This work is licensed under the Creative Commons Attribution 4.0 International License.
Wang, M., Mccarl, B., Wei, H., & Shiva, L. (2021). Unintended consequences of agricultural participation in voluntary carbon markets: their nature and avoidance. Complexity, 2021(2), 1-17.Search in Google Scholar
Kozera-Kowalska, M. (2020). Intellectual capital: isva, the alternative way of calculating creating value in agricultural entities—case of poland. Sustainability, 12(7), 2645.Search in Google Scholar
Solomun, M. K., Ferreira, C. S. S., Barger, N. N., Toi, R., & Eremija, S. (2020). Understanding the role of policy frameworks in developing land degradation in stakeholders perception from a post‐conflict perspective in bosnia and herzegovina. Land Degradation & Development.Search in Google Scholar
Florea, A. M., Capatina, A., Radu, R. I., Constanța Serban (Bacanu), Boboc, M. G., & Stoica, C., et al. (2019). Limiting factors that influence the formation of producer groups in the south-east region of romania: a fuzzy set qualitative comparative analysis (fsqca). Sustainability, 11.Search in Google Scholar
Infante-Amate, J., Luedtke, B., Macfadyen, J., Robins, J., & Stevens, K. (2019). Roundtable fats of the land: new histories of agricultural oils. Agricultural History(3), 93.Search in Google Scholar
Stokes, S., Macintosh, K. A., & Mcdowell, R. W. (2021). Reflecting on the journey of environmental farm planning in new zealand. New Zealand Journal of Agricultural Research, 1-8.Search in Google Scholar
Bandewar, S. V. S., Wambugu, F., & Emma Richardson…. (2017). The role of community engagement in the adoption of new agricultural biotechnologies by farmers: the case of the africa harvest tissue-culture banana in kenya. Bmc Biotechnology, 17(1). Search in Google Scholar
A, V. S., A, S. B. O., A, A. D., B, I. T. K., C, L. B. J., & C, B. N., et al. (2019). Using spatial multi-criteria decision analysis to develop new and sustainable directions for the future use of agricultural land in denmark. Ecological Indicators, 103, 34-42.Search in Google Scholar
Zhou, J., Xu, N., Zhang, W., & Ning, X. (2024). Can agricultural low-carbon development benefit from urbanization?-empirical evidence from china’s new-type urbanization pilot policy. Journal of cleaner production(Jan.5), 435.Search in Google Scholar
Soule, E., Charbonnier, R., Schlosser, L., Michonneau, P., Michel, N., & Bockstaller, C. (2023). A new method to assess sustainability of agricultural systems by integrating ecosystem services and environmental impacts. Journal of cleaner production(Aug.20), 415.Search in Google Scholar
Lukin, V., Lukin, D., & Chupahina, Y. V. (2020). New approaches to the development of agricultural education through digital technologies. The Computer Journal.Search in Google Scholar
Ruml, A., & Qaim, M. (2021). New evidence regarding the effects of contract farming on agricultural labor use. Agricultural Economics.Search in Google Scholar
Fanelli, R. M. (2019). A new classification of european union regions: a decision support tool for policymakers. Spanish Journal of Agricultural Research, 17(1), e0102.Search in Google Scholar
Ostapenko, D. (2018). Generating new production knowledge: competitive agricultural events in the british australian colony of victoria, c.1840–1890. Agricultural History, 92(4), 491.Search in Google Scholar
Nalley, Lawton, L., Shew, Aaron, & M., et al. (2017). New innovations in agricultural biotech: consumer acceptance of topical rnai in rice production. Food Control.Search in Google Scholar
Szabo, U., Patrik Richnák, & Klaudia Gubová. (2021). New dimension of logistics innovations development in agricultural enterprises in slovakia. Agricultural Economics(67-4). Search in Google Scholar
Néstor Le Clech, & Carmen Fillat-Castejón. (2020). New estimates of total factor productivity, technical and efficiency changes for the global agricultural economy. Spanish Journal of Agricultural Research, 18.Search in Google Scholar
Ionescu, R. V., Zlati, M. L., Antohi, V. M., Stanciu, S., Virlanuta, F. O., & Serban, C. B. (2020). New agricultural model of economic sustainability for wheat seed production in romania. Sustainability, 12.Search in Google Scholar
Barbosa, E. G., Araujo, M. E. V., Barbosa, E. G., Moraes, M. J., Heredia, J. H. F., & Gomes, F. A., et al. (2018). Sizing and economic feasibility of different types of solar collectors for a milk producing property in the tropic. Journal of Agricultural Science(1). Search in Google Scholar
Myeni, L., Moeletsi, M., Thavhana, M., Randela, M., & Mokoena, L. (2019). Barriers affecting sustainable agricultural productivity of smallholder farmers in the eastern free state of south africa. Sustainability, 11(11), 3003.Search in Google Scholar
Emilio, P., & Sánchez Mercedes. (2018). Growth-oriented new agricultural ventures: the role of entrepreneurial resources and capabilities under convergence forces. European Review of Agricultural Economics(5), 5.Search in Google Scholar
Ming, L., Xuechun, F., Congshan, T., Yaqi, L., Weizhao, Z., & Baoyue, G., et al. (2024). Do large-scale agricultural entities achieve higher livelihood levels and better environmental outcomes than small households? evidence from rural china. Environmental Science and Pollution Research(14), 31.Search in Google Scholar
Adamisin, P., Kotulic, R., & Kravcakova Vozarova, I. (2017). Legal form of agricultural entities as a factor in ensuring the sustainability of the economic performance of agriculture. Agricultural Economics(2), 63.Search in Google Scholar
Eva, H., & Roman, S. (2018). Return on sales and wheat yields per hectare of european agricultural entities. Agricultural Economics (Zemědělská ekonomika). Search in Google Scholar
Du, J., Zhou, Z., & Xu, L. (2020). Evolutionary game mechanism on complex networks of green agricultural production under intensive management pattern. Complexity, 2020(9), 1-13.Search in Google Scholar
Rela, I. Z., Firihu, M. Z., Awang, A. H., Iswandi, M., Malek, J. A., & Nikoyan, A., et al. (2021). Formation of farming community resilience models for sustainable agricultural development at the mining neighborhood in southeast sulawesi indonesia. Sustainability, 13(2), 878.Search in Google Scholar
Florea, A. M., Bercu, F., Radu, R. I., & Stanciu, S. (2019). A fuzzy set qualitative comparative analysis (fsqca) of the agricultural cooperatives from south east region of romania. Sustainability, 11.Search in Google Scholar
Zhou, Q., Chen, X., & Li, S. (2018). Innovative financial approach for agricultural sustainability: a case study of alibaba. Sustainability, 10(3). Search in Google Scholar
Szabo, L., Romanova, A., Bolek, V., & Zelina, M. (2017). Intensity of ict use by managers of agricultural enterprises. Agricultural Economics, 63(No. 11), 485-492.Search in Google Scholar
Secinaro, S., Mas, F. D., Massaro, M., & Calandra, D. (2022). Exploring agricultural entrepreneurship and new technologies: academic and practitioners’ views. British food journal.Search in Google Scholar
Farhangi, M. H., Turvani, M. E., Valk, A. V. D., & Carsjens, G. J. (2020). High-tech urban agriculture in amsterdam: an actor network analysis. Sustainability, 12.Search in Google Scholar
Krylova, V. S., Aldazhanova, G. B., & Bassova, T. A. (2020). Assessment of environmental state of agricultural land in zhambyl region. Oxidation Communications(2), 43.Search in Google Scholar
A. P. Durán, Smith, M., Trippier, B., Godoy, K., Parra, M., & Lorca, M., et al. (2022). Implementing ecosystem service assessments within agribusiness: challenges and proposed solutions. Journal of Applied Ecology.Search in Google Scholar