Agri-Tech startups transforming vegetable supply chains in Coimbatore

Nambiyar Sarvesh; Natarajan Kiruthika; Arumugam Vidyavathi; Kandasamy Mahendran; Karuppasamy Sivasubramanian

doi:10.14719/pst.5775

Authors

Nambiyar Sarvesh Department of Agricultural Economics, Tamil Nadu Agricultural University, Coimbatore 641 003, India https://orcid.org/0009-0009-3994-3229
Natarajan Kiruthika Department of Agricultural Economics, Tamil Nadu Agricultural University, Coimbatore 641 003, India https://orcid.org/0000-0002-9332-5220
Arumugam Vidyavathi Department of Agricultural Economics, Tamil Nadu Agricultural University, Coimbatore 641 003, India https://orcid.org/0000-0002-7901-1575
Kandasamy Mahendran Department of Agricultural and Rural Development, Tamil Nadu Agricultural University, Coimbatore 641 003, India https://orcid.org/0000-0001-5146-6052
Karuppasamy Sivasubramanian Department of Agronomy Tamil Nadu Agricultural University, Coimbatore 641 003, India https://orcid.org/0000-0001-9150-4316

DOI:

https://doi.org/10.14719/pst.5775

Keywords:

agri-tech startups, digital agriculture, supply chain efficiency, sustainable agriculture

Abstract

This research investigates the transformative role of digital agri-tech startups in optimizing vegetable supply chains in Coimbatore District, Tamil Nadu, India, with an emphasis on improving agricultural productivity and farmer welfare. Despite a marked 45% decline in agri-tech sector investments between the financial years 2021-2022 and 2022-2023, attributed to global interest rate hikes and economic uncertainties, startups such as WayCool, Farmers Fresh Zone and Farm again have demonstrated significant potential in enhancing supply chain efficiency and supporting farmer livelihoods through technological innovations. Employing a mixed-methods approach, this study integrates both qualitative and quantitative data derived from surveys, field visits, and interviews. Key performance indicators analyzed include Price Spread, Marketing Efficiency, Cost-Benefit Ratio and Productivity. Advanced econometric tools, including logistic regression and propensity score matching, were used to assess the impact of technology adoption on farmers’ outcomes. The results reveal that farmers utilizing digital platforms for crops such as onion and tomato achieved higher market prices, improved marketing efficiency and superior financial performance compared to those employing the conventional methods. Despite persisting challenges like resistance to technology adoption and inadequate internet connectivity, the findings emphasize the potential for substantial growth in the sector, driven by technological innovations. The study emphasizes the need to develop user friendly digital platforms, strengthen internet and technological infrastructure, and enhance government support through financial incentives and clear policy frameworks to encourage the broader use of agri-tech solutions. Overall, the research highlights the significant potential of digital agricultural technologies to improve farming practices, increase farmer earnings, and serve as a model that can be adapted to similar agricultural regions.

Downloads

References

Kumar K, Babu TR, Deshmukh SS. Nurturing Growth: Agri-Startup Landscape in India and the Challenges Ahead. Res World Agric Econ [Internet]. 2024 [Cited 2024 July 18]; 5(2):131-49. https://doi.org/10.36956/rwae.v5i2.1073

Reisman E. Sanitizing agri-food tech: COVID-19 and the politics of expectation. J Peasant Stud [Internet]. 2021 [Cited 2024 Aug 4]; 48(5):910-33. https://doi.org/10.1080/03066150.2021.1934674

Ganeshkumar C, David A, Jebasingh DR. Digital transformation: Artificial intelligence-based product benefits and problems of agritech industry. Adv Ser Manag [Internet]. 2022 [Cited 2024 April 21]; 27(1):141-163). https://doi.org/10.1108/S1877-636120220000027010

Suresh D, Choudhury A, Shaw R. Future of Agritech Startups: Perspectives from India and Japan. In: Shaw R, Oikawa Y, editors. India, Japan and Beyond: Human Security, Environment, Development, Innovation and Resilience. Singapore: Springer Nature Singapore; 2024. pp. 193-210. https://doi.org/10.1007/978-981-97-3282-1_12

Sharma K, Kumar R, Kumar A, Balabantaray S, Arora M. A digital ecosystem for sustainable fruit supply chain in Uttarakhand: a comprehensive review. Environ Dev Sustain [Internet]. 2024 [Cited 2024 July 17]; 26(5):13217-52. https://doi.org/10.1007/s10668-023-04142-8

Chaudhary S, Suri PK. Agri-tech: Experiential learning from the Agri-tech growth leaders. Technol Anal Strateg Manag [Internet]. 2024 [Cited 2024 Jul 23]; 36(7):1524-37. https://doi.org/10.1080/09537325.2022.2100755

Gagnon MA, Broad G, Grandison K, Chiles RM. AgriTech investor and informant perspectives about cellular agriculture. Int Food Agribusiness Manag Rev [Internet]. 2023 [Cited 2024 June 28]; 26(1):89-109. https://doi.org/10.22434/IFAMR2022.0017

Srivastava MK, Dash A, Shaikh I. Funding innovation and risk: A grey-based startup investment decision. Eval. Rev [Internet]. 2024 [Cited 2024 Aug 11]: 38(4): 44-73. https://doi.org/10.1177/0193841X241262887

Limpamont A, Kittipanya?ngam P, Chindasombatcharoen N, Cavite HJ. Towards agri?food industry sustainability: Addressing agricultural technology adoption challenges through innovation. Bus Strategy Environ [Internet]. 2024 [Cited 2024 Aug 14]; 33(7): 7352-7367. https://doi.org/10.1002/bse.3871

Musa SF, Basir KH. Smart farming: towards a sustainable agri-food system. Br Food J [Internet]. 2021 [Cited 2024 Jul 30]; 123(9):3085-99. https://doi.org/10.1108/BFJ-03-2021-0325

Singh N, Kapoor S. Configuring the agricultural platforms: farmers' preferences for design attributes. J Agribus Dev Emerg Econ [Internet]. 2023 [Cited 2024 Apr 18]; 14(5): 1176-1194. https://doi.org/10.1108/JADEE-09-2022-0204

Nuthalapati CS, Nuthalapati C. Has Open innovation taken root in India; Evidence from startups working in food value chains. Circ Econ Sust [Internet]. 2021 [Cited 2024 July 11]; 1(4):1207-30. https://doi.org/10.1007/s43615-021-00074-5

Hackfort S. Patterns of inequalities in digital agriculture: A systematic literature review. Sustainability [Internet]. 2021 [Cited 2024 July 2]; 13(22):12345. https://doi.org/10.3390/su132212345

Swain S, Patoju SK, Manjushree P. Entrepreneurial value creation: Study on small agri-tech enterprise. South Asian J Bus Manag Cases [Internet]. 2022 [Cited 2024 July 9]; 11(2):167-77. https://doi.org/10.1177/22779779221103611

Wolfert S, Verdouw C, van Wassenaer L, Dolfsma W, Klerkx L. Digital innovation ecosystems in agri-food: design principles and organizational framework. Agric Syst [Internet]. 2023 [Cited 2024 Jul 11]; 204:103558. https://doi.org/10.1016/j.agsy.2022.103558

Zhao G, Chen X, Jones P, Liu S, Lopez C, Leoni L, et al., Understanding the drivers of industry 4.0 technologies to enhance supply chain sustainability: insights from the agri-food industry. Inf Syst Front [Internet]. 2024 [Cited 2024 Aug 15]: 1(1): 31. https://doi.org/10.1007/s10796-024-10539-1

Vlachopoulou M, Ziakis C, Vergidis K, Madas M. Analyzing agrifood-tech e-business models. Sustainability [Internet]. 2021 [Cited 2024 Jul 11]; 13(10):5516. https://doi.org/10.3390/su13105516

Rayhan MJ, Rahman SM, Mamun AA, Saif AN, Islam KA, Alom MM et al., FinTech solutions for sustainable agricultural value chains: A perspective from smallholder farmers. Bus Strategy Environ [Internet]. 2024 [Cited 2024 July 30]; 7(2):358. https://doi.org/10.1002/bsd2.358

Klerkx L, Villalobos P. Are AgriFoodTech start-ups the new drivers of food systems transformation: An overview of the state of the art and a research agenda. Glob Food Sec [Internet]. 2024 [Cited 2024 Aug 10]; 40:100726. https://doi.org/10.1016/j.gfs.2023.100726

Abate GT, Abay KA, Chamberlin J, Kassim Y, Spielman DJ, Tabe-Ojong MP. Digital tools and agricultural market transformation in Africa: Why are they not at scale yet, and what will it take to get there. Food Policy [Internet]. 2023 [Cited 2024 Aug 7]; 116:102439. https://doi.org/10.1016/j.foodpol.2023.102439