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61 23 2022 .


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1011. [ , ]. .., .., .. // . . / . . . - . . . . .-2021.-N 2(89).-. 55-63.-. .-.: .63. 17-9024.
; GLYCINE MAX; ; ; ; ; ;

1012. , . .., .., .. // . / . . . -. .-2021.-. 1(166).-. 77-84.-. .-.: .82-84. 07-2811.
; ; ; ; ALTERNARIA; ; ;

1013. [, ]. .., .. // . . . . -. .-2020.-. 4(85).-. 110-114.-. .-.: .113-114. 06-11907.
; ORYZA SATIVA; ; ; ; ; ; -; ; ; ;

1014. , . - O.. // . . . -. . ".-. . . ". -.-2020.-. 6, N 4(24).-. 445-449.-. .-.: .448-449. 15-12876.
; HORDEUM VULGARE; ; ; ; ; ; ; ; ; ; ; ;

1015. [ ]. .., .., .. // . . / . . . - . . . . .-2021.-N 2(89).-. 16-22.-. .-.: .21-22. 17-9024.
; LUPINUS LUTEUS; ; ; ; ; ; ; ; ;

1016. [ , Villosiclava virens, . ()]. Nakajima H., Mitsunaga T., Ashizawa T. Effect of calcined lime (CaO) on chlamydospores of the rice false smut pathogen, Villosiclava virens, and their root attachment and infection // Plant Pathology.-2021.-Vol.70,N 5.-P. 1098-1109.-.-Bibliogr.: p.1108-1109. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; ORYZA SATIVA; ; USTILAGINOIDEA VIRENS; ; ; ; ; ; ;

1017. Streptomyces sp. 89 [ ]. .., .. // . . .-2021.-N 5.-. 547-555.-. .-.: .554-555. 765.
; STREPTOMYCES; ; (); ; ; ; ; ; ;

1018. [ Phytophthora infestans . . (. )]. Guha Roy S., Dey T., Cooke D.E.L., Cooke L.R. The dynamics of Phytophthora infestans populations in the major potato-growing regions of Asia - A review // Plant Pathology.-2021.-Vol.70,N 5.-P. 1015-1031.-.-Bibliogr.: p.1028-1031. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; SOLANUM TUBEROSUM; ; PHYTOPHTHORA INFESTANS; ; ; ; ; ;

1019. Colletotrichum lini Manns et Bolley . .. // . . . . -. .-2020.-N 3(56).-. 66-75.-. .-.: .74-75. 07-1906.
; LINUM USITATISSIMUM; ; COLLETOTRICHUM LINI; ; ; ;

1020. [ Colletotrichum gloeosporioides (Juglans spp.) Juglans . ()]. Hanbo Yang, Guangli Cao, Shijiao Jiang, Shan Han, Chunlin Yang, Xueqin Wan, Fan Zhang, Lianghua Chen, Jiujin Xiao, Peng Zhu, Danju Zhang, Fang He, Wenxi Xing Identification of the anthracnose fungus of walnut (Juglans spp.) and resistance evaluation through physiological responses of resistant vs. susceptible hosts // Plant Pathology.-2021.-Vol.70,N 5.-P. 1219-1229.-.-Bibliogr.: p.1228-1229. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; JUGLANS; ; GLOMERELLA CINGULATA; ; ; ; ; ; ; ; ;

1021. [ (Ditylenchus destructor) PCR-RFLP. ()]. ., .., .., .. Ditienchus destructor PCR-RFLP // . . - .-, 2020.-. 15, N 4.-. 353-362.-.-. .-.: .362. 01-14823.
; SOLANUM TUBEROSUM; ; ; DITYLENCHUS DESTRUCTOR; ; PCR; RFLP;

1022. , , . .., .. // . . . - .-. / . . . -.-. , 2020.-. 168-172.-. .-.: .171-172. 21-3768.
; TRITICUM; ; ; ERYSIPHE GRAMINIS; ; ; ; ;

1023. [ Ustilaginoidea virens, , ]. Bag M.K., Ray A., Masurkar P., Devanna B.N., Parameswaran C., Baite M., Rath P.C., Nayak A. Genetic diversity and population structure analysis of isolates of the rice false smut pathogen Ustilaginoidea virens in India // Plant Pathology.-2021.-Vol.70,N 5.-P. 1085-1097.-.-Bibliogr.: p.1096-1097. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; ORYZA SATIVA; ; USTILAGINOIDEA VIRENS; ; ; ; ;

1024. [ Xanthomonas albilineans Xanthomonas sacchari, . , , ]. Mielnichuk N., Bianco M.I., Yaryura P.M., Bertani R.P., Toum L., Daglio Y., Colonnella M.A., Lizarraga L., Castagnaro A.P., Vojnov A.A. Virulence factors analysis of native isolates of Xanthomonas albilineans and Xanthomonas sacchari from Tucuman, Argentina, reveals differences in pathogenic strategies // Plant Pathology.-2021.-Vol.70,N 5.-P. 1072-1084.-.-Bibliogr.: p.1083-1084. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; SACCHARUM; ; ; XANTHOMONAS ALBILINEANS; XANTHOMONAS SACCHARI; ; ; ; ; ; ;

1025. [ Arabidopsis - Colletotrichum gloeosporioides ( ). ]. Mengze Gao, Miting Wan, Liyun Yang, Meng Zhao, Xiaojin Liu, Jiajia Chen, Pandao Liu, Lingyan Jiang, Lijuan Luo Molecular and physiological characterization of Arabidopsis - Colletotrichum gloeosporioides pathosystem // Plant Pathology.-2021.-Vol.70,N 5.-P. 1168-1179.-.-Bibliogr.: p.1178-1179. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; STYLOSANTHES; ARABIDOPSIS THALIANA; ; GLOMERELLA CINGULATA; ; ; ; - ;

1026. [ . Pestalotiopsis Neopestalotiopsis, . ()]. Prasannath K., Galea V.J., Akinsanmi O.A. Molecular methods for the detection and quantification of Pestalotiopsis and Neopestalotiopsis inoculum associated with macadamia // Plant Pathology.-2021.-Vol.70,N 5.-P. 1209-1218.-.-Bibliogr.: p.1217-1218. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; MACADAMIA; ; ; ; PESTALOTIOPSIS; ; ; - ; ; ;

1027. [ , , ]. Jevremovic D., Vasilijevic B. Monitoring of stone fruit viruses in Serbia // Vocarstvo.-2021.-Vol.55,N 209-210.-P. 55-61.-.-. .-Bibliogr.: p.59-60. 32623.
; ; ; ; ; ELISA; RT-PCR;

1028. - . .., .. // . .-. . . -. -.-2021.-N 1(62).-. 85-91.-. .-.: .89-91. 07-5718.
; ROSA; ; ; SPHAEROTHECA PANNOSA; ; ; ; ;

1029. [ ]. .. // .-2021.-N 4.-. 24-31.-. .-.: .31. 3656.
; GLYCINE MAX; ; ; ; ; ; ; ; ; ; ; ; ;

1030. [ (Spartina mottle virus), Cynodon dactylon Cynodon transvaalensis. ()]. Thomas J.E., Raymond M., Tran N.T., Crew K.S., Ai Chin Teo, Geering A.D.W. Complete genome sequences and properties of Spartina mottle virus isolates from hybrid Bermuda grass (Cynodon dactylon Cynodon transvaalensis) // Plant Pathology.-2021.-.70,N 5.-. 1062-1071.-.-.: .1070-1071. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; ; CYNODON DACTYLON; ; ; POTYVIRIDAE; ; ; ; ;

1031. [ SSR- Puccinia triticina, , P. recondita f. sp. secalis, . (. )]. Czajowski G., Kosman E., Slowacki P., Park R.F., Czembor P. Assessing new SSR markers for utility and informativeness in genetic studies of brown rust fungi on wheat, triticale, and rye // Plant Pathology.-2021.-Vol.70,N 5.-P. 1110-1122.-.-Bibliogr.: p.1121-1122. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; TRITICUM; ; TRITICOSECALE; ; SECALE CEREALE; ; PUCCINIA RECONDITA; ; ; SSR; ;

1032. [ ]. .., .., .. // .-2021.-N 11.-. 20-22.-. .-.: .21-22. 1774.
; ; ; ; ; ; ; ;

1033. [ . Physoderma ( Olpidium) . (. )]. You M.P., Eshete B.B., Kemal S.A., Leur J.van, Barbetti M.J. Physoderma, not Olpidium, is the true cause of faba bean gall disease of Vicia faba in Ethiopia // Plant Pathology.-2021.-Vol.70,N 5.-P. 1180-1194.-.-Bibliogr.: p.1192-1194. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; VICIA FABA; ; ; ; PHYSODERMA; OLPIDIUM; ; ; ; - ; ;

1034. [ . Fusarium]. .., .. // .-2021.-N 11.-. 33-34.-. .-.: .34. 1774.
; PISUM SATIVUM; ; ; ; ; ; FUSARIUM; ; ; ;

1035. [ ]. .., .. // . .-. / . . . -.-, 2020.-. 187-192.-.: .191-192. 21-2933.
; TRITICUM; ; ; ; ; SEPTORIA; ; ; ;

1036. - [ ]. .., .. // .-2021.-N 7.-. 25-34.-. .-.: .31-32. 3576.
; TRITICUM AESTIVUM; ; ; ; FUSARIUM; ; ; ; ; -;

1037. [ ]. .., .., .., .. // . . . . -. .-2020.-. 13, . 4(67).-. 228-237.-. .-.: .236-237. 01-452.
; SOLANUM TUBEROSUM; ; -; ; ; ; ; ; ; ; ;

1038. [ , (. Lasiodiplodia theobromae), ]. Llanos A.K., Apaza W.E. Distribution of stem-end rot on the canopy in Hass' avocado trees in two coastal areas in Peru // Peruvian Journal of Agronomy.-2021.-Vol.5,N 2.-P. 60-70.-.-. .-Bibliogr.: p.68-70. *https://revistas.lamolina.edu.pe/index.php/jpagronomy/issue/archive.
; PERSEA AMERICANA; ; ; ; LASIODIPLODIA THEOBROMAE; ; ; ;

1039. . .., .., .., .., .., .. // . . . . -. .-2020.-N 3(56).-. 7-17.-. .-.: .15-17. 07-1906.
; RUBUS IDAEUS; ; ; ; ; -; BACILLUS AMYLOLIQUEFACIENS; BACILLUS SUBTILIS; BACILLUS LICHENIFORMIS; ; ;

1040. [ ]. .., .. // . .-. / . . . -.-, 2020.-. 193-198.-.: .197-198. 21-2933.
; TRITICUM; ; ; ; ; ; ;

1041. [ ]. .., .. // . . . -. . ".-. . . ". -.-2020.-. 6, N 4(24).-. 450-458.-. .-.: .456-458. 15-12876.
; ; ; ; ; ; ; ; ; ; ;

1042. [ . . ()]. Delfosse V.C., Barrios Baron M.P., Distefano A.J. What we know about poleroviruses: Advances in understanding the functions of polerovirus proteins // Plant Pathology.-2021.-Vol.70,N 5.-P. 1047-1061.-.-Bibliogr.: p.1059-1061. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; POLEROVIRUS; ; ;

1043. [ Aspergillus niger, , -. ()]. Cohen Y., Shulhani R., Rot Y., Zemach H., Belausov E., Grinberg-Baran M., Borenstein M., Pivonia S., Ezra D., Shtienberg D. Aspergillus niger, the causal agent of black mould disease in date fruits, infects and colonizes flowers and young fruitlets // Plant Pathology.-2021.-Vol.70,N 5.-P. 1195-1208.-.-Bibliogr.: p.1207-1208. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; PHOENIX; ; ; ASPERGILLUS NIGER; ; ; ; ;

1044. [ . Fusarium, , Fusarium oxysporum Trichoderma gamsii T6085. ()]. Lasinio G.J., Pollice A., Pappalettere L., Vannacci G., Sarrocco S. A statistical protocol to describe differences among nutrient utilization patterns of Fusarium spp. and Trichoderma gamsii // Plant Pathology.-2021.-Vol.70,N 5.-P. 1146-1157.-.-Bibliogr.: p.1156-1157. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; ; ; FUSARIUM; ; ; TRICHODERMA; ; ;

1045. [ , Colletotrichum siamense, , . , ]. Xueren Cao, Zijiao Zhu, Haiyan Che, West J.S., Yating Lin, Daquan Luo, Xiangming Xu Population structure, pathogenicity, and fungicide sensitivity of Colletotrichum siamense from different hosts in Hainan, China // Plant Pathology.-2021.-Vol.70,N 5.-P. 1158-1167.-.-Bibliogr.: p.1166-1167. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; ARECACEAE; ; HEVEA; ; COFFEA; ; ; COLLETOTRICHUM; COLLETOTRICHUM SIAMENSE; ; ; ; ; ; ;

1046. [Puccinia graminis f. sp. tritici]. .. // .-2021.-N 8.-. 23-27.-. .-.: .27. 3695.
; TRITICUM; ; PUCCINIA GRAMINIS F SP TRITICI; ; ; ; ;

1047. [ ]. .., .., .., A.., .. // . . . . -. .-2020.-. 4(85).-. 51-56.-. .-.: .56. 06-11907.
; PRUNUS AVIUM; ; ; ; ; ; ; ; ;

1048. [ ]. .., .., .. // . . / . . . - . . . . .-2021.-N 2(89).-. 33-39.-. .-.: .38-39. 17-9024.
; TRITICUM; ; ; SEPTORIA; ; PUCCINIA; ; ; ; ; ; ; ; ;



        

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