Variability and changes in hydrological drought in the Volta Basin, West Africa
Variability and changes in hydrological drought in the Volta Basin, West Africa
Study region: Volta River Basin, West Africa Study focus: Hydrological droughts have a wide range of impacts on societies and economic sectors such as agriculture and energy production. Analysis of hydrological droughts helps better plan and manage water resources under global change. This study analyses the spatial and temporal variability of hydrological drought occurrence (duration and severity) in the Volta River basin during 1979–2013. We used the Variable Infiltration Capacity and vector-based routing (RAPID) models and high-resolution forcing data to simulate streamflow for 10300 river reaches. New hydrological insights for the region: Drought duration and severity show high spatial variability and large differences between the three decades (1980 s, 1990 s and 2000 s). Droughts are more severe in larger catchments as the flows are generally higher. The trend analysis shows a general decreasing trend (up to 5% per event) in drought duration in the north-eastern and an increasing trend in southern parts of the basin. Drought severity shows an increasing and decreasing trend (up to ± 20%) in south and north part of the basin, respectively. Daily streamflow has a maximum correlation (up to 0.78) with upstream precipitation for the previous 30-days with a clear signal of propagation from meteorological to hydrological drought with an average lag-time of two weeks. The results indicate the need to consider site-specific and adaptive drought management measures to minimize the impacts.
Droughts, Volta basin, Drought propagation, Hydrological extremes, Severity, Streamflow
Gebrechorkos, Solomon
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Anghileri, Daniela
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Sheffield, Justin
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Pan, Ming
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Lin, Peirong
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Forsythe, Nathan
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Pritchard, David M.W.
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Fowler, Hayley J.
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Obuobie, Emmanuel
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Darko, Debroah
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August 2022
Gebrechorkos, Solomon
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Anghileri, Daniela
611ecf6c-55d5-4e63-b051-53e2324a7698
Sheffield, Justin
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Pan, Ming
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Lin, Peirong
76a36dac-5584-4cb2-8cb8-fcb056c3b605
Forsythe, Nathan
08646205-2214-4d2b-baef-1f2bf59b52c0
Pritchard, David M.W.
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Fowler, Hayley J.
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Obuobie, Emmanuel
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Darko, Debroah
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Gebrechorkos, Solomon, Anghileri, Daniela, Sheffield, Justin, Pan, Ming, Lin, Peirong, Forsythe, Nathan, Pritchard, David M.W., Fowler, Hayley J., Obuobie, Emmanuel and Darko, Debroah
(2022)
Variability and changes in hydrological drought in the Volta Basin, West Africa.
Journal of Hydrology, 42, [101143].
(doi:10.1016/j.ejrh.2022.101143).
Abstract
Study region: Volta River Basin, West Africa Study focus: Hydrological droughts have a wide range of impacts on societies and economic sectors such as agriculture and energy production. Analysis of hydrological droughts helps better plan and manage water resources under global change. This study analyses the spatial and temporal variability of hydrological drought occurrence (duration and severity) in the Volta River basin during 1979–2013. We used the Variable Infiltration Capacity and vector-based routing (RAPID) models and high-resolution forcing data to simulate streamflow for 10300 river reaches. New hydrological insights for the region: Drought duration and severity show high spatial variability and large differences between the three decades (1980 s, 1990 s and 2000 s). Droughts are more severe in larger catchments as the flows are generally higher. The trend analysis shows a general decreasing trend (up to 5% per event) in drought duration in the north-eastern and an increasing trend in southern parts of the basin. Drought severity shows an increasing and decreasing trend (up to ± 20%) in south and north part of the basin, respectively. Daily streamflow has a maximum correlation (up to 0.78) with upstream precipitation for the previous 30-days with a clear signal of propagation from meteorological to hydrological drought with an average lag-time of two weeks. The results indicate the need to consider site-specific and adaptive drought management measures to minimize the impacts.
Text
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More information
Accepted/In Press date: 11 June 2022
e-pub ahead of print date: 17 June 2022
Published date: August 2022
Additional Information:
Funding Information:
This work was supported by the “FutureDams: Design and Assessment of water-energy-food-environment Mega Systems” project [ ES/P011373/1 ] and the ‘Building REsearch Capacity for Sustainable Water and Food Security In drylands of Sub-Saharan Africa’ (BRECcIA) project [NE/P021093/1], which are supported by UK Research and Innovation as part of the Global Challenges Research Fund .
Publisher Copyright:
© 2022 The Authors
Keywords:
Droughts, Volta basin, Drought propagation, Hydrological extremes, Severity, Streamflow
Identifiers
Local EPrints ID: 467633
URI: http://eprints.soton.ac.uk/id/eprint/467633
ISSN: 0022-1694
PURE UUID: 1eb1ba4d-7445-4ce1-8e3f-9798d0699092
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Date deposited: 15 Jul 2022 19:25
Last modified: 17 Mar 2024 03:55
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Contributors
Author:
Ming Pan
Author:
Peirong Lin
Author:
Nathan Forsythe
Author:
David M.W. Pritchard
Author:
Hayley J. Fowler
Author:
Emmanuel Obuobie
Author:
Debroah Darko
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