Climate-driven hydrological sensitivity in Estonian catchments: a northern temperate perspective

Climate-driven hydrological sensitivity in Estonian catchments: a northern temperate perspective

The escalating impacts of global climate change significantly affect regional hydrological systems, particularly in northern areas such as Estonia. This study investigates the hydrological sensitivity of Estonian catchments to climatic variability, focusing on the interplay between surface water and...

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Bibliographic Details
Main Authors: Oliver Koit, Joonas Pärn, Marlen Hunt, Siim Tarros, Elve Lode, Pamela Abreldaal
Format: Article
Language:English
Published: Estonian Academy Publishers 2024-12-01
Series:Estonian Journal of Earth Sciences
Subjects:
hydrological sensitivity
surface water/groundwater interaction
autocorrelation function (acf)
cross-correlation function (ccf)
baseflow index (bfi)
flow duration curve (fdc)
climate change
Online Access:https://kirj.ee/wp-content/plugins/kirj/pub/earth-1-2025-1-21_20241217111043.pdf
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Summary:The escalating impacts of global climate change significantly affect regional hydrological systems, particularly in northern areas such as Estonia. This study investigates the hydrological sensitivity of Estonian catchments to climatic variability, focusing on the interplay between surface water and groundwater. Using data from 42 river catchments, it employs various statistical methods in hydrology, emphasizing the autocorrelation function, cross-correlation function, baseflow index, and flow duration curve. The analysis spans the years 2012â2022, integrating hydrological, spatial, and water quality parameters. The research identifies four distinct hydrological behavior clusters: plateau, sandstone upland, carbonate upland, and lowland. Key findings include diverse catchment sensitivities to groundwater recharge, the role of baseflow in streamflow stabilization, the memory effect in catchment responses, and insights from the flow duration curve on flow variability and extremes. The LightGBM model, predicting focus parameters, highlights the critical influence of air temperature and snowpack on streamflow characteristics. This study underscores the diverse hydrological sensitivities of Estonian catchments to hydroclimatic changes, emphasizing the importance of considering catchment-specific characteristics in water resource management and policy-making. Contributing to the broader understanding of hydrological processes, it provides valuable insights for future research and environmental planning in the face of climate variability and change.
ISSN:1736-4728
1736-7557

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