Sustainable Agricultural Development under the Influence of Technology: A Case Study of Bihar

Authors

  • Jitendra Kumar Sinha *

    Independent Researcher, Bengaluru, Karnataka 560076, India
  • Anurodh Kumar Sinha

    Jeevika, Manager (Monitoring & Evaluation), Patna, Bihar 800021, India

DOI:

https://doi.org/10.55121/nc.v4i1.385

Keywords:

Sustainable Economic Growth, Agricultural Technology, Cobb-Douglas Production Function

Abstract

Achieving “Zero Hunger,” one of the core Sustainable Development Goals (SDGs) adopted by the United Nations in 2015, necessitates transformative changes in agricultural systems through sustainable practices and resilient technologies. This study examines the influence of farm technologies and supporting infrastructure on agricultural value-added(GVA) in Bihar, a predominantly agrarian and economically underdeveloped state in India, utilizing time series data from 2000 to 2024. Employing advanced econometric models, dynamic simulations, and impulse response analyses, the research identifies key structural drivers and constraints of agricultural growth in the region. Technological advancement is shown to be a primary driver, with mechanization, improved seed varieties, multi-cropping, and agroforestry practices significantly enhancing land productivity. Capital stock investment exhibits a direct and positive elasticity (0.59%), with its impact persisting up to eight years before diminishing, underscoring the need for periodic reinvestment. Mechanization alone accounts for a 32% contribution to GVA, signalling a transition toward labour-saving technologies. Arable land expansion and sustainable practices also play a pivotal role, contributing 21% to agricultural GVA. Conversely, irrigation infrastructure and chemical fertilizers reveal mixed or negative short-term effects, likely due to inefficient application or ecological constraints. Variables such as labour, credit, forest area, and energy consumption are found to be statistically insignificant. The findings advocate for capital lifecycle management, precision farming, sustainable land use, targeted input application, and credit system reform. The study concludes that an integrated, evidence-based policy framework is essential to ensure sustained agricultural productivity, environmental stewardship, and the long-term realization of SDG-2 in Bihar.

References

[1] Hassanali, A., Herren, H., Khan, Z.R., et al., 2008. Integrated pest management: the push-pull approach for controlling insect pests and weeds of cereals, and its potential for other agricultural systems including animal husbandry. Philosophical Transactions of the Royal Society B: Biological Sciences. 363(1491), 611–621. DOI: https://doi.org/10.1098/rstb.2007.2173

[2] Bale, J.S., van Lenteren, J.C., Bigler, F., 2008. Biological control and sustainable food production. Philosophical Transactions of the Royal Society B: Biological Sciences. 363(1492), 761–776. DOI: https://doi.org/10.1098/rstb.2007.2182

[3] Goulding, K., Jarvis, S., & Whitmore, A., 2008. Optimizing nutrient management for farm systems. Philosophical Transactions of the Royal Society B: Biological Sciences. 363(1491), 667–680. DOI: https://doi.org/10.1098/rstb.2007.2177

[4] Roberts, T.L., 2007. In Fertilizer Best Management Practices: General Principles, Strategy Their Adoption, and Voluntary Initiatives vs. Regulations. Proceedings of the IFA International Workshop on Fertilizer Best Management Practices; 7–9 March 2007; Brussels, Belgium. pp. 29–32.

[5] David, S., David, Z., 2001. The Agricultural Innovation Process: Research and Technology Adoption in a Changing Agricultural Sector. In: Barrett, C.B., Just, D.R. (eds.). University of California: Berkeley, CA, USA. pp. 207–261. DOI: https://doi.org/10.1016/S1574-0072(01)10007-1

[6] Kaldor, N., 1957. A Model of Economic Growth. The Economic Journal. 67(268), 591–624. DOI: https://doi.org/10.2307/2227704

[7] Wang, K.T., Zhou, M.J., 2006. An Analysis of Technological Progress Contribution to the Economic Growth in the Construction Industry of China. Construction & Design for the Project. Mentioned in Influence of technologies on the growth rate of GDP from agriculture: A case study of sustaining economic growth of the agriculture sector in Bihar, Statistical Journal of IAOS, Vol 35 Issue 2 https://doi.org/10.3233/SJI-180436

[8] Saha, S., 2012. Productivity and Openness in the Indian Economy. Journal of Applied Economics and Business Research. 2(2), 91–102.

[9] Sivasubramonian, S., 2004. The Sources of Economic Growth in India, 1950-51 to 1999-2000. Oxford University Press: New Delhi, India.

[10] Viramani, A., 2004. Source of India’s Economic Growth: trends in Total factor productivity. ICRIER Working Paper No. 131. Indian Council for Research on International Economic Relations: New Delhi, India.

[11] Solow, R.M., 1956. A Contribution to the Theory of Economic Growth. The Quarterly Journal of Economics. 70(1), 65–94.

[12] Sarel, M., Robinson, D.J., 1997. Growth and Productivity in ASEAN Countries. International Monetary Fund: Washington, DC, USA.

[13] Khan, S.U., 2006. Macro Determinants of total Factor Productivity in Pakistan. State Bank of Pakistan Research Bulletin. 2(2), 383–401.

[14] Patra, S., Mishra, P., Mahapatra, S.C., et al., 2016. Modelling impacts of chemical fertilizer on agricultural production: a case study on Hooghly district, West Bengal, India. Modeling Earth Systems and Environment. 2, 1–11. DOI: https://doi.org/10.1007/s40808-016-0223-6

[15] Kumar, A., Yadav, D.S., 2008. Long-term Effects of Fertilizers on Soil Fertility and Productivity in a Rice-Wheat System. Journal of Agronomy and Crop science. 186(1), 47–54.

[16] Chao, W., Sun, J., 2013. Contribution of Agricultural Production Factors Inputs to Agricultural Economic Growth in Xinjiang. Guizhou Agricultural Sciences. 41(11), 221–224.

[17] Sinha, J.K., 2024. Economic Growth and Regional Disparities in Bihar and Selected Developed States of India: A Comprehensive Analysis of NSDP and PCNSDP. Journal of Applied Business Research. 40, 69–82.

[18] King, R.G., Levine, R., 1994. Capital fundamentalism, economic development, and economic growth. Carnegie-Rochester Conference Series on Public Policy. 40, 259–292. DOI: https://doi.org/10.1016/0167-2231(94)90011-6

[19] Levine, R., Renelt, D., 1991. A sensitivity analysis of cross-country growth regressions. WPS609, 1 July 2010. World Bank Group: Washington, D.C., USA.

[20] Young, D.J., 1991. Creating a Low-Anxiety Classroom Environment: What Does the Language Anxiety Research Suggest? The Modern Language Journal. 75(4), 426–439. DOI: https://doi.org/10.1111/j.1540-4781.1991.tb05378.x

[21] Bhattacharya, D., 2000. Bihar after Bifurcation: A Challenging Future. Economic and Political Weekly. 35(43–44), 3800–3804.

[22] Das Gupta, C., 2010. Unravelling Bihar’s ‘Growth Miracle’. Economic & Political Weekly. 45(52), 50–62.

[23] Kansal, M.L., Kumar, P., Kumar, A., 2017. IMPACT OF FLOOD AND ITS MANAGEMENT – A CASE STUDY OF BIHAR. International Journal of Advanced Research. 5(3), 1695–1706. DOI: https://doi.org/10.21474/IJAR01/3681

[24] Gupta, C.D., 2010. Unraveling Bihar's Growth Miracle. Economic and Political Weekly. 45(52), 50–62.

[25] Santra, S., Kumar, R., Bagaria, N., 2014. Structural change of Bihar economy during 1999 to 2010: a district-level analysis. The International Journal of Humanities and Social Studies. 2(1), 129–135.

[26] Kumar, D., 2020. Structural change, employment and economic growth in Bihar, India: A disaggregated sector-wise analysis. International Journal of Economics and Management Studies. 7(8), 187–196. DOI: https://doi.org/10.14445/23939125/IJEMS-V7I8P124

[27] Sabreen, M., Behera, D.K., 2020. Changing structure of rural employment in Bihar: Issues and challenges. The Indian Journal of Labour Economics. 63(3), 833–845. DOI: https://doi.org/10.1007/s41027-020-00279-6

[28] Sabreen, M., Behera, D.K., 2021. Determinants of non-farm employment in rural Bihar. Indian Journal of Economics and Development. 17(4), 831–839. DOI: https://doi.org/10.35716/IJED/21157

[29] Singh, A., Singh, A., 2023. Trends and Determinants of Labour Force Participation in Bihar: Insights from PFLS data 2021-22. International Research Journal of Modernization in Engineering Technology and Science. 5(6), 1–9. DOI: https://doi.org/10.56726/IRJMETS41273

[30] Singh, G., 2020. Access to non-farm employment in contemporary India: A study of Bihar and Punjab. Social Change. 50(4), 532–547. DOI: https://doi.org/10.1177/0049085720957512

[31] Sinha, J.K., 2023. Assessing the Impact of Sectoral Investment on Bihar's Economic Growth. International Journal of Political Science. 1(1), 33–42.

[32] Sinha, J.K., 2023. Revitalizing Bihar's Economy: A Sectoral Analysis of Agricultural and Allied Investments (1980-2021). The Journal of Income and Wealth. 45(1–2), 79–96.

[33] Sinha, J.K., Sinha, A.K., 2023. Declining Contribution of Agriculture to the Indian Economy in the Post-Economic Reforms Period. Asian Journal of Economics and Finance. 5(1), 61–85. DOI: https://doi.org/10.47509/AJEF.2023.v05i01.04

[34] Sinha, J.K., 2023. Economies of the Factors Affecting Crop Production in India: Analysis Based on Cobb-Douglas Production Function. Sumerianz Journal of Economics and Finance. 6(1), 10–18. DOI: https://doi.org/10.47752/sjef.61.10.18

[35] Sinha, J.K., 2024. Reviving Resilience: Analyzing Agricultural and Allied Investments in Bihar Amidst the COVID-19 Pandemic (1980-2022). Open Access Journal of Economic Research. 1(1), 1–13.

[36] Sinha, J.K., 2017. Contribution of Investment in Economic Growth of Major Sectors: With Focus on Agriculture & Allied Sector in Bihar. Statistical Journal of the IAOS. 33(2), 557–564.

[37] Sinha, J.K., 2019. Influence of technologies on the GDP growth rate from agriculture: A case study of sustaining economic growth of the agriculture sector in Bihar. Statistical Journal of the IAOS. 35(2), 277–287.

[38] Sinha, J.K., Sinha, A.K., 2020. SUSTAINABLE AGRICULTURAL DEVELOPMENT UNDER THE INFLUENCE OF TECHNOLOGY: A Case Study of Bihar. Indian Journal of Applied Business and Economic Research. 1(1), 1–18.

[39] Sinha, J.K., 2022. Public Expenditure for Agriculture Development & the Economic Growth of Bihar (1981-2019). Asian Journal of Economics & Finance. 4(4), 414–424. DOI: https://doi.org/10.47509/AJEF.2022.v04i04.04

[40] Sinha, J.K., Sinha, A.K., 2022. Syndrome of Declining Economic Importance of Agriculture in Bihar (1960-2018). Journal of Humanities, Arts and Social Science. 6(1), 1–15. DOI: http://dx.doi.org/10.26855/jhass.2022.01.001

[41] Sinha, J.K., 2022. Factors Influencing Sustainable Agricultural Development in Bihar. Indian Development Policy Review. 3(1), 47–65.

[42] Sinha, J.K., Verma, A., 2015. Estimation of Capital Formation & Incremental Capital–Output Ratio in Bihar (2004–05 to 2011–12). Journal of Income and Wealth. 37(1), 73–89.

[43] Sinha, J.K., Verma, A., 2015. TREND & GROWTH OF FIXED CAPITAL STOCK IN BIHAR. Journal of Income & Wealth. 37(2), 136–146.

[44] Sinha, J.K., Sinha, A.K., 2020. Trend and Growth of Capital Stock in Bihar During 1980-2017. Journal of Humanities, Arts and Social Science. 4(1), 57–66.

[45] National Sample Survey Office (NSSO), 2014. Employment and Unemployment Situation in India (July 2011- June 2012). Ministry of Statistics and Programme Implementation: New Delhi, India.

[46] Department of Economic Affairs, 2024. The Indian Economy: A Review. Government of India: New Delhi, India.

[47] Bihar Government, 2022. Economic Survey 2021-22 of the Government of Bihar. Government of Bihar: Patna, India. Available from: https://www.adriindia.org/Centre/report_details/bihar-economic-survey-2021-22-english (cited 20 February 2025).

[48] Reddy, A.A., Rani, C.R., Cadman, T., et al., 2016. Towards sustainable indicators of food and nutritional outcomes in India. World Journal of Science, Technology and Sustainability. 13(2), 128–142. DOI: https://doi.org/10.1108/WJSTSD-10-2015-0049

[49] Sarkar, A., Azim, J.A., Al Asif, A., et al., 2021. Structural equation modeling for indicators of sustainable agriculture: Prospects of a developing country’s agriculture. Land Use Policy. 109, 105638. DOI: https://doi.org/10.1016/j.landusepol.2021.105638

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Sinha, J. K., & Sinha, A. K. (2025). Sustainable Agricultural Development under the Influence of Technology: A Case Study of Bihar. New Countryside, 4(1), 79–101. https://doi.org/10.55121/nc.v4i1.385

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