Evaluating AI-Blockchain–IoT Capabilities and Effects on Transparency in Kenyan Seed Supply Chain

Authors

  • Lilian Cherotich Ronoh Department on Information Technology and Informatics, Kaimosi Friends University, Vihiga, Kenya Author
  • Samuel Mbugua Department of Information Technology, Kibabii University, Bungoma, Kenya Author
  • Richard Ronoh Department of Computer Science, Kibabii University, Bungoma, Kenya Author

DOI:

https://doi.org/10.32628/IJSRSET2512538

Keywords:

Blockchain, IoT, AI, Transparency, Seed Supply Chain, Technology Integration

Abstract

Agricultural sector plays a very crucial role in Kenyan national economy and within it, is the seed sector which is it’s driver and sustainer. Despite the strides that have been made towards digitalization of the seed sector, still, there are challenges facing it, one of them being lack of transparency. This has resulted in farmers purchasing counterfeit seeds which have adverse effects on the overall crop yields and great financial losses to farmers. This study sought to evaluate the capabilities and the effects of integrating AI-Blockchain-IoT technologies to improve transparency within the seed supply chain. Data was collected from KALRO and KSC staff, farmers and agro-dealers through questionnaires and interviews and data analyses carried out were both descriptive and inferential. Findings revealed varying perceptions on the capabilities of these technologies which show that more awareness needs to be done to enlighten the stakeholders on the benefits of these technologies as well as benefits of their integration. In addition, the findings on the effects revealed that integration of AI-Blockchain-IoT technologies has a statistically significant positive effect on transparency in the seed supply chain. This study contributes to practice by providing insights into technologies that can enhance transparency so that all stakeholders can have clear visibility and access to information on the entire seed supply chain operations.

📊 Article Downloads

References

FAO. (2025, July 25). Kenya At Glance. Retrieved from Food and Agriculture Organization: https://www.fao.org/kenya/fao-in-kenya/kenya-at-a-glance/en/

Kimuri, M. (2022, December 7). Challenges in the Kenyan seed production sector. Retrieved from KilimoNews: https://kilimonews.co.ke/general-news/challenges-in-the-kenyan-seed-production-sector/?utm_source=chatgpt.com

KEPHIS. (2024, June 26). Intergrated Export Import Certification System. Retrieved from Kenya Plant Health Inspectorate Service: https://ieics.kephis.org/login.html

Jérôme, B., Joshua, M., & Kate, F. (2021, January 17). Seeds go digital: Faster and better-quality certification, a game-changer for African farmers? Retrieved from CIMMYT: https://www.cimmyt.org/news/seeds-go-digital-faster-and-better-quality-certification-a-game-changer-for-african-farmers/

CSM. (2022, February 17). Seed Certification System. Retrieved from CSM: https://www.csm.co.in/resource-details/seed-certification-system

Mariette, M., & Claude, M. (2022). Digital ecosystems for smallholder farmers: A rapid assessment of digital agriculture ecosystems in Zambia and Kenya. Utrecht, the Netherlands: The Netherlands Food Partnership

Meg, S. (2024, October 4). How to effectively manage information silos. Retrieved from Metataxis: https://metataxis.com/insights/information-silos-and-fragmentation/?utm_source=chatgpt.com

Gadwilliam, K., & Kimwele, M. (2025, July 2). Kenya Seeds Company urges farmers to verify seed quality using new code system. Kirinyaga, Central, Kenya

Narayan, K. A. (2023, August 22). Seed management: How digitization in agriculture can solve five critical business challenges. Retrieved from Cropin Company Website: https://www.cropin.com/blogs/seed-management

Rutsaert, P., Donovan, J., & Kimenju, S. (2021). Demand-side challenges to increase sales of new maize hybrids in Kenya. Technology in Society, https://www.doi.org/10.1016/J.TECHSOC.2021.101630 DOI: https://doi.org/10.1016/j.techsoc.2021.101630

Alex, M. (2023, June 12). Challenges and Opportunities the Seed Sector Faces. Retrieved from SeedWorld: https://www.seedworld.com/us/2023/06/12/challenges-and-opportunities-the-seed-sector-faces-2/

Kuntal, D. (2023, July 04). Blockchain Technology: A Farm-to-Plate traceability solution for seed value chain. Retrieved from Global Agriculture Food Security With Sustainability: https://www.global-agriculture.com/global-agriculture/blockchain-technology-a-farm-to-plate-traceability-solution-for-seed-value-chain/?utm_source=chatgpt.com

Bolwig, S., James, H., Louise, S., Sebastian, T. H., & Mathilde, B. ,. (2021). Digital solutions for agricultural value chains in Kenya: the role of private-sector actors. Copenhagen: UNEP DTU Partnership.

Dakhia, Z., Mariateresa, R., & Massimo, M. (2025). AI-Enabled IoT for Food Computing: Challenges, Opportunities, and Future Directions. Sensors 2025, 25(2147). doi: https://doi.org/10.3390/s25072147 DOI: https://doi.org/10.3390/s25072147

Downloads

Published

06-09-2025

Issue

Vol. 12 No. 5 (2025): September-October

Section

Research Articles

License

Copyright (c) 2025 International Journal of Scientific Research in Science, Engineering and Technology

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
Lilian Cherotich Ronoh, Samuel Mbugua, and Richard Ronoh, “Evaluating AI-Blockchain–IoT Capabilities and Effects on Transparency in Kenyan Seed Supply Chain”, Int J Sci Res Sci Eng Technol, vol. 12, no. 5, pp. 08–15, Sep. 2025, doi: 10.32628/IJSRSET2512538.