Blockchain-Based Food Supply Chain Traceability: A Systematic Review of Privacy Preserving and Scalability

• Munir A. ADEWOYE

  Department of Computer Science Education, Federal College of Education (Tech.), Gombe State, Nigeria

  Author

• Ahmed ALIYU

  Department of Mathematical Sciences, Sa'adu Zungur University, Bauchi, Buchi State, Nigeria

  Author

• Usman A. ALI

  Department of Computer Science Education, Federal College of Education (Tech.), Gombe State, Nigeria

  Author

• Abdulrasheed JIMOH

  Department of Computer Science Education, Federal College of Education (Tech.), Gombe State, Nigeria

  Author

Food is fundamental to human survival, we eat to live, sustaining ourselves with nutrition that meets our daily needs. Food security, defined as universal physical and financial access to safe and nutritious food, depends heavily on efficient supply chains. However, ensuring this security faces significant challenges in tracking and transparency. This study examines two critical problems in blockchain-based food supply chain tracing: privacy preservation and scalability. While blockchain technology combined with Internet of Things (IoT) devices offers promising solutions for real-time monitoring, transparency, and fraud prevention in agricultural supply chains, questions remain about balancing computational efficiency with privacy protection, achieving scalable integration across multi-actor supply chains without compromising traceability, and implementing these systems in resource limited environments. Through a comprehensive review of current research, this study identifies emerging technologies like Zero Knowledge Proofs (ZKPs) and ZK-Rollups that enhance both throughput and privacy in decentralised systems. The research presents layered architectural models integrating blockchain ledgers, off-chain storage, IoT sensors, and cryptographic protocols to enable secure and scalable traceability. These models support compliance verification while protecting sensitive data and can be adapted for low-resource contexts. The findings demonstrate that scalable, privacy-preserving blockchain technologies can transform agricultural traceability, empowering supply chain stakeholders while maintaining data confidentiality and integrity. The study also identifies future research needs, including cross-chain interoperability, policy integration, cost-benefit analysis for smallholder farmers, and field validation.

• FJET_21_3_3

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