Abstract
This paper examines strategies for aligning agricultural production with environmental objectives, focusing on the integration of sustainable farming practices, policy instruments, and technological innovation. It highlights key approaches such as precision agriculture, conservation tillage, agroforestry, and improved nutrient management, all of which contribute to reducing negative environmental externalities while sustaining agricultural productivity. The study further explores the role of market-based mechanisms, including payments for ecosystem services and carbon credit systems, in incentivizing environmentally responsible farming practices. These instruments are presented as effective tools for internalizing environmental costs and encouraging farmers to adopt more sustainable production methods. By analyzing the relationship between economic efficiency and ecological stewardship, the paper emphasizes that environmental protection and agricultural productivity can be mutually reinforcing objectives. An environmentally oriented agricultural system is shown to have significant potential to support climate change mitigation, enhance biodiversity conservation, and ensure the long-term sustainability of natural resources.
Cuvinte cheie
sustainability
economic inequality
farming practices
environmental
Istoric articol
Publicat
01.04.2026
Informații autori
Citare recomandată
Adela Sorinela SAFTA, Lavinia POPESCU (2026). Toward Sustainable Agricultural Systems: Balancing Productivity and Environmental Protection. Journal of Fiability and Durability, 1(1), 46–52. https://doi.org/10.65631/JFD.1(37).2026.7
Referințe bibliografice
[1]. Agri-food data portal, and European agriculture and common agricultural policy, available at https://agridata.ec.europa.eu/extensions/DashboardCereals/CerealsTrade.html, (accessed 12 June 2021)
[2]. European Commission, 2016. Mapping and analysis of the implementation of the CAP, Brussels: ECORYS. Accessed: 14th of March 2021, https://op.europa.eu/en/publication-detail/-/publication/65c49958-e138-11e6-ad7c-01aa75ed71a1
[3]. Clementi, F., Gallegati, M., & Kaniadakis, G. (2016). A generalized statistical mechanics approach to income analysis. Journal of Statistical Mechanics: Theory and Experiment, 2016(6), 1–22. https://doi.org/10.1088/1742-5468/2016/06/063404
[4]. Eurofound. (2023). Bridging the rural–urban divide: Addressing inequalities and empowering communities. Publications Office of the European Union. https://www.eurofound.europa.eu/en/publications/all/bridging-rural-urban-divide-addressing-inequalities-and-empowering-communities
[5]. Eurofound. (2024). Developments in income inequality and the middle class in the EU. Publications Office of the European Union. https://www.eurofound.europa.eu/en/publications/2024/developments-income-inequality-and-middle-class-eu
[6]. Eurostat. (2025, November 3). Income inequality across the EU (News release). EU Statistics. https://ec.europa.eu/eurostat/web/products-eurostat-news/w/DDN-20231103-1
[7]. Eurostat. (2025, April 30). People at risk of poverty or social exclusion in 2024 (News release). EU Statistics. https://ec.europa.eu/eurostat/web/products-eurostat-news/w/ddn-20250430-2
[8]. Nancu et al (2022), A strategies for using nitrates to improve soil performance and soil c sequestration, Economics of Agriculture, Economics of Agriculture January 2022, Ekonomika Poljopridere 69(3):649-664, DOI: 10.5937/ekoPolj2203649P, https://ea.bg.ac.rs/index.php/EA/article/view/1976
[9]. OECD reports 8-June-2021, Building Agricultural Resilience to Natural Hazard-induced Disasters - Insights from Country Case Studies https://www.oecd.org/unitedstates/publicationsdocuments/reports/
[10]. POPESCU L., et al. (2020) - The impact of agricultural activities on greenhouse gas generation, published in the Journal of Research and Innovation for a Sustainable Society (JRISS) Volume 2, Issue 1, 2020 ISSN: 2668-0416 Thoth Publishing House, DOI: 10.33727/JRISS.2020.1.13:87-102, https://jriss.4ader.ro/pdf/2020-01/13_Safta.pdf
[11]. Popescu, L., & Safta, A. S. (2020, July). Considerations regarding improving the ecological and environmental performance of agriculture. In Proceedings of the International Conference on Business Excellence (Vol.14, No.1, pp.697-707). Bucharest University of Economic Studies
[12]. POPESCU, L., at al, 2021, The role of phosphates in agriculture and highlighting key issues in agriculture from a climate change perspective, Economics of Agriculture, Published: 2021-12-24, Vol. 4 (2021), 1001-1014; https://ea.bg.ac.rs/index.php/EA/index
[13]. Pugh, TAM, Arneth, A., Olin, S., Ahlström, A., Bayer, AD, Goldewijk, KK. & Schurgers, G. (2015). Simulated carbon emissions from land-use change are substantially enhanced by accounting for agricultural management. Environmental Research Letters, 10(12), 124008
[14]. Regulation (EC) No 1185/2009 of the European Parliament and of the Council of 25 November 2009 concerning statistics on pesticides (Text with EEA relevance), OJ L 324, 10.12.2009, pp. 1–22
[15]. Popescu, L., & Safta, A. S. (2020, July). Considerations regarding improving the ecological and environmental performance of agriculture. In Proceedings of the International Conference on Business Excellence (Vol.14, No.1, pp.697-707). Bucharest University of Economic Studies
[16]. Popescu, L., at al, 2021, The role of phosphates in agriculture and highlighting key issues in agriculture from a climate change perspective, Economics of Agriculture, Published: 2021-12-24, Vol. 4 (2021), 1001-1014; https://ea.bg.ac.rs/index.php/EA/index
[17]. Pugh, TAM, Arneth, A., Olin, S., Ahlström, A., Bayer, AD, Goldewijk, KK, ... & Schurgers, G. (2015). Simulated carbon emissions from land-use change are substantially enhanced by accounting for agricultural management. Environmental Research Letters, 10(12), 124008
[18]. Regulation (EC) No 1185/2009 of the European Parliament and of the Council of 25 November 2009 concerning statistics on pesticides (Text with EEA relevance), OJ L 324, 10.12.2009, pp. 1–22
[19]. Safta, A. S., & Popescu, L. (2024). Considerations regarding environmental performance from the perspective of the sustainability. Environmental Engineering & Management Journal (EEMJ), 23(3)
[20]. Popescu, L., & Safta, A. S. (2020). The causal relationship of agricultural standards, climate change and greenhouse gas recovery. Environmental Sciences Proceedings, 4(1), 21
[21]. Popescu, L., & Safta, A. S. (2021). The role of phosphates in agriculture and highlighting key issues in agriculture from a climate change perspective. Економика пољопривреде, 68(4), 1001-1014
[22]. Safta, A. S., & Popescu, L. (2024). Sustanaibility from concept to paradigm of environmental policies. Eastern European Journal for Regional Studies (EEJRS), 181-193. DOI: https://doi.org/10.53486/2537-6179.10-1.11
[23]. National Institute of Statistics (INSSE) data report in 2023, available at https://insse-ro.translate.goog/cms/ro/content/pesticide-plasate-pe-pia-n-anul-2023?_x_tr_sl=auto&_x_tr_tl=en&_x_tr_hl=ro&_x_tr_pto=wapp