Value Added in Irrigated Contrary to Rainfed Corn Production

Abu Zeid, M. (2001). Water pricing in irrigated agriculture. International Journal of Water Resources Development, 17(4), 527-538, https://doi.org/10.1080/07900620120094109 Search in Google Scholar

Al Hinai, A., & Jayasuriya, H. (2021). Enhancing economic productivity of irrigation water by product value addition: Case of dates. Journal of the Saudi Society of Agricultural Sciences, 20(8), 553-558, https://doi.org/10.1016/j.jssas.2021.06.007 Search in Google Scholar

Baranchuluun, S., Bayanjargal, D., & Adiyabadam, G. (2014). A cost benefit analysis of crop production with various irrigation systems. Ifeama Spscp, 5:146-156. Search in Google Scholar

Bebber, D., Holmes, T., & Gurr, S. (2014). The global spread of crop pests and pathogens. Global Ecology and Biogeography, 23(12), 1398-1407, https://doi.org/10.1111/geb.12214 Search in Google Scholar

Belaud, G., Mateos, L., Aliod, R., Buisson, M., Faci, E., Gendre, S., Ghinassi, G., Gonzales Perea, R., Lejars, C., Maruejols, F., & Zapata, N. (2020). Irrigation and energy: Issues and challenges. Irrigation and Drainage, 69, 177-185, https://doi.org/10.1002/ird.2343 Search in Google Scholar

Berbel, J., Mesa Jurado, M., & Piston, J. (2011). Value of irrigation water in Guadalquivir Basin (Spain) by residual value method. Water Resources Management, 25, 1565-1579, https://doi.org/10.1007/s11269-010-9761-2 Search in Google Scholar

Bjornlund, H., van Rooyen, A., & Stirzaker, R. (2017). Profitability and productivity barriers and opportunities in small-scale irrigation schemes. International Journal of Water Resources Development, 33(5), 690-704, https://doi.org/10.1080/07900627.2016.1263552 Search in Google Scholar

Coltrain, D., Barton, D., & Boland, M. (2000). Value added: Opportunities and strategies. Arthur Capper Search in Google Scholar

Cooperative Center, Department of Agricultural Economics, Kansas State University, Kansas City, USA. Search in Google Scholar

Ćurčić, M., Slovak, S., & Mitrović, S. (2021). Revitalisation of agriculture of the Republic of Serbia as a factor of economic development. Western Balkan Journal of Agricultural Economics and Rural Development (WBJAERD), 3(2), 123-132, doi: 10.5937/WBJAE2102123C Search in Google Scholar

Darko, R., Yuan, S., Hong, L., Liu, J., & Yan, H. (2016). Irrigation, a productive tool for food security: A review. Acta Agriculturae Scandinavica, Section B: Soil & Plant Science, 66(3), 191-206, https://doi.org/10.1080/09064710.2015.1093654 Search in Google Scholar

Erenstein, O., Jaleta, M., Sonder, K., Mottaleb, K., & Prasanna, B. (2022). Global maize production, consumption and trade: Trends and R&D implications. Food Security, 14(5), 1295-1319, https://doi.org/10.1007/s12571-022-01288-7 Search in Google Scholar

Estoque, R., Togawa, T., Ooba, M., Gomi, K., Nakamura, S., Hijioka, Y., & Kameyama, Y. (2019). A review of quality of life (QOL) assessments and indicators: Towards a “QOL-Climate” assessment framework. Ambio, 48:619-638, https://doi.org/10.1007/s13280-018-1090-3 Search in Google Scholar

Gohar, A., Amer, S., & Ward, F. (2015). Irrigation infrastructure and water appropriation rules for food security. Journal of Hydrology, 520, 85-100, https://doi.org/10.1016/j.jhydrol.2014.11.036 Search in Google Scholar

Grassini, P., Yang, H., & Cassman, K. (2009). Limits to maize productivity in Western Corn-Belt: A simulation analysis for fully irrigated and rainfed conditions. Agricultural and forest meteorology, 149(8), 1254-1265, https://doi.org/10.1016/j.agrformet.2009.02.012 Search in Google Scholar

Gulan, B. (2021). Za deset godina suše uzele danak od šest milijardi dolara [In ten years drought made a loss for six milliard USD]. Portal Agrosmart, Novi Sad, Serbia, retrieved at: https://agrosmart.net/2021/08/20/za-deset-godina-suse-uzele-danak-od-sest-milijardi-dolara/, 2^nd February 2024. Search in Google Scholar

Haarhoff, S., & Swanepoel, P. (2018). Plant population and maize grain yield: a global systematic review of rainfed trials. Crop Science, 58(5), 1819-1829, https://doi.org/10.2135/cropsci2018.01.0003 Search in Google Scholar

Halley, J., Van Houtan, K., & Mantua, N. (2018). How survival curves affect populations’ vulnerability to climate change. PLoS One, 13(9), e0203124, https://doi.org/10.1371/journal.pone.0203124 Search in Google Scholar

Hamilton, J., & Gardner, R. (1986). Value added and secondary benefits in regional projection evaluation: Irrigation development in the Snake River basin. Annals of Regional Science, 20:1-11, https://doi.org/10.1007/BF01283620 Search in Google Scholar

Henry, W., & Krutz, L. (2016). Water in agriculture: Improving corn production practices to minimize climate risk and optimize profitability. Current Climate Change Reports, 2, 49-54, https://doi.org/10.1007/s40641-016-0035-9 Search in Google Scholar

Hussain, I. (2007). Direct and indirect benefits and potential disbenefits of irrigation: evidence and lessons. Irrigation and Drainage, 56(2‐3), 179 -194, https://doi.org/10.1002/ird.301 Search in Google Scholar

IAE (2023). Data related to introduction of irrigation in corn growing. Internal data, Institute of Agricultural Economics, Belgrade, Serbia. Search in Google Scholar

Jeločnik, M., Subić, J., & Zdravković, A. (2022). Economic effects of investment in irrigation systems implementation at the small family farms. Economics of Agriculture, 69(3), 793-817, https://doi.org/10.5937/ekoPolj2203793J Search in Google Scholar

Jeločnik, M., Zubović, J., & Zdravković, A. (2019). Estimating impact of weather factors on wheat yields by using panel model approach: The case of Serbia. Agricultural water management, 221:493-501, https://doi.org/10.1016/j.agwat.2019.05.015 Search in Google Scholar

Kovacevic, D., Oljaca, S., Dolijanovic, Z., & Milic, V. (2012). Climate changes: Ecological and agronomic options for mitigating the consequences of drought in Serbia. In: Proceedings of III International Scientific Symposium Agrosym, University of Agriculture, East Sarajevo, BiH, pp. 17-35, doi: 10.7251/AGSY1203017K Search in Google Scholar

Kresovic, B., Matovic, G., Gregoric, E., Djuricin, S., & Bodroza, D. (2014). Irrigation as a climate change impact mitigation measure: An agronomic and economic assessment of maize production in Serbia. Agricultural Water Management, 139, 7-16, https://doi.org/10.1016/j.agwat.2014.03.006 Search in Google Scholar

O’Shaughnessy, S., Evett, S., Colaizzi, P., Andrade, M., Marek, T., Heeren, D., Lamm, F., & LaRue, J. (2019). Identifying advantages and disadvantages of variable rate irrigation: An updated review. Applied Engineering in Agriculture, 35(6), 837-852, doi: 10.13031/aea.13128 Search in Google Scholar

Ortiz, A., Outhwaite, C., Dalin, C., & Newbold, T. (2021). A review of the interactions between biodiversity, agriculture, climate change, and international trade: Research and policy priorities. One Earth, 4(1), 88-101, https://doi.org/10.1016/j.oneear.2020.12.008 Search in Google Scholar

Patarlageanu, S. (2007). Eficiența utilizarii tehnologiei informatice in agricultura. Agricultura: Stiinta si practica, 1-2(61-62), https://doi.org/10.15835/arspa.v61i1-2.2876 Search in Google Scholar

Pereira, L., Oweis, T., & Zairi, A. (2002). Irrigation management under water scarcity. Agricultural water management, 57(3), 175-206, https://doi.org/10.1016/S0378-3774(02)00075-6 Search in Google Scholar

Prowse, T., Furgal, C., Chouinard, R., Melling, H., Milburn, D., & Smith, S. (2009). Implications of climate change for economic development in northern Canada: Energy, resource, and transportation sectors. AMBIO: A Journal of the Human Environment, 38(5), 272-281, https://doi.org/10.1579/0044-7447-38.5.272 Search in Google Scholar

Raihan, A. (2023). A review of the global climate change impacts, adaptation strategies, and mitigation options in the socio-economic and environmental sectors. Journal of Environmental Science and Economics, 2(3), 36-58, https://doi.org/10.56556/jescae.v2i3.587 Search in Google Scholar

Rao, C., Lal, R., Prasad, J., Gopinath, K., Singh, R., Jakkula, V., Sahrawat, K., Vankateswarlu, B., Sikka, A., & Virmani, S. (2015). Potential and challenges of rainfed farming in India. Advances in agronomy, 133, 113-181, https://doi.org/10.1016/bs.agron.2015.05.004 Search in Google Scholar

Rawat, A., Kumar, D., & Khati, B. (2024). A review on climate change impacts, models, and its consequences on different sectors: a systematic approach. Journal of Water and Climate Change, 15(1), 104-126, https://doi.org/10.2166/wcc.2023.536 Search in Google Scholar

Rhodes, C. (2014). Soil erosion, climate change and global food security: challenges and strategies. Science progress, 97(2), 97-153, https://doi.org/10.3184/003685014X139945679414 Search in Google Scholar

Rockstrom, J., Karlberg, L., Wani, S., Barron, J., Hatibu, N., Oweis, T., Bruggeman, A., Farahani, J., & Qiang, Z. (2010). Managing water in rainfed agriculture: The need for a paradigm shift. Agricultural Water Management, 97(4), 543-550, https://doi.org/10.1016/j.agwat.2009.09.009 Search in Google Scholar

Rotem, J., & Palti, J. (1969). Irrigation and plant diseases. Annual Review of Phytopathology, 7(1), 267-288, doi: 10.1146/annurev.py.07.090169.001411 Search in Google Scholar

Rudić, Ž., Nikolić, G., Stević, D., Božić, M., Mačkić, K., & Potkonjak, S. (2019). Achieving sustainable irrigation development in agricultural areas of Serbia with limited water resources. Outlook on Agriculture, 48(2), 126-135, https://doi.org/10.1177/0030727019831019 Search in Google Scholar

Sivakumar, M. (2005). Impacts of Natural Disasters in Agriculture, Rangeland and Forestry: An Overview. In: Sivakumar, M., Motha, R., Das, H. (eds.) Natural Disasters and Extreme Events in Agriculture, Springer, Berlin, Germany, pp. 1-22, https://doi.org/10.1007/3-540-28307-2_1 Search in Google Scholar

Skendžić, S., Zovko, M., Živković, I., Lešić, V., & Lemić, D. (2021). The impact of climate change on agricultural insect pests. Insects, 12(5):440, https://doi.org/10.3390/insects12050440 Search in Google Scholar

Subić, J., & Jeločnik, M. (2016). Economic Effects of New Technologies Application in Vegetable Production. In: Emerging Technologies and the Development of Agriculture, SAAE, Belgrade, Serbia, pp. 15-35. Search in Google Scholar

Subić, J., Kljajić, N., & Jeločnik, M. (2017). Obnovljivi izvori energije i navodnjavanje u funkciji održivog razvoja poljoprivrede: Ekonomski aspekti [Renewable energy sources and irrigation in function of sustainable development of agriculture: Economic aspects]. Institute of Agricultural Economics, Belgrade, Serbia. Search in Google Scholar

Subić, J., Nastić, L., Jeločnik, M., & Kovačević, V. (2015). Economic Effects of Irrigation in the Integral Apple Production. In: Proceedings from the IV International conference CAFEE 2015, ASE Bucharest, Bucharest, Romania, pp. 26-33. Search in Google Scholar

Todorović, S., Ivanović, S., & Bogdanov, N. (2021). The influence of extreme weather events on farm economic performance: A case study from Serbia. Italian Journal of Agrometeorology, 2021(1), 51-62, doi: 10.36253/ijam-1073 Search in Google Scholar

Valipour, M. (2013). Necessity of irrigated and rainfed agriculture in the world. Irrigation and Drainage System Engineering, S 9, e001, doi:10.4172/2168-9768.S9-e001 Search in Google Scholar

Van Aalst, M. (2006). The impacts of climate change on the risk of natural disasters. Disasters, 30(1), 5-18, https://doi.org/10.1111/j.1467-9523.2006.00303.x Search in Google Scholar

Vanschoenwinkel, J., & Van Passel, S. (2018). Climate response of rainfed versus irrigated farms: The bias of farm heterogeneity in irrigation. Climatic Change, 147(1-2), 225-234, https://doi.org/10.1007/s10584-018-2141-2 Search in Google Scholar

Zubović, J., Jeločnik, M., Zdravković, A., Subić, J., & Radovanović, S. (2018). Using Spatial and Seasonal Panel Model to Determine Impact of Climatic Factors on Maize Yields in Serbia. Romanian biotechnological letters, 23(2), 13383-13393. Search in Google Scholar