How to Cite
Abstract
This article presents the existing problems in the production of organic products and the principles of organic farming in the countries of the world community and the Republic of Uzbekistan, as well as scientifically based proposals for their elimination. As a result of systematic analysis of state reforms and scientific research based on the principles of "Organic production" and "Organic farming" by the authors of the countries of the world community and Uzbekistan, wide introduction of production among the population and producers based on the principles of "Organic production" and "Organic farming" it was concluded that it is necessary for the government to take the status of "the main reformer" and implement systemic reforms to support the system of subsidizing producers from the economic side.
References
Abdalhi, M.A.M., Cheng, J., Feng, S., Yi, G., 2016. Performance of drip irrigation and nitrogen fertilizer in irrigation water saving and nitrogen use efficiency for waxy maize (Zea mays L.) and cucumber (Cucumis sativus L.) under solar greenhouse. Grassland Science 62 (3), 174–187.
Ali, A., Ghani, M., Ding, H., Fan, Y., Cheng, Z., Iqbal, M. (2019b) Co-Amended Synergistic Interactions between Arbuscular Mycorrhizal Fungi and the Organic Substrate-Induced Cucumber Yield and Fruit Quality Associated with the Regulation of the AM-Fungal Community Structure under Anthropogenic Cultivated Soil. Int J Mol Sci. 20(7), 1539. doi:10.3390/ijms20071539.
Arunabha Pal.,Rahul Adhikary., Tanmoy Shankar., Ajit Kumar Sahu., Sagar Maitra. 2020. Cultivation of Cucumber in Greenhouse. In: Protected Cultivation and Smart Agriculture. New Delhi Publishers, New Delhi. Pp.139-145.
Bairagi, S.K., Singh, D.K. and Ram, H.H. 2013. Analysis of combining ability in cucumber (Cucumis sativus L.) through half dialled mating system. Annals of Horticulture, 6(2): 308-314.
Chen, S., Li, Z., Liu, F., Yang, S., Li, M., 2019. Risk evaluation of solar greenhouse cucumbers low temperature disaster based on GIS spatial analysis in Tianjin, China. Geomatics, Natural Hazards & Risk 10 (1), 576–598.
Egel D.S. 2015. Midwest vegetable production guide for commercial growers, USA, pp. 210.
Fernandes A., Martinez H.E.P., Oliveira L.R. 2002. Effect of nutrient sources on yield, fruit quality and nutritional status of cucumber plants cultivated in hydroponics. Horticultura Brasileira, 20(4): 571-575. 8. Helga Willer, Claudia Meier, Bernhard Schlatter, Lauren Dietemann, Laura Kemper, Jan Trávníček. 2022. The World of Organic Agriculture 2022: Summary. «The World of Organic Agriculture Statistics and Emerging Trends 2022». Research Institute of Organic Agriculture FiBL IFOAM – Organics International. 2022. Рр.20-31.
Huang SW, Li RQ, Zhang ZH, Li L, Gu XF, Fan W, et al. The genome of the cucumber, Cucumis sativus L. Nature Genetics. 2009;41(12):1275-1281.
Janapriya S., Palanisamy D., Ranghaswami M.V. 2010. Soilless media and fertigation for naturally ventilated polyhouse production of cucumber (Cucumis sativus) cv. green long. International J. Agri., Envi. and Biotech., 3(2): 199-205.
Krug H., Liebig H.P., Stützel H. 2002. Gemüseproduktion. Stuttgart, Eugen Ulmer Gmb H & Co, pp. 463.; Kubota Ch, Balliu, A. and Nicola, S. 2013. Quality of planting material. In Good agricultural practices for greenhouse vegetable crops. Principles for Mediterranean climate areas. FAO, Plant Production and Protection Paper 217. Rome, pp. 355–378. 12. Kubota Ch, Balliu, A. and Nicola, S. 2013. Quality of planting material. In Good agricultural practices for greenhouse vegetable crops. Principles for Mediterranean climate areas. FAO, Plant Production and Protection Paper 217. Rome, pp. 355–378.
Li, A., Huang, L., Zhang, T., 2017a. Field test and analysis of microclimate in naturally ventilated single-sloped greenhouses. Energ. Buildings 138, 479–489.
Li, G., Lin, L., Dong, Y., An, D., Li, Y., Luo, W., Yin, X., Li, W., Shao, J., Zhou, Y., Dai, J., Chen, W., an, D., Zhao, C., 2012. Testing two models for the estimation of leaf sto-matal conductance in four greenhouse crops cucumber, chrysanthemum, tulip and lilium. Agric. Forest Meteorol. 165, 92–103.
Li, M., Chen, S., Liu, F., Zhao, L., Xue, Q., Wang, H., Chen, M., Lei, P., Wen, D., Sanchez-Molina, J., Bienvenido, J., Li, Z., Yang, X., 2017b. A risk management system for meteorological disasters of solar greenhouse vegetables. Precis. Agric. 18 (6), 997–1010. 16. Liu F., Fu X., Wu G., Feng Y., Li F., Bi H., Ai X. 2020. Hydrogen peroxide is involved in hydrogen sulfide-induced carbon assimilation and photoprotection in cucumber seedlings. Environmental and Experimental Botany, 175, 104052. doi:10.1016/j.envexpbot.2020.104052.