References
- 1. Ahmed, M., Ahmad, S., Waldrip, H.M., Ramin, M., Raza, M.A. (2020), “Whole Farm Modeling: A Systems Approach to Understanding and Managing Livestock for Greenhouse Gas Mitigation”, Economic Viability and Environmental Quality. In Animal Manure: Production, Characteristics, Environmental Concerns, and Management. American Society of Agronomy: Madison, WI, ASA, Vol. 67, pp. 345–371.
- 2. AIS. (2020), “Model calculations”, Agricultural Institute of Slovenia https://www.kis.si/Modelne_kalkulacije_OEK/ [Acessed 10/4/2021].
- 3. Antle, J.M. Jones, J.W. Rosenzweig, C. (2017), “Towards a new generation of agricultural system models, data, and knowledge products: introduction”, Agricultural Systems, Vol. 155 pp.186-190.
- 4. Coderoni S., Esposti R. (2018), “CAP payments and agricultural GHG emissions in Italy. A farm-level assessment”, Science of the Total Environment, Vol. 627, pp. 427–433.
- 5. Chandrakantha, L. (2014). “Using excel solver in optimization problems”, ResearchGate. Retrieved from https://www.researchgate.net/publication/267557388_USING_EXCEL_SOLVER_IN_OPTIMIZATION_PROBLEMS [Acessed 5/5/2021].
- 6. Ciaian, P., Espinosa, M., Paloma, S. G., Heckelei, T., Langrell, S., Louhichi, K., Sckokai, P., Thomas, A., & Vard, T. (2013), “Farm level modelling of CAP: A methodological overview”, In: European Commission. JRC Scientific and Policy Report. Seville, European Commission.
- 7. Hardaker, J.B., Lien, G., Anderson, J.R., Huirne, R.B. (2015), “Coping with Risk in Agriculture”, 3rd edition: Applied Decision Analysis. Oxford, CABI.
- 8. Iyer, P., Bozzola, M., Hirsch, S., Meraner, M., Finger, R. (2020), “Measuring farmer risk preferences in Europe: A systematic review”, J. Agric. Econ Vol. 71, pp. 3–26.
- 9. Louhichi, K., Ciaian, P., Espinosa, M., Colen, L., Perni, A., Gomez y Paloma, S. (2015), “An EU-Wide Individual Farm Model for Common Agricultural Policy Analysis (IFM-CAP)”, JRC Scientific and policy reports. Luxembourg, Publications Office of the European Union.
- 10. Lovec, M., Šumrada, T., Erjavec, E. (2020), “New CAP delivery model, old issues”., Intereconomics, Vol. 55, No. 2, pp. 112-119.
- 11. Mądry W., Roszkowska-Mądra B., Gozdowski D., Hryniewski R. (2016), “Some aspects of the concept, methodology and application of farming system typology”, EJPAU Vol.19, No.1, pp. 12.
- 12. Paut, R., Sabatier, R., Tchamitchian, M. (2019), “Reducing risk through crop diversification: an application of portfolio theory to diversified horticultural systems”, Agricultural Systems., Vol. 168, pp. 123-130.
- 13. Reidsma P., Janssen, S., Jansen, j., van Ittersum, M.K. (2018), “On the development and use of farm models for policy impact assessment in the European Union – A review”, Agricultural Systems, Vol. 159, pp. 111-125.
- 14. Rojas-Downing, M.M., Nejadhashemi, A.P., Harrigan T., Woznicki, S.A. (2017), “Climate change and livestock: Impacts, adaptation, and mitigation”, Climate risk management, Vol. 16, pp. 145-163.
- 15. Rosa, F., Taverna M., Nassivera F., Iseppi L. (2019), “Farm/crop portfolio simulations under variable risk: a case study from Italy”, Agricultural and food economics Vol. 7, No 1, pp. 1-15.
- 16. Stetter, C., Sauer, J. (2022), “Greenhouse Gas Emissions and Eco-Performance at Farm Level: A Parametric Approach”, Environmental and Resource Economics Vol. 81, No 1, pp. 617–647.
- 17. Tangermann, B.S. (2011), “Risk Management in Agriculture and the Future of the EU’s Common Agricultural Policy”. ICTSD Programme on Agricultural Trade and Sustainable Development, ICTSD International Centre for Trade and Sustainable Development, Geneva, Switzerland. Issue Paper No. 34.
- 18. Schils, R.L.M., Ellis, J.L., de Klein, C.A.M., Lesschen, J.P., Petersen, S.O., Sommer, S.G. (2012), “Mitigation of greenhouse gases from agriculture: Role of models”, Acta Agriculturae Scandinavica, Section A–Animal Science, Vol. 62, No.2, pp. 212–224.
- 19. Verbič J., Babnik, D., Bedrač, M., Bergant, J., Glad, J., Jejčič, V., Jeretina, J., Kodra, M., Kolmanič, A., Koman Rajšp, M., Leskovšek, R., Levart, A., Moljk, B., Pirman, T., Podgoršek, P., Poje, T., Rezar, V., Rovanšek, A., Salobir, J., Sušin, J., Zagorc, B., Žabjek, A., Žnidaršič, T. (2021), “Zmanjšanje izpustov toplogrednih plinov in amonijaka na kmetijskih gospodarstvih” (V4–1816). Zaključno poročilo o izvedbi raziskovalnega projekta ciljnega raziskovalnega programa »Zagotovimo.si hrano za jutri«. Ljubljana, Kmetijski inštitut Slovenije: Vol. 67. [in Slovene].
- 20. Žgajnar, J. (2017), “Equestrian activities and risk analysis at the farm level”, Future Farming Systems, 21st International Farm Management Congress Edinburgh, Scotland 2nd - 7th July 2017. Bristol: IFMA. Vol. 1, pp. 1-13.
- 21. Žgajnar, J., Bećirović, E. (2019), “Risk analysis at berry fruit farms”, Growing Agriculture @ 41 Degrees South - excellence in farm management through innovation, diversification and integration with tourism: congress proceedings, 22nd International Farm Management Congress 3-8 March 2019 Launceston, Tasmania Australia. Launcceston: Tasmanian Instirute of Agriculture pp. 1-13.
- 22. Žgajnar, J., Kavčič, S. (2016), “Optimal allocation of production resources under uncertainty: Application of the multicriteria approach”, Agricultural Economics, Vol. 62, No.12, pp. 556–565.
- 23. Žgajnar, J., Kavčič, S., Erjavec, E., Zagorc, B., Brečko, J., Moljk, B., Hiti, A., Jerič, D. (2022), Razvoj modela za sistematično spremljanje ekonomskega položaja in analizo vpliva kmetijske politike na ravni tipičnih kmetijskih gospodarstev [poročilo]. [in Slovene], Katalog tipičnih kmetijskih gospodarstev, Ljubljana, Biotehniška fakulteta Univerze v Ljubljani.