International Journal of Sustainable Development Research

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Video on Mobile Phones as an Effective Way to Promote Sustainable Practices by Facilitating Innovation Uptake in Mali

Received: 05 December 2018    Accepted: 25 December 2018    Published: 22 February 2019
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Abstract

A challenge for researchers and other developers of new technologies in agriculture is to find ways of communicating their results and recommendations. This challenge is particularly acute in regions in which farmers have limited access to education and where illiteracy is widespread, such as in the rural areas of Mali. One approach that shows potential, yet remains largely unused by extension services, is the dissemination of educational videos on mobile phones with video and Bluetooth technology (3G mobile phones). It has been shown that the conditions are suitable for this approach to be used in Mali, with 3G mobile phones widely available in the region but there is little empirical evidence of its acceptance and potential impact. This article aims to explore the potential of video on mobile phones as a tool to facilitate the diffusion of new agricultural technologies in Western Africa. Three videos showing agricultural innovations for sustainable production were shown and shared with 200 farmers in twelve villages in Mali. The villages were revisited 10 months later and farmers were asked about their experiences with the videos that had been shared and their previous knowledge of the innovations shown in them. Of the farmers who had watched one of the videos (N=148), 60.1% had adopted at least one of the videos’ innovations. Mobile-phone videos could be accessed by people who had previously received limited access to information sources, such as younger women, and video based information was found to be understandable for illiterate farmers. These results show that mobile-phone videos could enhance information transfer and thereby expand outreach. The use of video on mobile phones is a novel approach to farmer-to-farmer exchange and has tremendous potential for enhancing dissemination programs or specific research and development projects to enable more resilient, inclusive and democratic systems.

DOI 10.11648/j.ijsdr.20190501.11
Published in International Journal of Sustainable Development Research (Volume 5, Issue 1, March 2019)
Page(s) 1-8
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

Information and Communication Technology, Mobile Phone, Video, Agriculture Development, Farmer-to-Farmer Exchange

References
[1] Syiem R., Raj S. (2015). Access and usage of ICTs for agriculture and rural development by the tribal farmers in Meghalaya state of north-east India. Journal of Agricultural informatics. 6(3):24-41. doi:10.17700/jai.2015.6.3.190.
[2] Lawal-Adebowale A. (2012). ICT in Agricultural Development: Its Diffusion and Adoption Pattern in Nigeria’s Agricultural System. In Maumbe B., and Patrikakis C. (eds) E-Agriculture and Rural Development: Global Innovations and Future Prospects. IGI Global, USA.
[3] Sousa F., Nicolay G., Home R. (2016). Information technologies as a tool for agricultural extension and farmer-to-farmer exchange: Mobile-phone video use in Mali and Burkina Faso. Int J Educ Dev Using Inf Commun Technol. 12(3):19-36.
[4] UN (United Nations Economic Commission for Africa) (1998). ICTs as tools of democratization: summary. UN-ECA African Women and Economic Development. http://hdl.handle.net/10855/4102. Site visited March 5, 2018.
[5] Tey S., Li E., Bruwer J., Abdullah M., Brindal M., Radam A., Ismail M. and Darham S. (2017). Factors influencing the adoption of sustainable agricultural practices in developing countries: A review. Environ Eng Manag J. 16(2):337-349.
[6] Rogers E. M. (2003). Diffusion of Innovations, 5th Edition, New York, Free Press.
[7] Ghadim A., Panell D. (1999). A conceptual framework of adoption of an agricultural innovation. Agricultural economics 21:145-154.
[8] Davis D. (1989). Perceived usefulness, perceived ease of use, and user acceptance of information technology. ‎Manag Inf Syst Q. 13(3):319-339. doi.org/10.2307/249008.
[9] Kiptot E., Hebinck P., Franzel S., and Richards P. (2007). Adopters, testers or pseudo-adopters? Dynamics of the use of improved tree fallows by farmers in western Kenya. Agr Syst. 94:509-519. doi.org/10.1016/j.agsy.2007.01.002.
[10] Feder G., Umali D. (1993). The adoption of agricultural innovations: A review. Technological forecasting and social change 43(3-4):215-239 https://doi.org/10.1016/0040-1625(93)90053-A.
[11] Pamuk H., Bulte E., and Adekunle A. (2014). Do decentralized innovation systems promote agricultural technology adoption? Experimental evidence from Africa. Food Policy 44:227–236.
[12] Röling N. (1988). Extension science: Information systems in agricultural development. Cambridge University Press, Cambridge, UK.
[13] Hippel E. (2005). Democratizing Innovation. MIT Press, London.
[14] Aguilar-Gallegos N., Muñoz-Rodríguez M., Santoyo-Cortés H., Aguilar-Ávila J., and Klerkx L. (2015). Information networks that generate economic value: A study on clusters of adopters of new or improved technologies and practices among oil palm growers in Mexico. Agr Syst. 135:122-132. doi.org/10.1016/j.agsy.2015.01.003.
[15] Bentley J., Van Mele P., Zoundji G., and Guindo S. (2014). Social innovations triggered by videos: Evidence from Mali. Agro-Insight Publications. http://agroinsight.com/downloads/Articles-Agricultural-Extension/2014_Social-innovations-triggered-by-videos-in-Mali-Bentley-et-al-2014.pdf. Site visited March 5, 2018.
[16] Gielen M., Hoeve A., and Nieuwenhuis M. (2003). Learning Entrepreneurs: learning and innovation in small companies. European Educational Research Journal 2(3): 90-106. doi.org/10.2304/eerj.2003.2.1.13.
[17] Ramkumar S., Garforth C., Rao N., and Heffernan C. (2007). Design and Formative Evaluation of an Information Kiosk on Cattle Health for Landless Cattle Owners. J Agr Educ Ext. 13:7-22. doi.org/10.1080/13892240601162007.
[18] Oreszczyn S., Lane A., and Carr S. (2010). The role of networks of practice and webs of influencers on farmers' engagement with and learning about agricultural innovations. J Rural Stud. 26:404–417. doi.org/10.1016/j.jrurstud.2010.03.003.
[19] Sulaiman R., Hall A., Kalaivani J., Dorai K., and Reddy V. (2012). Necessary, But Not Sufficient: Critiquing the Role of Information and Communication Technology in Putting Knowledge into Use. J Agr Educ Ext. 18:331-346. doi/abs/10.1080/1389224X.2012.691782.
[20] Kachelriess-Matthess S., Keller P., Orleans C., Agbo B., Baro Y., Frankel S., Shantz J., and Huelss J. (2011). Using SMS Messages to Enhance Services of a Farmers’ Union to its Members. http://africancashewinitiative.org/imglib/downloads/120328_sms_text_messages_ab.pdf. Site visited March 5, 2018.
[21] SIANI (Swedish International Agricultural Network Initiative) (2012). From motorbike to mobile phone: new extension services for rural farmers through mobile ICT – Discussion brief. https://www.sei-international.org/mediamanager/documents/Publications/SEI-DiscussionBrief-SIANI-ICTandAfricanFarmers-2012.pdf. Site visited March 5, 2018.
[22] Aker J. (2008). Does Digital Divide or Provide? The Impact of Cell Phones on Grain Markets in Niger. Center for Global Development, Working Paper 154. http://www.oecd.org/countries/niger/41713177.pdf. Site visited March 5, 2018.
[23] Kshetri N. (2013). Cloud Computing in Sub-Saharan Africa. IT Professional. 15(6):64 – 67. doi:ieeecomputersociety.org/10.1109/MITP.2013.92.
[24] Cai T., Abbott E. (2013). Using Video as a Replacement or Complement for the Traditional Lecture/ Demonstration Method in Agricultural Training in Rural Uganda. J Appl Commun Res. 97(4):47-61. doi.org/10.4148/1051-0834.1127.
[25] Gandhi R., Veeraraghavan R., Toyama K., and Ramprasad V. (2009). Digital green: Participatory video for agricultural extension. Proceedings of International Conference on Information and Communication Technologies and Development. doi.org/10.1109/ICTD.2007.4937388.
[26] Bentley J. W., Van Mele P., Harun-Ar-Rashid M., and Krupnik T. J. (2015). Distributing and Showing Farmer Learning Videos in Bangladesh. Journal of Agricultural Education & Extension 22(2):179–197.
[27] Chowdhury A., Odame H. H., Thompson S., and Hauser M. (2015). Enhancing farmers’ capacity for botanical pesticide innovation through video-mediated learning in Bangladesh. International Journal of Agricultural Sustainability 13(4):326–349.
[28] Van Mele P., Wanvoeke J., Zossou E. (2010). Enhancing rural learning, linkages, and institutions: The rice videos in Africa. Dev Pract. 20:414-421.
[29] Van Mele P., Okry F., Wanvoeke J., Barres N., Malone P., Rodgers J., Rahman E., Salahuddin A. (2018). Quality farmer training videos to support South-South learning. CSI Transactions on IT 6(3-4):245-255.
[30] Zoundji G.C., Okry F., Vodouhê, S.D. and Bentley J.W. (2018a). Towards sustainable vegetable growing with farmer learning videos in Benin. International Journal of Agricultural Sustainability 16(1), 54-63.
[31] Zoundji G.C., Okry F., Vodouhê, S.D., Bentley J.W. and Tossou R.C. (2018b). Beyond Striga management: Learning videos enhanced farmers' knowledge on climate-smart agriculture beyond Striga management. Sustainable Agriculture Research 7(1), 80-91.
[32] Semeon G., Garfield M., and Meshesha M. (2015). Towards Enabling Tacit Knowledge Externalization Using Mobile Phone: The Case of Participatory Agricultural Innovation in Ethiopia. Proceedings of the 2015 12th Ieee Africon International Conference - Green Innovation for African Renaissance (africon) Ieee, New York.
[33] Duncombe R. (2016). Mobile Phones for Agricultural and Rural Development: A Literature Review and Suggestions for Future Research. The European Journal of Development Research 28(2):213–235.
[34] Baumueller H. (2018). The Little We Know: An Exploratory Literature Review on the Utility of Mobile Phone-Enabled Services for Smallholder Farmers. Journal of International Development 30(1):134–154.
[35] Baributsa D., Lowenberg-DeBoer J., and Kamarou Djibo A. (2010). Cell phone video for communicating hermetic cowpea storage skills. 5th World Cowpea Research Conference. Dakar, Senegal. https://ag.purdue.edu/ipia/pics/Documents/Research Papers/Cellphone Paper- Baributsa-LowenbergDeBoer and Djibo Nov 26 2010 Final.pdf. Site visited March 5, 2018.
[36] Maredia M. K., Reyes B., Ba M. N., Dabire C. L., Pittendrigh B., and Bello-Bravo J. (2018). Can mobile phone-based animated videos induce learning and technology adoption among low-literate farmers? A field experiment in Burkina Faso. Information Technology for Development 24(3):429–460.
[37] Bentley J., Udedi R., Van Mele P. (2016). Malawi DJs distribute videos to farmers. Access Agriculture Report, Nairobi: http://agroinsight.com/downloads/Articles-Agricultural-Extension/2016_AE_Malawi-DJs-distribute-videos-to-farmers-Bentley-et-al-2016.pdf.
[38] Simba Y., Zaipuna O. (2014). ICT as a Tool For Improving Information Flow Among Livestock Stakeholders. A Case Study of Tanzania. International Journal of Computer Science and Information Security. 12(8):414-424.
[39] Mwombe S., Mugivane F., Adolwa I., and Nderitu J. (2013). Evaluation of Information and Communication Technology Utilization by Small Holder Banana Farmers in Gatanga District, Kenya. J Agr Educ Ext. 20(2):247-261. doi.org/10.1080/1389224X.2013.788454.
[40] Aggarwal R. (2018). Wireless communication: Evolution and advance wireless communication. CSI Transactions on IT 4(2):25-30.
[41] Zuleta-Castro C., Rios D., Hoyos R., and Orozco-Sanchez F. (2017). First formulation of a botanical active substance extracted from neem cell culture for controlling the armyworm. Agron Sustain Dev. 37:40. doi.org/10.1007/s13593-017-0448-4.
[42] Aune J. B., Coulibaly A., and Giller K. (2017). Precision farming for increased land and labour productivity in semi-arid West Africa. A review. Agron Sustain Dev. 37:16. doi.org/10.1007/s13593-017-0424-z.
[43] Bedoussac L., Journet E. P., Hauggaard-Nielsen H. Naudin C., Corre-Hellou G., Jensen E., Prieur L, and Justes E. (2015). Ecological principles underlying the increase of productivity achieved by cereal-grain legume intercrops in organic farming. A review. Agron Sustain Dev. 35:911. doi.org/10.1007/s13593-014-0277-7.
Author Information
  • FiBL - Research Institute of Organic Agriculture, Frick, Switzerland

  • FiBL - Research Institute of Organic Agriculture, Frick, Switzerland

  • FiBL - Research Institute of Organic Agriculture, Frick, Switzerland

Cite This Article
  • APA Style

    Fernando Sousa, Gian Nicolay, Robert Home. (2019). Video on Mobile Phones as an Effective Way to Promote Sustainable Practices by Facilitating Innovation Uptake in Mali. International Journal of Sustainable Development Research, 5(1), 1-8. https://doi.org/10.11648/j.ijsdr.20190501.11

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    ACS Style

    Fernando Sousa; Gian Nicolay; Robert Home. Video on Mobile Phones as an Effective Way to Promote Sustainable Practices by Facilitating Innovation Uptake in Mali. Int. J. Sustain. Dev. Res. 2019, 5(1), 1-8. doi: 10.11648/j.ijsdr.20190501.11

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    AMA Style

    Fernando Sousa, Gian Nicolay, Robert Home. Video on Mobile Phones as an Effective Way to Promote Sustainable Practices by Facilitating Innovation Uptake in Mali. Int J Sustain Dev Res. 2019;5(1):1-8. doi: 10.11648/j.ijsdr.20190501.11

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  • @article{10.11648/j.ijsdr.20190501.11,
      author = {Fernando Sousa and Gian Nicolay and Robert Home},
      title = {Video on Mobile Phones as an Effective Way to Promote Sustainable Practices by Facilitating Innovation Uptake in Mali},
      journal = {International Journal of Sustainable Development Research},
      volume = {5},
      number = {1},
      pages = {1-8},
      doi = {10.11648/j.ijsdr.20190501.11},
      url = {https://doi.org/10.11648/j.ijsdr.20190501.11},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ijsdr.20190501.11},
      abstract = {A challenge for researchers and other developers of new technologies in agriculture is to find ways of communicating their results and recommendations. This challenge is particularly acute in regions in which farmers have limited access to education and where illiteracy is widespread, such as in the rural areas of Mali. One approach that shows potential, yet remains largely unused by extension services, is the dissemination of educational videos on mobile phones with video and Bluetooth technology (3G mobile phones). It has been shown that the conditions are suitable for this approach to be used in Mali, with 3G mobile phones widely available in the region but there is little empirical evidence of its acceptance and potential impact. This article aims to explore the potential of video on mobile phones as a tool to facilitate the diffusion of new agricultural technologies in Western Africa. Three videos showing agricultural innovations for sustainable production were shown and shared with 200 farmers in twelve villages in Mali. The villages were revisited 10 months later and farmers were asked about their experiences with the videos that had been shared and their previous knowledge of the innovations shown in them. Of the farmers who had watched one of the videos (N=148), 60.1% had adopted at least one of the videos’ innovations. Mobile-phone videos could be accessed by people who had previously received limited access to information sources, such as younger women, and video based information was found to be understandable for illiterate farmers. These results show that mobile-phone videos could enhance information transfer and thereby expand outreach. The use of video on mobile phones is a novel approach to farmer-to-farmer exchange and has tremendous potential for enhancing dissemination programs or specific research and development projects to enable more resilient, inclusive and democratic systems.},
     year = {2019}
    }
    

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  • TY  - JOUR
    T1  - Video on Mobile Phones as an Effective Way to Promote Sustainable Practices by Facilitating Innovation Uptake in Mali
    AU  - Fernando Sousa
    AU  - Gian Nicolay
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    JO  - International Journal of Sustainable Development Research
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    PB  - Science Publishing Group
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    AB  - A challenge for researchers and other developers of new technologies in agriculture is to find ways of communicating their results and recommendations. This challenge is particularly acute in regions in which farmers have limited access to education and where illiteracy is widespread, such as in the rural areas of Mali. One approach that shows potential, yet remains largely unused by extension services, is the dissemination of educational videos on mobile phones with video and Bluetooth technology (3G mobile phones). It has been shown that the conditions are suitable for this approach to be used in Mali, with 3G mobile phones widely available in the region but there is little empirical evidence of its acceptance and potential impact. This article aims to explore the potential of video on mobile phones as a tool to facilitate the diffusion of new agricultural technologies in Western Africa. Three videos showing agricultural innovations for sustainable production were shown and shared with 200 farmers in twelve villages in Mali. The villages were revisited 10 months later and farmers were asked about their experiences with the videos that had been shared and their previous knowledge of the innovations shown in them. Of the farmers who had watched one of the videos (N=148), 60.1% had adopted at least one of the videos’ innovations. Mobile-phone videos could be accessed by people who had previously received limited access to information sources, such as younger women, and video based information was found to be understandable for illiterate farmers. These results show that mobile-phone videos could enhance information transfer and thereby expand outreach. The use of video on mobile phones is a novel approach to farmer-to-farmer exchange and has tremendous potential for enhancing dissemination programs or specific research and development projects to enable more resilient, inclusive and democratic systems.
    VL  - 5
    IS  - 1
    ER  - 

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