Akyüz, A. & Ersus, S. 2021. Optimization of enzyme assisted extraction of protein from the sugar beet (Beta vulgaris L.) leaves for alternative plant protein concentrate production. Food Chemistry, 335: 127673.
Anderson, N.A. 1982. The genetics and pathology of Rhizoctonia solani. Annual review of phytopathology, 20: 329–347.
Bartholomäus, A., Mittler, S., Märländer, B. & Varrelmann, M. 2017. Control of Rhizoctonia solani in sugar beet and effect of fungicide application and plant cultivar on inoculum potential in the soil. Plant disease, 101: 941–947.
Bolton, M.D., Panella, L., Campbell, L. & Khan, M.F. 2010. Temperature, moisture, and fungicide effects in managing Rhizoctonia root and crown rot of sugar beet. Phytopathology, 100: 689–697.
Büttner, G., Pfähler, B. & Märländer, B. 2004. Greenhouse and field techniques for testing sugar beet for resistance to Rhizoctonia root and crown rot. Plant breeding, 123: 158–166.
Eggleston, G. 2019. "History of Sugar and Sweeteners," American Chemical Society.
FAO. 2018. Food and agriculture organization. World Food and Agriculture– Statistical Pocketbook, FAO, Rome, Italy.
Fungicide Resistance Action Committee.
Gonzalez, M., Pujol, M., Metraux, J.P., Gonzalez‐Garcia, V., Bolton, M.D. & Borras‐Hidalgo, O. 2011. Tobacco leaf spot and root rot caused by Rhizoctonia solani Kühn. Molecular plant pathology, 12: 209–216.
Haque, M.E. 2020. Developing a New Inoculation Method, and Evaluating the Potential Biological Control of Rhizoctonia Solani by Penicillium Pinophilum on Sugar Beet, North Dakota State University.
Hassani, M., Heidari, B., Mahmoudi, S.B., Taleghani, D.F. & Stevanato, P. 2019. Identification of owen–type male sterility maintainers carrying resistance against rhizoctonia crown and root rot (Rcrr) disease in sugar beet germplasm. Sugar Tech, 21: 959–965.
Khan, M., Haque, M., Bloomquist, M., Bhuiyan, M., Brueggeman, R., Zhong, S., Poudel, R.S., Gross, T., Hakk, P. & Leng, Y. 2020. First report of Alternaria leaf spot caused by Alternaria tenuissima on sugar beet (Beta vulgaris) in Minnesota, USA. Plant disease, 104: 580–580.
Kiskini, A., Vissers, A., Vincken, J.–P., Gruppen, H. & Wierenga, P.A. 2016. Effect of plant age on the quantity and quality of proteins extracted from sugar beet (Beta vulgaris L.) leaves. Journal of agricultural and food chemistry, 64: 8305–8314.
Lammens, T., Franssen, M., Scott, E. & Sanders, J. 2012. Availability of protein–derived amino acids as feedstock for the production of bio–based chemicals. Biomass and Bioenergy, 44: 168–181.
Liu, Y. & Khan, M.F. 2016. Penthiopyrad applied in close proximity to Rhizoctonia solani provided effective disease control in sugar beet. Crop Protection, 85: 33–37.
Mahmoudi, S.B., Aghaeezadeh, M., Mehdikhani, P., Ahmadi, M., Soltani, J., Ghaemi, A., Bazrafshan, M., Fotohi, K., Darabi, S., Matloubi, F., Vahedi, S., Mohammadian, R., Abdollahian Noghabi, M., Norouzi, P., Sadeghzadeh Hemayati, S., Orazizadeh, M., Khorshid, A. & Rajabi, A. 2019. Shokofa, sugar beet monogerm variety resistant to rhizomania and cyst nematode. Research Achievements for Field and Horticulture Crops, 8: 145–156.
Majumdar, R., Strausbaugh, C.A., Galewski, P.J., Minocha, R. & Rogers, C.W. 2022. Cell–wall–degrading enzymes–related genes originating from rhizoctonia solani increase sugar beet root damage in the presence of leuconostoc mesenteroides. International Journal of Molecular Sciences, 23: 1366.
Monteiro, F., Frese, L., Castro, S., Duarte, M.C., Paulo, O.S., Loureiro, J. & Romeiras, M.M. 2018. Genetic and genomic tools to asssist sugar beet improvement: the value of the crop wild relatives. Frontiers in plant science, 9: 74–85.
Nagaraj, B., Sunkad, G., Pramesh, D., Naik, M. & Patil, M. 2017. Host range studies of rice sheath blight fungus Rhizoctonia solani (Kuhn). International Journal of Current Microbiology and Applied Sciences, 6: 3856–3864.
Nations, U. 2019. "World population prospects 2019: Highlights. (Department of Economic and Social Affairs, Population Division)".
Ogoshi, A. 1987. Ecology and pathogenicity of anastomosis and intraspecific groups of Rhizoctonia solani Kuhn. Annual review of phytopathology, 25: 125–143.
Rafiei, V., Vélëz, H., Dixelius, C. & Tzelepis, G. 2023. Advances in molecular interactions on the Rhizoctonia solani–sugar beet pathosystem. Fungal Biology Reviews, 44: 100297.
Rajabi, A., Ahmadi, M., Bazrafshan, M., Hassani, M. & Saremirad, A. 2022. Evaluation of resistance and determination of stability of different sugar beet (Beta vulgaris L.) genotypes in rhizomania–infected conditions. Food Science & Nutrition, 11: 1403–1414.
Ribeiro, I.C., Pinheiro, C., Ribeiro, C.M., Veloso, M.M., Simoes–Costa, M.C., Evaristo, I., Paulo, O.S. & Ricardo, C.P. 2016. Genetic diversity and physiological performance of Portuguese wild beet (Beta vulgaris spp. maritima) from three contrasting habitats. Frontiers in plant science, 7: 1293.
Saremirad, A., Bihamta, M.R., Malihipour, A., Mostafavi, K. & Alipour, H. 2020. Evaluation of Resistance of Some Iranian Spring Bread Wheat Cultivars to Stem Rust Disease at Seedling Stage. Seed and Plant Journal, 36: 383–401.
Saremirad, A., Bihamta, M.R., Malihipour, A., Mostafavi, K. & Alipour, H. 2021. Genome–wide association study in diverse Iranian wheat germplasms detected several putative genomic regions associated with stem rust resistance. Food Science & Nutrition, 9: 1357–1374.
Saremirad, A. & Mostafavi, K. 2020. Genetic diversity study of sunflower (Helianthus annus L.) genotypes for agro–morphological traits under normal and drought stress conditions. Plant Productions, 43: 227–240.
Sneh, B., Burpee, L. & Ogoshi, A. 1991. "Identification of Rhizoctonia species," APS press.
Syngenta. 2017. Priduction guide. (S. S. Institute, ed.). Syngenta.
Syngenta. 2023a. Celest– broad–spectrum seed treatment fungicide. Syngenta.
Syngenta. 2023b. Uniform. (Syngenta, ed.). Syngenta.
Tenorio, A.T., Schreuders, F., Zisopoulos, F., Boom, R. & Van der Goot, A. 2017. Processing concepts for the use of green leaves as raw materials for the food industry. Journal of cleaner production, 164: 736–748.
Tomaszewska, J., Bieliński, D., Binczarski, M., Berlowska, J., Dziugan, P., Piotrowski, J., Stanishevsky, A. & Witońska, I. 2018. Products of sugar beet processing as raw materials for chemicals and biodegradable polymers. RSC advances, 8: 3161–3177.
Windels, C., Jacobsen, B. & Harveson, R. 2009. Rhizoctonia root and crown rot. Compendium of beet diseases and pests: 33–36.
)