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55 22 2022 .


68.37.31

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490. , . .., .., .. // . . . / .-. - . - . .-2020.-N 3(23).-. 26-42.-. .-.: .37-39. 17-1898.
- ; ; ; PHYTOPLASMA SOLANI; -; ; ; ;

491. ( ) Xylella fastidiosa Wells et al. - . C.., .., .., .., .., .. // .-2021.-N 1.-. 39-47.-. .-.: .46. 1507.
; VITIS VINIFERA; ; XYLELLA FASTIDIOSA; ; PCR; ;

492. [ ]. .. // . .-2021.-N 1.-. 15-19.-. .-.: .18. 3175.
- ; ; ; ; ; ;

493. , . .., .., .. // .-2021.-N 1.-. 20-27.-. .-.: .26. 3756.
; TRITICUM; ; ; ; -; ; ; ; ;

494. [ ]. .., .. // . .-2021.-N 5.-. 27-30.-. .-.: .30. 1767.
; BETA VULGARIS; ; ; ; ; ;

495. [ ]. .., .., .., .., .. // .-2021.-N 4.-. 35-38.-. .-.: .37-68. 2656.
; TRITICUM AESTIVUM; ; ; ; ; ; ; ; ; ; ;

496. [ ]. .., .., .. // .-2021.-N 1.-. 128-133.-. .-.: .132-133. 3675.
; GLYCINE MAX; ; ; ; ; ; ; ; ;

497. Sclerotinia sclerotiorum. .., .., .X., .. // , .-2021.-N 2.-. 75-82.-. .-.: .81-82. 3674.
; HELIANTHUS ANNUUS; ; SCLEROTINIA SCLEROTIORUM; ; ; ; ; ; IN VITRO; ;

498. [ Sclerotinia sclerotiorum. ()]. Chaves J.A.A., Oliveira L.M., Silva L.C., Silva B.N., Dias C.S., Rios J.A., Rodrigues F.A. Physiological and biochemical responses of tomato plants to white mold affected by manganese phosphite // Journal of Phytopathology.-2021.-Vol.169,N 3.-P. 149-167.-.-Bibliogr.: p.165-167. *https://www.researchgate.net/journal/Journal-of-Phytopathology-1439-0434.
; LYCOPERSICON ESCULENTUM; ; ; SCLEROTINIA SCLEROTIORUM; ; ; ; ; ;
. " "

499. [ ]. .., .., .. // .-2021.-N 2.-. 26-33.-. .-.: .31-33. 3742.
; TRITICUM; ; ; ; ; ; ; ; ;

500. [ , Colletotrichum sp. ()]. Oladele O.O. Histopathology of colletotrichum sp. in infected mango (Mangifera indica L.) fruits // J. of agr. science / Univ. of Belgrade, Fac. of agriculture.-Belgrade, 2020.-vol.65 N 4.-P. 351-359.-.-. .-Bibliogr.: p.357-358. H93-686.
; MANGIFERA INDICA; ; ; ; ; COLLETOTRICHUM; ; ;

501. [ Corynespora cassiicola, -, . ()]. Min Jia, Xintao Liu, Hui Zhao, Yunxia Ni, Hongyan Liu, Baoming Tian Cell-wall-degrading enzymes produced by sesame leaf spot pathogen Corynespora cassiicola // Journal of Phytopathology.-2021.-Vol.169,N 3.-P. 186-192.-.-Bibliogr.: p.191-192. *https://www.researchgate.net/journal/Journal-of-Phytopathology-1439-0434.
; SESAMUM INDICUM; ; ; ; CORYNESPORA CASSIICOLA; ; ; ; ;

502. [ 1- Penicillium digitatum in vitro . ()]. Zhiqiang Wang, Guofeng Yuan, Huili Pu, Shuangshuang Shan, Zhengke Zhang, Hongmiao Song, Xiangbin Xu 1-Methylcyclopropene suppressed the growth of Penicillium digitatum and inhibited the green mould in citrus fruit // Journal of Phytopathology.-2021.-Vol.169,N 2.-P. 83-90.-. *https://www.researchgate.net/journal/Journal-of-Phytopathology-1439-0434.
; ; ; ; ; PENICILLIUM DIGITATUM; ; ; ; IN VITRO; ;

503. [ , . , ]. Venkatasalam E.P., Bairwa A., Priyank H.M., Divya K.L., Govindakrishnan P.M., Sharma S. Management of potato late blight (Phytophthora infestans) in the Nilgiris // Potato Journal.-2019.-Vol.46,N 1.-P. 30-38.-.-Bibliogr.: p.37-38. 32683.
; SOLANUM TUBEROSUM; ; PHYTOPHTHORA INFESTANS; ; ; ; ;

504. [ Bacillus subtilis BIOUFLA2 Fusarium verticillioides . ()]. Guimaraes R.A., Zanotto E., Perrony P.E.P., Zanotto L.A.S., da Silva L.J., da Cruz Machado J., Pinto F.A.M.F., Medeiros H.N., von Pinho R.G., de Melo I.S., da Silva J.C.P., de Medeiros F.C.L., de Medeiros F.H.V. Integrating a chemical fungicide and Bacillus subtilis BIOUFLA2 ensures leaf protection and reduces ear rot (Fusarium verticillioides) and fumonisin content in maize // Journal of Phytopathology.-2021.-Vol.169,N 3.-P. 139-148.-.-Bibliogr.: p.146-148. *https://www.researchgate.net/journal/Journal-of-Phytopathology-1439-0434.
; ZEA MAYS; ; ; ; GIBBERELLA FUJIKUROI; ; ; ; ; ; -; BACILLUS SUBTILIS; ; ; ;

505. [ (Meloidogyne javanica) 3 (Verticillium dahliae, Fusarium oxysporum f. sp. radicis-cucumerinum, Monosporascus cannonballus) , . ()]. Markakis E.A., Krasagakis N., Tzortzakakis E.A., Tsaniklidis G., Lagogianni C.S., Ligoxigakis E.K., Pardavella I.V., Goumas D.E. Investigation of interactions between Meloidogyne javanica and three soil-borne fungi against susceptible plant hosts // Journal of Phytopathology.-2021.-Vol.169,N 2.-P. 98-111.-. *https://www.researchgate.net/journal/Journal-of-Phytopathology-1439-0434.
; SOLANUM MELONGENA; ; CUCUMIS SATIVUS; ; CUCUMIS MELO; ; ; MELOIDOGYNE JAVANICA; ; VERTICILLIUM DAHLIAE; ; ; ;

506. [ Bacillus velezensis CLA178 Agrobacterium tumefaciens C58. ()]. Lin Chen, Huihui Liu, Qinghua Ma The early transcriptional responses in rose induced by Bacillus velezensisCLA178 and Agrobacterium tumefaciens C58 // Journal of Phytopathology.-2021.-Vol.169,N 2.-P. 73-82.-. *https://www.researchgate.net/journal/Journal-of-Phytopathology-1439-0434.
; ROSA; ; ; AGROBACTERIUM TUMEFACIENS; ; ; -; ; ; ; BACILLUS VELEZENSIS; ; ;

507. (Phaseolus vulgaris L.) [ (. Fusarium gibbosum var. acumonatum) (. Alternaria brassicae f. phaseoli)]. .., // .-2021.-.1,N 19.-. 31-38.-. .-.: .37-38. 3729.
; PHASEOLUS VULGARIS; ; ; ; FUSARIUM EQUISETI; ALTERNARIA BRASSICAE; ; ;

508. - [ ]. .., .. // : , -, , / .-. . . - . . . .--, 2020.-. 160-163.-.: .163. 21-633.
; ULMUS; ; ; ; ; ; -

509. [ (Solanum torvum) - Meloidogyne hapla ]. Murata G., Uesugi K. Parasitism of Solanum torvum by Meloidogyne hapla populations from Japan // Journal of Phytopathology.-2021.-Vol.169,N 2.-P. 122-128.-. *https://www.researchgate.net/journal/Journal-of-Phytopathology-1439-0434.
; SOLANUM TORVUM; ; ; ; ; MELOIDOGYNE HAPLA; -;

510. [ (. Sclerotinia sclerotiorum). . ]. Ojaghian S., Davoudi A. Effect of crude extracts and essential oils of medicinal plants against Sclerotinia sclerotiorum in potato fields // Potato Journal.-2019.-Vol.46,N 1.-P. 24-29.-.-Bibliogr.: p.29. 32683.
; SOLANUM TUBEROSUM; ; SCLEROTINIA SCLEROTIORUM; ; ; ; ; ; ; ; ; ;

511. [ Pythium myriotylum ]. Brand T., Petersen F., Demann J., Wichura A. First report on Pythium myriotylum as pathogen on duckweed (Lemna minor L.) in hydroponic systems in Germany // Journal fur Kulturpflanzen.-2021.-Vol.73,N 9-10.-P. 316-323.-.-. .-Bibliogr.: p.322-323. 32635.
; LEMNA MINOR; ; ; ; PYTHIUM MYRIOTYLUM;

512. [ (. Sclerotinia sclerotiorum). . ]. Ojaghian S., Delavarpoor A., Jing-Ze Zhang Application of pimaricin against potato white mould // Journal of Phytopathology.-2021.-Vol.169,N 2.-P. 112-121.-. *https://www.researchgate.net/journal/Journal-of-Phytopathology-1439-0434.
; SOLANUM TUBEROSUM; ; SCLEROTINIA SCLEROTIORUM; ; ; ; ;
. " "

513. [ Indo-Blightcast. ()]. Sharma S. Scheduling fungicide applications for economic management of late blight using Indo-blightcast model // Potato Journal.-2019.-Vol.46,N 2.-P. 124-131.-.-Bibliogr.: p.131. 32683.
; SOLANUM TUBEROSUM; ; PHYTOPHTHORA INFESTANS; ; ; ; ; ; ;

514. [ " " Candidatus Phytoplasma ziziphi. ()]. Xiping Zhao, Pingping Guo, Haixin Peng Response of vessel features to witches'-broom disease in Zizyphus jujuba branches // Journal of Phytopathology.-2021.-Vol.169,N 2.-P. 91-97.-. *https://www.researchgate.net/journal/Journal-of-Phytopathology-1439-0434.
; ZIZIPHUS JUJUBA; ; PHYTOPLASMA; ; ;

515. [ NaKM ]. .., .. // .-2021.-N 2.-. 66-71.-. .-.: .71. 3656.
; VICIA FABA; ; ; ; ; ; ; ; ; ; ; ; ; ;

516. [ Tranzschelia discolor 3 ]. Vidal G.S., Kleina H.T., Beger G., Zeviani W.M., De Mio L.L.M., Duarte H.da S.S. Comparative study on the monocyclic components of plum rust with isolates from three growing regions in Brazil // Journal of Phytopathology.-2021.-Vol.169,N 3.-P. 193-201.-.-Bibliogr.: p.200-201. *https://www.researchgate.net/journal/Journal-of-Phytopathology-1439-0434.
; PRUNUS; ; TRANZSCHELIA DISCOLOR; ; ; ; ; ; ; ;

517. [ RT-PCR - A- . ()]. Baswaraj Raigond, Yamini Chauhan, Gaurav Verma, Jeevalatha A, Tarvinder Kochhar, Sanjeev Sharma, BP Singh, SK Chakrabarti Standardization and validation of quantitative RT-PCR technique for specific detection of Potato virus A' // Potato Journal.-2019.-Vol.46,N 2.-P. 91-100.-.-Bibliogr.: p.99-100. 32683.
; SOLANUM TUBEROSUM; ; A- ; ; ; RT-PCR; ;

518. [ Pseudocercospora kaki, . ()]. Alves R.F., Marques J.P.R., Appezzato-da-Gloria B., Sposito M.B. Process of infection and colonization of Pseudocercospora kaki in persimmon leaves // Journal of Phytopathology.-2021.-Vol.169,N 3.-P. 168-175.-.-Bibliogr.: p.174-175. *https://www.researchgate.net/journal/Journal-of-Phytopathology-1439-0434.
; DIOSPYROS KAKI; ; ; PSEUDOCERCOSPORA; ; ; ; ; ;

519. "". .., .., .., .., .. // : , -, , / .-. . . - . . . .--, 2020.-. 57-60.-.: .60. 21-633.
; ; ; ; ;

520. [ ]. .., .., .., .., .. // .-2021.-N 6.-. 25-32.-. .-.: .31-32. 3036.
; TRITICUM AESTIVUM; ; ; ; ;

521. [ , Verticillium dahliae V. longisporum ; , ]. Noguchi M.T., Nagase H., Yamauchi N., Mimuro G., Sakai H., Furusawa A., Miki S., Yoshida S. Characterization of soil fungal community associating with suppressive soil to Verticillium yellows disease of Chinese cabbage // Journal of Phytopathology.-2021.-Vol.169,N 3.-P. 176-185.-.-Bibliogr.: p.184-185. *https://www.researchgate.net/journal/Journal-of-Phytopathology-1439-0434.
; BRASSICA PEKINENSIS; ; ; VERTICILLIUM DAHLIAE; ; ; ; ; ; ; ; ; -; ; ; PCR;

522. [ ]. .., .. // .-2021.-N 6.-. 34-38.-. .-.: .38. 3695.
; SOLANUM TUBEROSUM; ; RHIZOCTONIA SOLANI; -; ELATERIDAE; ; ; ; ; ; ; ; ; ; ; -



        

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