![]() Schipper MAA (1984) A revision of the genus Rhizopus. Pitt JI, Hocking AD (1985) Fungi and food spoilage. Park JH, Cho SE, Kim BS, Shin HD (2014) First report of postharvest root rot caused by Rhizopus oryzae on Codonopsis lanceolata. Palemón-Alberto F, Cruz-Lagunas B, Ortega-Acosta SÁ, Reyes-García G, Damián-Nava A, Toribio-Jiménez J, Romero-Ramírez Y, Vargas-Álvarez D, Bello-Martínez A (2020) First report of rhizopus soft rot on soursop ( Annona muricata) caused by Rhizopus oryzae in México. Short Communication Phytopathol Pol 41:75–78 Moliszewska EB, Wisniewski W (2006) Infestation of sugar beet field by Rhizopus arrhizus in atypical weather conditions in the summer of 2006. Khan MFR (2017) Managing common root diseases of sugar beet. Matica Srpska Proceedings for Natural Sciences 110:9–19 International Sympogium on Sugarbeet Protection. Jacobson BJ (2006) Root rot diseases of sugar beet. Holmes GJ, Stange RR (2002) Influence of wound type and storage duration on susceptibility of sweetpotatoes to Rhizopus soft rot. Hildebrand AA, Koch LW (1943) Rhizopus root rot of sugarbeet. ![]() Hanson LE (2010) Interaction of Rhizoctonia solani and Rhizopus stolonifer causing root rot of sugar beet. Hahm S, Hong G, Kim B, Han K, Choi T, Nam Y, Yu S (2014) Rhizopus soft rot on lily caused by Rhizopus oryzae in Korea. The Iowa State University Press, Ames, Iowa ![]() Bot Rev 10(2):67–123Ĭui WG, Zheng HL, Zhang FB, Swingle B, Zhu HT, Gao M (2019) First report of Rhizopus oryzae causing potato soft rot in the Hebei Province of China. PWRiL, Warszawaīerkeley GH (1994) Root-rots of certain non-cereal crops. These findings added a new insight on and better understanding of the fungus causing seedlings and root rot of sugar beet the information generated will direct further plan of action for its management to prevent crop loss.īenada J, Špacek J, Šedivy J (1984) Atlas chorób i szkodników buraka. Re-isolated fungus from inoculated seedlings with root rot symptom was found to be identical to pure culture of the isolates retrieved from the field samples. At 21-dpi, inoculated roots showed characteristics root rot and wilting symptoms. Sugar beet plants at four weeks old were inoculated with fungal spore suspension by the dipping method. In the greenhouse, seeds inoculated with young growing mycelial agar plugs showed seedling rot, wilting and abnormal growth of cotyledons when evaluated at 10 days post inoculation (dpi). In vitro inoculation of sugar beet seeds with mycelial agar plugs in PDA plates showed reduced seedling growth and emergence. arrhizus isolates was checked by seed and root inoculation in the laboratory and greenhouse. oryzae) based on morphological features, microscopic visualizations, and the ribosomal Internal Transcribed Spacer DNA sequence identity. A fungus was isolated from diseased roots in potato dextrose agar media and was identified as Rhizopus arrhizus (synonym: R. Sugar beet plant samples that had typical wilting and root rot symptoms were collected from Hickson, ND and Foxhome, MN in 2020. North Dakota (ND) and Minnesota (MN) are two leading sugar beet producing states in the US jointly contributing 57% of domestic production, which results in over $5 billion in total economic activities.
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