Abstract
Academic and business interest in blockchain and its potential benefits for businesses has risen considerably since 2016. Blockchain is considered as a distributed ledger technology that records transactions between parties in a protected and permanent way and enables transferring data and assets easily without relying on a third-party intermediary. Current supply chains are mostly linear and heavily complex networks with various stakeholders which often causes low transparency, data silos and unstandardized processes. The aim of this paper is first, to analyze the overall perspectives of blockchain technology and second, to investigate the potentials of blockchain to enable sustainable supply chains which would eliminate many shortcomings in current supply chains. This paper analyses three cases which exploited the potentials of blockchain technology with the aim of promoting sustainable sourcing from origin to consumers. The analysis compares three different cases of global supply chains, with a focus on corporate sustainability in agriculture, and manufactured goods. The results of our analysis show that blockchain has the potential to boost the supply chain sustainability, however the blockchain can’t guarantee that all supply chain stakeholders provide accurate, uniform and verifiable data. This paper provides a conceptual framework to better understand the benefits and challenges of the blockchain technology. Both academics and practitioners in companies might find this framework useful, as it outlines important lines of research in the field.
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References
Abeyratne SA, Monfared RP (2016) Blockchain ready manufacturing supply chain using distributed ledger. Int J Res Eng. 05(09):1–10. https://doi.org/10.15623/ijret.2016.0509001
Bext360 (2018) Retrived 10 Sept 2018 from: https://www.bext360.com/
Blockchain for social impact (2018) Provenance. Retrived 10 Sept 2018 from: https://www.blockchainforsocialimpact.com/provenance/
Bloomberg (2018). Retrived 11 Sept 2018 from: https://www.bloomberg.com/research/stocks/private/snapshot.asp?privcapId=531637748
Bogart S, Rice K (2015) The Blockchain report: welcome to the internet of value. Needham & Company, October, pp 1–57. https://doi.org/10.15623/ijret.2016.0509001
Buterin V (2014) A next-generation smart contract and decentralized application platform. Etherum, pp 1–36. https://doi.org/10.5663/aps.v1i1.10138
Casado-Vara R, Prieto J, De La Prieta F, Corchado JM (2018) How blockchain improves the supply chain: case study alimentary supply chain. Procedia Comput Sci 134:393–398. https://doi.org/10.1016/j.procs.2018.07.193
Chartered Accountants Australia and New Zealand (2017) The future of blockchain: applications and implications of distributed ledger technology
Circle Economy (2018) Blockchain and the circular economy: an exploration, “the best thing since the internet” or a solution looking for its problem? Could it be both? Retrived 15 Sept 2018 from: https://www.circle-economy.com/blockchain-and-the-circular-economy-an-exploration/#.W6IHHmgzaM8
Consulting DT (2017) Continuous interconnected supply chain: using blockchain and internet-of-things in supply chain traceability, pp 1–24
Cottrill K (2018) The benefits of blockchain: fact or wishful thinking? Supply Chain Manage Rev 22(1):20–25
De Caria R (2017) A digital revolution in international trade? The international legal framework for blockchain technologies, virtual currencies and smart contracts: challenges and opportunities. In: Modernizing international trade law to support innovation and sustainable development. UNCITRAL 50th anniversary congress, pp 1–18. Retrived 10 Sept 2018 from: http://www.uncitral.org/pdf/english/congress/Papers_for_Programme/5-DE_CARIA-A_Digital_Revolution_in_International_Trade.pdf
Drescher D (2017) Blockchain basics: a non-technical introduction in 25 steps. Blockchain basics: a non-technical introduction in 25 Steps. https://doi.org/10.1007/978-1-4842-2604-9
Dujak D, Sajter D (2019) Blockchain applications in supply chain. In: Kawa A, Maryniak A (eds) SMART supply network. ecoproduction (environmental issues in logistics and manufacturing), Springer, Cham. https://doi.org/10.1007/978-3-319-91668-2_2
GlobeNewswire (2018) Bext360 and coda coffee release the world’s first blockchain-traced coffee from bean to cup. Retrived 18 Sept 2018 from: https://globenewswire.com/news-release/2018/04/16/1472230/0/en/bext360-and-Coda-Coffee-Release-The-World-s-First-Blockchain-traced-Coffee-from-Bean-to-Cup.html
Golden SLM, Price A (2018) Sustainable supply chains: better global outcomes with blockchain, (January). Retrieved 7 Sept 2018 from: https://newamerica.org/documents/2067/BTA_Supply_Chain_Report_r2.pdf
Government Office for Science (2016) Distributed ledger technology: beyond block chain. A report by the UK Government Chief Scientific Adviser. Retrived 1 Sept 2018 from: https://www.gov.uk/government/uploads/system/uploads/attachment_data/file/492972/gs-16-1-distributed-ledger-technology.pdf
Hackius N, Petersen M (2017) Blockchain in logistics and supply chain: Trick or treat? In: Proceedings of the hamburg international conference of logistics (HICL)-digitalization in supply chain management and logistics. Hamburg, epubli, pp 3–18
Heutger M, Chung G (2018) Blockchain in logistics, pp 1–28. Retrieved 7 Aug 2018 from https://www.logistics.dhl/content/dam/dhl/global/core/documents/pdf/glo-core-blockchain-trend-report.pdf
Human Rights Watch (2018) Soon there won’t be much to hide, transparency in the apparel industry. Retrived 20 Sept 2018 from: https://www.hrw.org/world-report/2018/essay/transparency-in-apparel-industry
IBM (2018) IBM food trust: trust and transparency in our food. Retrived 20 Sept 2018 from: https://www.ibm.com/blockchain/solutions/food-trust
IBM (2017) IBM Blockchain: what can we solve together? Retrived 15 Sept 2018 from: https://www.ibm.com/blogs/think/2017/08/blockchain-ibm-food/
Kalinin KP, Berloff NG (2018) Blockchain platform with proof-of-work based on analog Hamiltonian optimisers, pp 1–10. https://doi.org/arXiv:1802.10091v1
Mainelli M, Milne A (2016) The impact and potential of block chain on the securities transaction lifecycle. Swift Institute Working Paper, 2015-007, p 81
Mesarić J, Dujak D (2013) Developing supply chain networks—status and trends. In: Proceedings of international scientific conference business logistics in modern management, faculty of economics in Osijek, Josip Juraj Strossmayer University of Osijek, Osijek, pp 59–71
Nasdaq (2017) Innovation percolates when coffee meets the blockchain. Retrived 15 Sept 2018 from: https://www.nasdaq.com/article/innovation-percolates-when-coffee-meets-the-blockchain-cm774790
Niforos M, Ramchandran V, Rehermann T (2017) Blockchain: opportunities for private enterprises in emerging markets. Ifc. Retrieved 25 Aug 2018 from: https://www.ifc.org/wps/wcm/connect/8a338a98-75cd-4771-b94c-5b6db01e2797/IFC-EMCompass-BlockchainReport_WebReady.pdf?MOD=AJPERES
NY Times (2013) Building collapse in Bangladesh leaves scores dead. Retrived 22 Sept 2018 from: https://www.nytimes.com/2013/04/25/world/asia/bangladesh-building-collapse.html
Pilkington M (2016) Blockchain technology: principles and applications. In: Olleros FX, Zhegu M (ed) Research handbook on digital transformations. Edward Elgar Publishing, pp 1–39
Provenance (2018a) Empowering the whole supply chain. Retrived 10 Sept 2018 from: https://www.provenance.org/
Provenance (2018b) Increasing transparency in fashion with blockchain. Retrived 10 Sept 2018 from: https://www.provenance.org/case-studies/martine-jarlgaard
RMA (2018) What is sustainable supply chain management? Retrived 26 Sept 2018 from: https://www.rmagreen.com/rma-blog/what-is-sustainable-supply-chain-management
Schillebeeckx et al (2016) Blockchain and smart contracts. Industry roundtable discussion paper. Retrieved 18 Sept 2018 from: https://www.smu.edu.sg/sites/business.smu.edu.sg/files/business/Strategy_Organisation/BlockChainReport_2016_02_highres.pdf
Scott DM (2017) Bext360 and the world of blockchain traceable coffee. Retrived 15 Sept 2018 from: https://medium.com/@theurbanejournalist/bext360-and-the-world-of-blockchain-traceable-coffee-4ee1d9bba560
Seuring S, Müller M (2008) From a literature review to a conceptual framework for sustainable supply chain management. J Clean Prod 16(15):1699–1710. https://doi.org/10.1016/j.jclepro.2008.04.020
Tian F (2018) An information system for food safety monitoring in supply chains based on HACCP, blockchain and internet of things. Doctoral thesis, WU Vienna University of Economics and Business, Vienna, Austria
Verhoeven P, Sinn F, Herden TT (2018) Examples from blockchain implementations in logistics and supply chain management: exploring the mindful use of a new technology. Logistics 20(2):1–19
Voss C, Tsikriktsis N, Frohlich M (2002) Case research in operations management. Int J Oper Prod Manage 22(2):195–219. https://doi.org/10.1108/01443570210414329
Xu JJ (2016) Are blockchains immune to all malicious attacks? Financ Innovation 25(2):1–9. https://doi.org/10.1186/s40854-016-0046-5
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Pavlić Skender, H., Zaninović, P.A. (2020). Perspectives of Blockchain Technology for Sustainable Supply Chains. In: Kolinski, A., Dujak, D., Golinska-Dawson, P. (eds) Integration of Information Flow for Greening Supply Chain Management. EcoProduction. Springer, Cham. https://doi.org/10.1007/978-3-030-24355-5_5
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