Dynamic Game Analysis of New Business Subjects for Rural Revitalization Development

[1] 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

[2] 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

[3] 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

[4] 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

[5] 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

[6] 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

[7] 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

[8] 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

[9] 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

[10] 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

[11] 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

[12] Ruml, A., & Qaim, M. (2021). New evidence regarding the effects of contract farming on agricultural labor use. Agricultural Economics. Search in Google Scholar

[13] 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

[14] 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

[15] 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

[16] 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

[17] 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

[18] 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

[19] 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

[20] 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

[21] 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

[22] 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

[23] 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

[24] 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

[25] 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

[26] 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

[27] 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

[28] 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

[29] 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

[30] 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

[31] 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

[32] 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

[33] 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