage. Surficial geology classification alone did not, however, distinguish between different ranges in lake water level measured in a broader synoptic survey of 26 lakes across the region. Thus, simple surficial geology classifications cannot alone be applied to classify Boreal Plain lake water level dynamics and other controls, notably landscape position, must also be considered. We further show that inter‐annual variability in lake water levels was significantly greater than seasonal variability in this hydrogeoclimatic setting. This emphasizes the need for studies of sufficient length to capture weather extremes that include periods of wetting and drying, and demonstrates how observed magnitudes of water level variability, and lake function, can be an artefact of study length and initiation date. These findings provide a foundation to test and calibrate conceptual understanding of the wider controls of lake water levels to form holistic frameworks to mitigate ecological and societal impacts due to hydrological changes under climate and anthropogenic disturbance within and between hydrogeoclimatic settings.

KW - lake–landscape interaction

KW - inter‐annual variability

KW - sampling bias

KW - water‐level dynamics

KW - glacial lakes

KW - surficial geology

U2 - 10.1002/hyp.15125

DO - 10.1002/hyp.15125

M3 - Article

C2 - 32441408

SN - 0885-6087

VL - 38

JO - Hydrological Processes

JF - Hydrological Processes

IS - 4

M1 - e15125

ER -

Diverse response of shallow lake water levels to decadal weather patterns in a heterogeneous glacial Boreal Plains landscape

Abstract

Bibliographical note

Keywords

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