Digital Agriculture Infrastructures for Future Farming in India

Authors

  • Sathisha Ph.D. Scholar, Department of Studies and Research in Economics, Vijayanagara Sri Krishnadevaraya University, Ballari
  • Medhavini Katti Associate Professor, Department of Studies and Research in Economics, Vijayanagara Sri Krishnadevaraya University, Ballari

DOI:

https://doi.org/10.33516/maj.v58i6.43-47p

Keywords:

No Keywords

Abstract

This study focuses on the adoption of digital agriculture infrastructure in India. Digital farming methods through information and communication technology can be a game changer in the rural economy. For doubling farmer’s income by 2022, under this initiative, the Government of India introduced many programs and services with respect to digital agriculture. For example, Kisan Call Centres will provide free advice to farmers who have queries about agriculture and allied activities, many software and mobile applications were created to collect data on various topics, such as trade, market prices, crop diseases, soil types, seeds, pest control, etc. Under the ATMA scheme, the Government is conducting farmer fairs and exhibitions to spread awareness of agriculture technologies. Finally, digital agriculture infrastructure significantly influences farmers to improve their yield and production in the future.

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Published

2023-06-01

How to Cite

Sathisha, ., & Katti, M. (2023). Digital Agriculture Infrastructures for Future Farming in India. The Management Accountant Journal, 58(6), 43–47. https://doi.org/10.33516/maj.v58i6.43-47p

Issue

Volume 58, Issue 6, June 2023

Section

Agriculture
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References

Abdulai, A.& Fraser, E. 2023. What Factors Influence the Likelihood of Rural Farmer Participation in Digital Agricultural Services? Experience From Smallholder Digitalization in Northern Ghana. Outlook On Agriculture, 52(1):57–66.

Alabi, O. 2016. Adoption Of Information and Communication Technologies by Agricultural Science and Extension Teachers in Abuja, Nigeria. Journal of Agricultural Education, 57(1):137–149. Https://Doi.Org/10.5032/Jae.2016.01137

Barnes, A. P., Soto, I., Eory, V., et al., 2019. Exploring the Adoption of Precision Agricultural Technologies: A Cross-Regional Study of Eu Farmers. Land Use Policy, 80(3):163–174. Https://Doi.Org/10.1016/J.Landusepol.2018.10.004

Gulati, A., Ferroni, M. A., Zhou, 2018. Supporting Indian Farms, The Smart Way. Academic Foundation.18(20:1-10.

Jiang, Q., Li, J., Si, H., &Su, Y. 2022. The Impact of The Digital Economy on Agricultural Green Development: Evidence from China. Agriculture, 12,(8):11-19. Https://Doi.Org/10.3390/Agriculture12081107

Lin, J. Y. 1991. Public Research Resource Allocation in Chinese Agriculture: A Test of Induced Technological Innovation Hypotheses. Economic Development and Cultural Change, 40,(1): 55–73.

Narain, D. 2020. Transforming Indian Agriculture: A Policy Framework to Guide Us-India Partnership. Atlantic Council. Https://Www.Jstor.Org/Stable/Resrep26008.8,(3): PP,1-7

Olaniyi, E. 2018. Digital Agriculture: Mobile Phones, Internet & Agricultural Development in Africa. Actual Problems of Economics. 6,(5):77-90.

Pardey, P. G., & Craig, B. (1989). Causal Relationships Between Public Sector Agricultural Research Expenditures and Output. American Journal of Agricultural Economics, 71(1):9–19. Https://Doi. Org/10.2307/1241770

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