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beet biofuel production in central North Dakota. Biomass and Bioenergy, 35(9), 3737-3747, http://dx.doi.org/10.1016/j.biombioe.2011.05.022 Polet, Y. (2012). EU 27 sugar annual report 2012. USDA Foreign Agricultural Service. Retrieved from http://gain.fas.usda.gov/Recent%20GAIN%20Publications/Sugar%20Annual_Brussels%20USEU_EU-27_4-27-2012.pdf Rehan, R., Unger, A. J. A., Knight, M. A., & Haas, C. T. (2014). Financially sustainable management strategies for urban wastewater collection infrastructure-Implementation of a system dynamics model. Tunnelling and Underground

References Mikheev, V.V., Kusova, N.I, Savenkov, A.A/, Eremin, P.A. (2016). Develop critical machine technologies, processes, technical solutions for selection and seed production in the production of sugar and fodder beet . Scientific report on the subject 24.3.8, Moscow, VIM, 161-162. Apasov, I.V. (2017). The development of selection and seed production of sugar beet in the Russian Federation for the period 2017-2020 . At the All-Russian Council. select. 27.02.2017. Moscow, VIM. Zharkov, Yu.V. (1996). Scientific bases of intensification of sugar beet seeds

References BOSOJ, E. S. - VERNJAEV, O. V. - SMIRNOV, I. I. - SULTAN-SHAKH, E. G. 1978. Theory, Design and Calculations of Agricultural Machines. Textbook for universities of agricultural machinery. 2nd edition, Moscow: Mashinostroenije, 568 pp. (In Russian: Teorija, konstrukcija, i raschot selskokhozjajstvennykh mashin). BULGAKOV, V. M. - KORENKO, M. 2007. Mathematical model of sugar beet vibratory digging up. In Acta Technologica Agriculturae, vol. 10, no. 3-4, pp. 61-65. BULGAKOV, V. M. - ADAMCHUK, V. V. - NOZDROVICKY, L. - BORIS, M. - IHNATIEV, Y. I. 2016

References Gaucher, S., Le Gal, P. Y., & Soler G. (2003). Modelling Supply Chain Management in the Sugar Industry. Proceedings of the South African Sugar Technologists’ Association (77): 542 - 554. Gohin, A., & Bureau J.C. (2006). Modelling the EU sugar supply to assess sectoral policy reforms. European Review of Agricultural Economics, 33(2), 223-247, http://dx.doi.org/10.1093/erae/jbl006 Jones, P.D., Lister, D.H., Jaggard, K.W., & Pidgeon J. D. (2003). Future climate impact on the productivity of sugar beet (Beta vulgaris L.) in Europe. Climatic Change, 58

.L.R., 1998 - Real-time monitoring of site-specific sugar beet yield, Doctoral dissertation, North Dakota State University. Hennens D., Baert J., Broos B., Ramon H., De Baerdemaeker J., 2003 - Development of a flow model for the design of a momentum type beet mass flow sensor. Biosyst. eng., 85: 425-436. Hofman V., Panigrahi S., Gregor B., Walter, J. 1996 - In field yield monitoring of sugarbeets. SAE transactions, 104: 237-239. Konstantinovic M., Wöckel S., Lammes P.S., Sachs, J.. 2008 - UWB radar system for yield monitoring of sugar beet. Transactions of the ASABE, 51

REFERENCES B artodziejska B., G ajewska M., C zajkowska A., 2010. Research on content of heavy metals contamination in independent agrarian production using atomic absorbtion spectrometry technique. ENVIRON 43: 38-44. B iegańska -M arecik R., C zapski J., B łaszczyk P., 2007. Określenie wpływu odmiany i procesu technologicznego na występowanie smaku gorzkiego w buraku ćwikłowym [Determination of cultivar and technological process effect on the occurrence of bitter taste in red beet]. Żywn. Nauk. Technol. Ja. 3(52): 62-70. C ieślik E., 2009. Prozdrowotne

REFERENCES Batjes, N.H. (1996). Total carbon and nitrogen in the soils of the world. European Journal of Soil Science , 47, 1996, s. 151-163. Kilianova, H. et al. (2012). Analysis of the Evolution of the Floodplain Forests in the Aluvium of the Morava River. In 12th International Multidisciplinary Scientific Geoconference, SGEM 2012, Vol. IV , Albena, Bulgaria, 2012, s. 1-8. Kopecka, V. et al. (2013). The Impact of Climate Changes on Sugar Beet Growing Conditions in the Czech Republic. Listy cukrov. řepař. , 129, 2013 (11), s. 326-329. Machar, I. et al. (2017

REFERENCES Biegańska-Marecik R., Czapski J., Błaszczyk P. 2007. Determination of cultivar and technological process effect on the occurrence of bitter taste in red beet. Food. Science. Technology. Quality 3(52): 62-70. [in Polish with English abstract] Bradley G.A., Dyck R.L. 1967. Yield and quality of table beets. Arkansas Farm Research 16(4): 9. Bruch-Kowalska M., Wąsik A. 1995. Betanina /E-162/ naturalny barwnik spożywczy z buraków ćwikłowych. Conference Proceedings: Jakość surowca warzywnego do przetwórstwa. Research Institute of Vegetable Crops, Skierniewice

References Cai Y., Sun M., Corke H. 2003 Antioxidantactivity of betalains from plants of the Amaranthaceae . J. Agri. Food Chem. 51: 2288-2294. Brandt K., Leifert C., Sanderson R., Seal C.J. 2011. Agroecosystem management and nutritional quality of plant foods: The case of organic fruit and vegetables. Cr. Rev. Plant Sci., 30: 177-198. Felczyński K., Elkner K. 2008. Effect of long-term organic and mineral fertilization on the yield and quality of red beet ( Beta vulgaris L.). Veget. Crops Res. Bull. 68: 111-125. DOI: 10.2478/v10032-008-0010-7 Fjelkner-Modig S

fertiliser, plant population and irrigation on sugar beet. Part II, J. Agric. Sci., Camb., 76, 269-275, doi: 10.1017/S0021859600025624 19. Boawn, L.C., Viets, F.G.JR., Crawford, C.L., & Nelson, J.L. (1960). Effect of nitrogen carrier, nitrogen rate, zinc rate, and soil pH on zinc uptake by sorghum, potatoes, and sugar beets. Soil Sci., 90, 329-337, doi: 10.1097/00010694-196012000-00003. 20. Hills, F.J. & Ulrich. A. (1978). Plant analysis as a quide for mineral nutrition of sugar beets, Soil and plant-tissue testing in California. Division of Agricultural Sciences