American Journal of Water Science and Engineering

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Diagnosis of the Availability of Groundwater Resources for Off-season Irrigation on the Pic of Sindou Rice Perimeter in Burkina Faso

Received: 13 March 2020    Accepted: 31 March 2020    Published: 14 April 2020
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Abstract

In Burkina Faso, more precisely, in the Cascades region, on the Pic of Sindou rice perimeter, producers made dike to channel water from overflow springs for off-season irrigation. However, this perimeter like most of the developed areas in the country is subject to the scarcity of water resources to carry out off-season activities. The objective of this study was therefore to analyze the problem of water on the Pic of Sindou rice perimeter in order to propose solutions to overcome the lack of water. The estimation of the volume of water taken from the aquifer, through the springs for off-season irrigation was made using the volumetric method and surveys of 200 producers on their method of managing irrigation during February-July 2019. Gross irrigation water requirements were determined using climatic data from the Karfiguela station. And, the method of the water table fluctuation from 2016 to 2019 is used to estimate the variation of the groundwater stock. Gross irrigation water requirements are currently satisfied at 8.3%, hence the inability of the four springs to cover production on the 260 hectare developed. The diagnosis also revealed that approximately 20% of the volume of water transported in the channels evaporates or infiltrates into the soil; 15% of spring water is not channeled and 18% is lost during off hours. However, the analysis of the variation of the groundwater stock revealed the existence of a groundwater reserve which can be mobilized by catchment works to satisfy the water deficit currently on the perimeter and even cover the extension of the perimeter to 300 hectare of available area.

DOI 10.11648/j.ajwse.20200602.11
Published in American Journal of Water Science and Engineering (Volume 6, Issue 2, June 2020)
Page(s) 60-64
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Spring, Water Shortage, Off-season Rice Production, Peasant Development, Sindou Pic Rice Perimeter

References
[1] Kevin Thomas, 2011. African Economic Conference, Addis ababa, Ethiopia, 25-28 october.
[2] FAO (2015). Rethinking Global Food Security and Sustainable Agriculture: From Europe to World. Being a Keynote Address delivered on behalf of Food and Agriculture Organisation by Mr Ren Wang, Assistant Director General of Agriculture and Consumer Protection Department on Tuesday, March 31, 2015.
[3] Xinchun, C.; Mengyan, W.; Xiangping, G.; Yalian, Z.; Yan, G.; Nan, W.; Weiguang, W. Assessing water scarcity in agricultural production system based on generalized water resources and water footprint framework. Sci. Total Environ. 2017, 609, 587–597. [Google Scholar] [CrossRef] [PubMed].
[4] Ogunniyi Adebayo, Omonona B. T, Abioye Oyewale, and Olagunju K. O. (2018). Impact of irrigation technology use on crop yield, crop income and household food security in Nigeria: A treatment effect approach. AIMS Agriculture and Food, 3 (2): 154–171.
[5] Sultan, B., Janicot, S., Baron, C., Dingkuhn, M., Muller, M., Traoré, S. et Sarr, B. 2008. Les impacts agronomiques du climat en Afrique de l’Ouest: une illustration des problèmes majeurs. Sécheresse 19 (1): 29-37.
[6] TABET-AOUL M., BESSAOUD R. (2009), «Adapter les agricultures au changement climatique», MediTERRA, pp. 101-136.
[7] M. IDANI, A. A. AKINDELE, F. K. MEDEOU, E. OGOUWALE, Stratégies d’adaptation paysannes aux changements climatiques dans l’arrondissement de Dassari (Bénin, Afrique de l’Ouest): 291-294. In Boko M., Vissin E. W., Afouda S., «Climat Agriculture, Ressources en Eau d’hier à demain», Actes du XXVIème Colloque de l’AIC, Bénin, (2013), 573 p.
[8] SAMBOU P. C. (2015), Evolution climatique récente et stratégies d’adaptation des populations dans les arrondissements de Sakal et Ndande, dans la région de Louga, thèse de Doctorat unique, FLSH-UCAD, 456 p.
[9] Ouédraogo, M., Somé, L. et Dembélé, Y. 2010. Perceptions et stratégies d’adaptation aux changements des précipitations: cas des paysans du Burkina Faso. Sécheresse 2010; 21 n° 2, avril-mai-juin 2010. pp. 87-96.
[10] Madjigoto, R. 2003. Des cultures pluviales à la culture de décrue: une adaptation du système de culture aux changements climatiques.
[11] Bélem P., Oscar A. (2013). Burkina Faso: La formation aux méthodes SRI améliore le quotidien des paysans de Bama, AGRIDAPE, Volume 29, N°1, 6p-8p.
[12] Wellens J., Nitcheu M., Sawadogo B., Diallo M., Traore F., Tychon B., 2009, Optimisation des calendriers d’irrigation pour le périmètre irrigué de lavallée du Kouà l’aide du logiciel SIMIS, 4p.
[13] Bathily M. (2012). Evaluation des performances et diagnostic d’un système irrigué: cas de la Vallée du Kou au Burkina Faso, 76p.
[14] IWACO. (1993). Carte hydrogéologique du BURKINA FASO. Ouagadougou: Direction del'Inventaire des Ressources Hydrauliques (DIRH). Burkina Faso.
[15] DAKOURE, D. (2003). Eude hydrogéoloique et géochimique de la bordure Sud-Est du bassin sédimentaire de TAOUDENI (BURKINA FASO - MALI) - Essai de modélisation. Thèse de Doctorat, UniversitéParis VI - Pierre et Marie Curie. 255p.
[16] AEC&M. (2016). Etude d'identification, de localisation et de caractérisation physique des sources d'eau dans les espaces de compétence des agences de l'eau du Mouhoun et des Cascades. Ouagadougou, Burkina Faso. Rapport final; 124p.
[17] Chadwick, M., Soussan, J., Mallick, D., Alam, S. Understanding Indigenous Knowledge: Its Role and Potential inWater Resource Management in Bangladesh; University of Leeds and Bangladesh Centre for Advanced Studies: Leeds, UK; Dhaka, Bangladesh, 1998.
[18] Megdal, S. B.; Eden, S.; Shamir, E. Water governance, stakeholder engagement, and sustainable water resources management. Water 2017, 9, 190. [CrossRef].
[19] Kwoyiga Lydia Kwoyiga and Stefan Catalin; 2018. Groundwater Development for Dry Season Irrigationin North East Ghana: The Place of Local Knowledge. Water 2018, 10, 1724; doi: 10.3390/w10121724.
Author Information
  • Hydro- Systems and Agriculture Water Laborator, International Institute for Water and Environmental Engineering (2iE), Ouagadougou, Burkina Faso

  • Hydro- Systems and Agriculture Water Laborator, International Institute for Water and Environmental Engineering (2iE), Ouagadougou, Burkina Faso

  • Hydro- Systems and Agriculture Water Laborator, International Institute for Water and Environmental Engineering (2iE), Ouagadougou, Burkina Faso

  • Hydro- Systems and Agriculture Water Laborator, International Institute for Water and Environmental Engineering (2iE), Ouagadougou, Burkina Faso

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    Bama Nati Aïssata Delphine, Barké Guida Habiba, Koita Mahamadou, Niang Dial, Yacouba Hamma. (2020). Diagnosis of the Availability of Groundwater Resources for Off-season Irrigation on the Pic of Sindou Rice Perimeter in Burkina Faso. American Journal of Water Science and Engineering, 6(2), 60-64. https://doi.org/10.11648/j.ajwse.20200602.11

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    ACS Style

    Bama Nati Aïssata Delphine; Barké Guida Habiba; Koita Mahamadou; Niang Dial; Yacouba Hamma. Diagnosis of the Availability of Groundwater Resources for Off-season Irrigation on the Pic of Sindou Rice Perimeter in Burkina Faso. Am. J. Water Sci. Eng. 2020, 6(2), 60-64. doi: 10.11648/j.ajwse.20200602.11

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    AMA Style

    Bama Nati Aïssata Delphine, Barké Guida Habiba, Koita Mahamadou, Niang Dial, Yacouba Hamma. Diagnosis of the Availability of Groundwater Resources for Off-season Irrigation on the Pic of Sindou Rice Perimeter in Burkina Faso. Am J Water Sci Eng. 2020;6(2):60-64. doi: 10.11648/j.ajwse.20200602.11

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  • @article{10.11648/j.ajwse.20200602.11,
      author = {Bama Nati Aïssata Delphine and Barké Guida Habiba and Koita Mahamadou and Niang Dial and Yacouba Hamma},
      title = {Diagnosis of the Availability of Groundwater Resources for Off-season Irrigation on the Pic of Sindou Rice Perimeter in Burkina Faso},
      journal = {American Journal of Water Science and Engineering},
      volume = {6},
      number = {2},
      pages = {60-64},
      doi = {10.11648/j.ajwse.20200602.11},
      url = {https://doi.org/10.11648/j.ajwse.20200602.11},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ajwse.20200602.11},
      abstract = {In Burkina Faso, more precisely, in the Cascades region, on the Pic of Sindou rice perimeter, producers made dike to channel water from overflow springs for off-season irrigation. However, this perimeter like most of the developed areas in the country is subject to the scarcity of water resources to carry out off-season activities. The objective of this study was therefore to analyze the problem of water on the Pic of Sindou rice perimeter in order to propose solutions to overcome the lack of water. The estimation of the volume of water taken from the aquifer, through the springs for off-season irrigation was made using the volumetric method and surveys of 200 producers on their method of managing irrigation during February-July 2019. Gross irrigation water requirements were determined using climatic data from the Karfiguela station. And, the method of the water table fluctuation from 2016 to 2019 is used to estimate the variation of the groundwater stock. Gross irrigation water requirements are currently satisfied at 8.3%, hence the inability of the four springs to cover production on the 260 hectare developed. The diagnosis also revealed that approximately 20% of the volume of water transported in the channels evaporates or infiltrates into the soil; 15% of spring water is not channeled and 18% is lost during off hours. However, the analysis of the variation of the groundwater stock revealed the existence of a groundwater reserve which can be mobilized by catchment works to satisfy the water deficit currently on the perimeter and even cover the extension of the perimeter to 300 hectare of available area.},
     year = {2020}
    }
    

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  • TY  - JOUR
    T1  - Diagnosis of the Availability of Groundwater Resources for Off-season Irrigation on the Pic of Sindou Rice Perimeter in Burkina Faso
    AU  - Bama Nati Aïssata Delphine
    AU  - Barké Guida Habiba
    AU  - Koita Mahamadou
    AU  - Niang Dial
    AU  - Yacouba Hamma
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    DO  - 10.11648/j.ajwse.20200602.11
    T2  - American Journal of Water Science and Engineering
    JF  - American Journal of Water Science and Engineering
    JO  - American Journal of Water Science and Engineering
    SP  - 60
    EP  - 64
    PB  - Science Publishing Group
    SN  - 2575-1875
    UR  - https://doi.org/10.11648/j.ajwse.20200602.11
    AB  - In Burkina Faso, more precisely, in the Cascades region, on the Pic of Sindou rice perimeter, producers made dike to channel water from overflow springs for off-season irrigation. However, this perimeter like most of the developed areas in the country is subject to the scarcity of water resources to carry out off-season activities. The objective of this study was therefore to analyze the problem of water on the Pic of Sindou rice perimeter in order to propose solutions to overcome the lack of water. The estimation of the volume of water taken from the aquifer, through the springs for off-season irrigation was made using the volumetric method and surveys of 200 producers on their method of managing irrigation during February-July 2019. Gross irrigation water requirements were determined using climatic data from the Karfiguela station. And, the method of the water table fluctuation from 2016 to 2019 is used to estimate the variation of the groundwater stock. Gross irrigation water requirements are currently satisfied at 8.3%, hence the inability of the four springs to cover production on the 260 hectare developed. The diagnosis also revealed that approximately 20% of the volume of water transported in the channels evaporates or infiltrates into the soil; 15% of spring water is not channeled and 18% is lost during off hours. However, the analysis of the variation of the groundwater stock revealed the existence of a groundwater reserve which can be mobilized by catchment works to satisfy the water deficit currently on the perimeter and even cover the extension of the perimeter to 300 hectare of available area.
    VL  - 6
    IS  - 2
    ER  - 

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