Revisiting historical climatic signals to better explore the future: prospects of water cycle changes in Central Sahel

Revisiting historical climatic signals to better explore the future: prospects of water cycle changes in Central Sahel

Rainfall and climatic conditions are the main drivers of natural and cultivated vegetation productivity in the semiarid region of Central Sahel. In a context of decreasing cultivable area per capita, understanding and predicting changes in the water cycle are crucial. Yet, it remains challenging...

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Main Authors: C. Leauthaud, J. Demarty, B. Cappelaere, M. Grippa, L. Kergoat, C. Velluet, F. Guichard, E. Mougin, S. Chelbi, B. Sultan
Format: Article
Language:English
Published: Copernicus Publications 2015-06-01
Series:Proceedings of the International Association of Hydrological Sciences
Online Access:https://www.proc-iahs.net/371/195/2015/piahs-371-195-2015.pdf
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spelling doaj-9eb5cf6c671443f0ac4e0c58ae2eca512020-11-25T00:59:00ZengCopernicus PublicationsProceedings of the International Association of Hydrological Sciences2199-89812199-899X2015-06-0137119520110.5194/piahs-371-195-2015Revisiting historical climatic signals to better explore the future: prospects of water cycle changes in Central SahelC. Leauthaud0J. Demarty1B. Cappelaere2M. Grippa3L. Kergoat4C. Velluet5C. Velluet6F. Guichard7E. Mougin8S. Chelbi9B. Sultan10CNRS, HydroSciences Montpellier, Montpellier, FranceIRD, HydroSciences Montpellier, Montpellier, FranceIRD, HydroSciences Montpellier, Montpellier, FranceCNAP, Géosciences Environnement Toulouse, Toulouse, FranceCNRS, Géosciences Environnement Toulouse, Toulouse, FranceUniversité de Montpellier, HydroSciences Montpellier, Montpellier, Francenow at: IRD, Cotonou, BeninCNRS, Centre National de Recherches Météorologiques, Toulouse, FranceCNRS, Géosciences Environnement Toulouse, Toulouse, FranceCNRS, HydroSciences Montpellier, Montpellier, FranceIRD, LOCEAN, Paris, FranceRainfall and climatic conditions are the main drivers of natural and cultivated vegetation productivity in the semiarid region of Central Sahel. In a context of decreasing cultivable area per capita, understanding and predicting changes in the water cycle are crucial. Yet, it remains challenging to project future climatic conditions in West Africa since there is no consensus on the sign of future precipitation changes in simulations coming from climate models. <br><br> The Sahel region has experienced severe climatic changes in the past 60 years that can provide a first basis to understand the response of the water cycle to non-stationary conditions in this part of the world. The objective of this study was to better understand the response of the water cycle to highly variable climatic regimes in Central Sahel using historical climate records and the coupling of a land surface energy and water model with a vegetation model that, when combined, simulated the Sahelian water, energy and vegetation cycles. To do so, we relied on a reconstructed long-term climate series in Niamey, Republic of Niger, in which three precipitation regimes can be distinguished with a relative deficit exceeding 25% for the driest period compared to the wettest period. Two temperature scenarios (+2 and +4 °C) consistent with future warming scenarios were superimposed to this climatic signal to generate six virtual future 20-year climate time series. Simulations by the two coupled models forced by these virtual scenarios showed a strong response of the water budget and its components to temperature and precipitation changes, including decreases in transpiration, runoff and drainage for all scenarios but those with highest precipitation. Such climatic changes also strongly impacted soil temperature and moisture. This study illustrates the potential of using the strong climatic variations recorded in the past decades to better understand potential future climate variations.https://www.proc-iahs.net/371/195/2015/piahs-371-195-2015.pdf
collection DOAJ
language English
format Article
sources DOAJ
author C. Leauthaud
J. Demarty
B. Cappelaere
M. Grippa
L. Kergoat
C. Velluet
C. Velluet
F. Guichard
E. Mougin
S. Chelbi
B. Sultan
spellingShingle C. Leauthaud
J. Demarty
B. Cappelaere
M. Grippa
L. Kergoat
C. Velluet
C. Velluet
F. Guichard
E. Mougin
S. Chelbi
B. Sultan
Revisiting historical climatic signals to better explore the future: prospects of water cycle changes in Central Sahel
Proceedings of the International Association of Hydrological Sciences
author_facet C. Leauthaud
J. Demarty
B. Cappelaere
M. Grippa
L. Kergoat
C. Velluet
C. Velluet
F. Guichard
E. Mougin
S. Chelbi
B. Sultan
author_sort C. Leauthaud
title Revisiting historical climatic signals to better explore the future: prospects of water cycle changes in Central Sahel
title_short Revisiting historical climatic signals to better explore the future: prospects of water cycle changes in Central Sahel
title_full Revisiting historical climatic signals to better explore the future: prospects of water cycle changes in Central Sahel
title_fullStr Revisiting historical climatic signals to better explore the future: prospects of water cycle changes in Central Sahel
title_full_unstemmed Revisiting historical climatic signals to better explore the future: prospects of water cycle changes in Central Sahel
title_sort revisiting historical climatic signals to better explore the future: prospects of water cycle changes in central sahel
publisher Copernicus Publications
series Proceedings of the International Association of Hydrological Sciences
issn 2199-8981
2199-899X
publishDate 2015-06-01
description Rainfall and climatic conditions are the main drivers of natural and cultivated vegetation productivity in the semiarid region of Central Sahel. In a context of decreasing cultivable area per capita, understanding and predicting changes in the water cycle are crucial. Yet, it remains challenging to project future climatic conditions in West Africa since there is no consensus on the sign of future precipitation changes in simulations coming from climate models. <br><br> The Sahel region has experienced severe climatic changes in the past 60 years that can provide a first basis to understand the response of the water cycle to non-stationary conditions in this part of the world. The objective of this study was to better understand the response of the water cycle to highly variable climatic regimes in Central Sahel using historical climate records and the coupling of a land surface energy and water model with a vegetation model that, when combined, simulated the Sahelian water, energy and vegetation cycles. To do so, we relied on a reconstructed long-term climate series in Niamey, Republic of Niger, in which three precipitation regimes can be distinguished with a relative deficit exceeding 25% for the driest period compared to the wettest period. Two temperature scenarios (+2 and +4 °C) consistent with future warming scenarios were superimposed to this climatic signal to generate six virtual future 20-year climate time series. Simulations by the two coupled models forced by these virtual scenarios showed a strong response of the water budget and its components to temperature and precipitation changes, including decreases in transpiration, runoff and drainage for all scenarios but those with highest precipitation. Such climatic changes also strongly impacted soil temperature and moisture. This study illustrates the potential of using the strong climatic variations recorded in the past decades to better understand potential future climate variations.
url https://www.proc-iahs.net/371/195/2015/piahs-371-195-2015.pdf
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