Evaluation of the performance of climate models from the CORDEX-AFRICA database on the watershed of the Sassandra River in Buyo (Western Côte d'Ivoire)

Konaté, Daouda; Alex, Kouadio Zilé; Mohamed, COULIBALY Zana; Bernard, DJE Kouakou

[ Évaluation de la performance des modèles climatiques régionaux du programme CORDEX-AFRIQUE sur le bassin versant du fleuve Sassandra à Buyo (Ouest de la Côte d’Ivoire) ]

Volume 68, Issue 1, August 2023, Pages 24–39

Evaluation of the performance of climate models from the CORDEX-AFRICA database on the watershed of the Sassandra River in Buyo (Western Côte d'Ivoire)

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@article{IJISR-23-184-12,
author = {Daouda Konaté and Kouadio Zilé Alex and COULIBALY Zana Mohamed and DJE Kouakou Bernard},
title = {{Evaluation of the performance of climate models from the CORDEX-AFRICA database on the watershed of the Sassandra River in Buyo (Western Côte d'Ivoire)}},
journal = {International Journal of Innovation and Scientific Research},
volume = {68},
year = {2023},
pages = {24--39},
issue = {1},
number = {1},
issn = {2028-9324},
url = {http://www.ijisr.issr-journals.org/abstract.php?article=IJISR-23-184-12},
abstract_html_url = {http://www.ijisr.issr-journals.org/abstract.php?article=IJISR-23-184-12},
pdf_url = {http://www.issr-journals.org/xplore/ijisr/0068/001/IJISR-23-184-12.pdf},
document_type={Article},
source={www.issr-journals.org}
}

TY  - JOUR
ID  - 
TI  - Evaluation of the performance of climate models from the CORDEX-AFRICA database on the watershed of the Sassandra River in Buyo (Western Côte d'Ivoire)
AU  - Daouda Konaté
AU  - Kouadio Zilé Alex
AU  - COULIBALY Zana Mohamed
AU  - DJE Kouakou Bernard
PY  - 2023
VL  - 68
IS  - 1
SP  - 24
EP  - 39
JO  - International Journal of Innovation and Scientific Research
T2  - International Journal of Innovation and Scientific Research
SN  - 20289324
UR  - http://www.ijisr.issr-journals.org/abstract.php?article=IJISR-23-184-12
AB  - Global and regional climate simulation results often do not accurately reflect changes in climate, hampering their direct applicability. Impact studies using high-resolution data received bias correction for climate variables. This study made it possible to choose and validate regional climate models from the CORDEX-Africa database in order to describe the future climate of the Sassandra River watershed in Buyo (western Côte d’Ivoire). The choice of models was made by the Taylor diagram method associated with the seasonal profile of the models and observations. Thus, the outputs of the selected models were corrected by the Distribution Mapping method (quantile mapping) using the CMhyd tool. At the end the potential future climate changes are assessed by analyzing the changes predicted by the models. The study reveals that the ICHEC, IPSL and NCC models have a good ability to simulate the climate of the basin. The climate simulation shows variations in climate parameters. The RCP 4.5 scenario forecasts rainfall fluctuations of -20.8% to +58.1% by 2030 and from -18.8% to +61.7% by 2050. The RCP 8.5 predict precipitation fluctuations of -19.4% to +43.8% by 2030 and -7.5% to +73.3% by 2050. All models include an increase in temperature under the two scenarios from +1.6 to +4.4℃ for RCP 4.5 and from +2.1 to +5℃ for RCP 8.5.
ER  -

TY  - JOUR
ID  - 
TI  - Evaluation of the performance of climate models from the CORDEX-AFRICA database on the watershed of the Sassandra River in Buyo (Western Côte d'Ivoire)
AU  - Daouda Konaté
AU  - Kouadio Zilé Alex
AU  - COULIBALY Zana Mohamed
AU  - DJE Kouakou Bernard
PY  - 2023
VL  - 68
IS  - 1
SP  - 24
EP  - 39
JO  - International Journal of Innovation and Scientific Research
SN  - 20289324
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Global and regional climate simulation results often do not accurately reflect changes in climate, hampering their direct applicability. Impact studies using high-resolution data received bias correction for climate variables. This study made it possible to choose and validate regional climate models from the CORDEX-Africa database in order to describe the future climate of the Sassandra River watershed in Buyo (western Côte d’Ivoire). The choice of models was made by the Taylor diagram method associated with the seasonal profile of the models and observations. Thus, the outputs of the selected models were corrected by the Distribution Mapping method (quantile mapping) using the CMhyd tool. At the end the potential future climate changes are assessed by analyzing the changes predicted by the models. The study reveals that the ICHEC, IPSL and NCC models have a good ability to simulate the climate of the basin. The climate simulation shows variations in climate parameters. The RCP 4.5 scenario forecasts rainfall fluctuations of -20.8% to +58.1% by 2030 and from -18.8% to +61.7% by 2050. The RCP 8.5 predict precipitation fluctuations of -19.4% to +43.8% by 2030 and -7.5% to +73.3% by 2050. All models include an increase in temperature under the two scenarios from +1.6 to +4.4℃ for RCP 4.5 and from +2.1 to +5℃ for RCP 8.5.
ER  -

RT Journal Article
ID IJISR-23-184-12
A1 Daouda Konaté
A1 Kouadio Zilé Alex
A1 COULIBALY Zana Mohamed
A1 DJE Kouakou Bernard
YR 2023
T1 Evaluation of the performance of climate models from the CORDEX-AFRICA database on the watershed of the Sassandra River in Buyo (Western Côte d'Ivoire)
JF International Journal of Innovation and Scientific Research

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Daouda Konaté¹, Kouadio Zilé Alex², COULIBALY Zana Mohamed³, and DJE Kouakou Bernard⁴

¹ Société d’Exploitation et de Développement Aéroportuaire, Aéronautique et Météorologique, Abidjan, Côte d’Ivoire
² Geoscience et environnement, Jean Lorougnon Guédé, Daloa, Côte d’Ivoire
³ Geoscience et environnement, Université Jean Lorougnon Guédé, Daloa, Côte d’Ivoire
⁴ Geoscience et environnement, Université Jean Lorougnon Guédé, Daloa, Côte d’Ivoire

Original language: French

Copyright © 2023 ISSR Journals. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

Global and regional climate simulation results often do not accurately reflect changes in climate, hampering their direct applicability. Impact studies using high-resolution data received bias correction for climate variables. This study made it possible to choose and validate regional climate models from the CORDEX-Africa database in order to describe the future climate of the Sassandra River watershed in Buyo (western Côte d’Ivoire). The choice of models was made by the Taylor diagram method associated with the seasonal profile of the models and observations. Thus, the outputs of the selected models were corrected by the Distribution Mapping method (quantile mapping) using the CMhyd tool. At the end the potential future climate changes are assessed by analyzing the changes predicted by the models. The study reveals that the ICHEC, IPSL and NCC models have a good ability to simulate the climate of the basin. The climate simulation shows variations in climate parameters. The RCP 4.5 scenario forecasts rainfall fluctuations of -20.8% to +58.1% by 2030 and from -18.8% to +61.7% by 2050. The RCP 8.5 predict precipitation fluctuations of -19.4% to +43.8% by 2030 and -7.5% to +73.3% by 2050. All models include an increase in temperature under the two scenarios from +1.6 to +4.4℃ for RCP 4.5 and from +2.1 to +5℃ for RCP 8.5.

Author Keywords: Climate model, CORDEX-Africa, Climate simulation, Sassandra watershed, Ivory Coast.

Abstract: (french)

Les résultats de la simulation du climat mondial et régional ne décrivent souvent pas bien les changements du climat, ce qui entrave leur applicabilité directe. Les études d’impact utilisant des données à grande résolution nécessitent une correction des biais des variables climatiques. Cette étude a permis de choisir et valider des modèles climatiques régionaux depuis la base de données CORDEX-Afrique afin de décrire le climat futur du bassin versant du fleuve Sassandra à Buyo (Ouest de la Côte d’Ivoire). Le choix des modèles a été fait par la méthode du diagramme de Taylor associé au profil saisonnier des modèles et des observations. Ainsi, les sorties des modèles retenus ont été corrigées par la méthode du Distribution Mapping (quantile mapping) à l’aide de l’outil CMhyd. À la fin les changements potentiels du climat futur sont évalués par l’analyse des changements prédites par les modèles. L’étude révèle que les modèles ICHEC, IPSL et NCC ont une bonne aptitude à simuler le climat du bassin. La simulation du climat montre des variations des paramètres climatiques. Le scénario RCP 4.5, prévoit des fluctuations de la pluviométrie de -20,8% à +58,1% à l’horizon 2030 et de -18,8% à +61,7% à l’horizon 2050. Le RCP 8.5 prévoit des fluctuations des précipitations de -19,4% à +43,8% à l’horizon 2030 et de -7,5% à +73,3% à l’horizon 2050. Tous les modèles prévoient une hausse de la température selon les deux scénarios de +1.6 à +4,4℃ pour le RCP 4.5 et de +2,1 à +5℃ pour le RCP 8.5.

Author Keywords: Modèle climatique, CORDEX-Afrique, Simulation climatique, Bassin versant Sassandra, Côte d’Ivoire.

How to Cite this Article

Daouda Konaté, Kouadio Zilé Alex, COULIBALY Zana Mohamed, and DJE Kouakou Bernard, “Evaluation of the performance of climate models from the CORDEX-AFRICA database on the watershed of the Sassandra River in Buyo (Western Côte d'Ivoire),” International Journal of Innovation and Scientific Research, vol. 68, no. 1, pp. 24–39, August 2023.

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Evaluation of the performance of climate models from the CORDEX-AFRICA database on the watershed of the Sassandra River in Buyo (Western Côte d'Ivoire)

Abstract

Abstract: (french)

How to Cite this Article