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@Mail.ru .

54 15 2022 .


68.37.31

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571. [ (Spartium junceum) 16SrV , ; Livilla spectabilis (Hemiptera: Psyllidae) .-. ]. Rizza S., Rossi M., Spallino R.E., Tedeschi R., Marzachi C., Catara V., Tessitori M. Ecology-based analysis of a recent association between Spartium junceum and 16SrV phytoplasma // Plant Pathology.-2021.-Vol.70,N 2.-P. 305-317.-.-Bibliogr.: p.316-317. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
SPARTIUM JUNCEUM; ; PHYTOPLASMA; ; VITIS VINIFERA; ; ; ;

572. - [ ]: : 1. 5. 11 <> : 1. 5. 6 <>. ...-, 2021.-24 .: ., .-.: . 23-24. 21-4815
ACTINOMYCETALES; ; ; ; ; ; ; ; ; ; ; ;

573. Puccinia graminis Pers. f. sp. tritici [ ]. .., .., .. // .-2021.-N 2.-. 40-45.-. .-.: .43-45. 3691.
; TRITICUM; ; ; PUCCINIA GRAMINIS F SP TRITICI; ; ; ;

574. , [ , ]. .., .., .., .., .. // .-2021.-N 6.-. 3-8.-. .-.: .7-8. 1766.
; LYCOPERSICON ESCULENTUM; ; ; ; ; ; ;

575. Bacillus Tilletia caries (DC.) Tull. .., .., .. // .-2020.-.67,N 3.-. 329-336.-.: .335-336. 1701.
; TRITICUM AESTIVUM; ; TILLETIA TRITICI; ; ; ; BACILLUS SUBTILIS; BACILLUS THURINGIENSIS; ; ; ; ; ;

576. [ -, (, ), , Phytophthora ramorum, . ()]. Garbelotto M., Schmidt D., Popenuck T. Pathogenicity and infectivity of Phytophthora ramorum vary depending on host species, infected plant part, inoculum potential, pathogen genotype, and temperature // Plant Pathology.-2021.-Vol.70,N 2.-P. 287-304.-.-Bibliogr.: p.302-304. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; ; PHYTOPHTHORA RAMORUM; -; ; ; ; ; ; ;

577. [ , , Monilinia laxa. ()]. Rodriguez-Pires S., Garcia-Companys M., Espeso E.A., Melgarejo P., Cal A.de Influence of light on the Monilinia laxa-stone fruit interaction // Plant Pathology.-2021.-Vol.70,N 2.-P. 326-335.-.-Bibliogr.: p.334-335. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; PRUNUS PERSICA; ; PRUNUS CERASUS; ; ; MONILINIA LAXA; ; ; ; ; ;

578. [ - Leptosphaeria maculans, , . , ]. Harunur Rashid M., Liban S., Zhang X., Parks P., Borhan H., Dilantha Fernando W.G. Impact of Brassica napus-Leptosphaeria maculans interaction on the emergence of virulent isolates of L. maculans, causal agent of blackleg disease in canola // Plant Pathology.-2021.-Vol.70,N 2.-P. 459-474.-.-Bibliogr.: p.473-474. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; BRASSICA NAPUS; ; ; LEPTOSPHAERIA MACULANS; - ; ; ; -- ; ;

579. [ - (. Oidium heveae). ]. Xueren Cao, Xiangming Xu, Haiyan Che, Jonathan S. West, Daquan Luo Effects of temperature and leaf age on conidial germination and disease development of powdery mildew on rubber tree // Plant Pathology.-2021.-Vol.70,N 2.-P. 484-491.-.-Bibliogr.: p.490-491. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; HEVEA; ; OIDIUM HEVEAE; ; ; ; ; ; ; ; ;

580. [ ]. .., .., .., .., .. // . .-2021.-N 9.-. 36-38.-. .-.: .38. 1847.
; BRASSICA OLERACEA VAR CAPITATA; ; ; ; ; ; ; ;

581. [ (43 ) X- , , X- X- . (. )]. Hammond J., Adams I.P., Fowkes A.R., McGreig S., Botermans M., Oorspronk J.J.A.van, Westenberg M., Verbeek M., Dullemans A.M., Stijger C.C.M.M., Blouin A.G., Massart S., De Jonghe K., Heyneman M., Walsh J.A., Fox A. Sequence analysis of 43-year old samples of Plantago lanceolata show that Plantain virus X is synonymous with Actinidia virus X and is widely distributed // Plant Pathology.-2021.-Vol.70,N 2.-P. 249-258.-.-Bibliogr.: p.257-258. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; PLANTAGO LANCEOLATA; ; ACTINIDIA; ; X- ; ; ; RT-PCR; ; ; ;

582. [ . Fusarium, . , , 2011-2015 .]. Pereira C.B., Ward T.J., Del Ponte E.M., Mara Moreira G., Busman M., McCormick S.P., Feksa H.R., De Almeida J.L., Tessmann D.J. Five-year survey uncovers extensive diversity and temporal fluctuations among fusarium head blight pathogens of wheat and barley in Brazil // Plant Pathology.-2021.-Vol.70,N 2.-P. 426-435.-.-Bibliogr.: p.433-435. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; TRITICUM; ; HORDEUM VULGARE; ; ; FUSARIUM; ; ; ;

583. [ Xanthomonas campestris pv. vesicatoria Pseudomonas syringae pv. tomato. ()]. Gupta R., Leibman-Markus M., Pizarro L., Bar M. Cytokinin induces bacterial pathogen resistance in tomato // Plant Pathology.-2021.-Vol.70,N 2.-P. 318-325.-.-Bibliogr.: p.324-325. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; LYCOPERSICON ESCULENTUM; ; ; XANTHOMONAS VESICATORIA; PSEUDOMONAS SYRINGAE PV TOMATO; ; ; ; ; ; ; ;

584. [ ]. .., .. // .-2021.-N 2.-. 42-43. 3629.
; ; ; ; ;

585. [ Neophysopella tropicalis . ()]. Primiano I.V., Cia M.C., Camargo L.E.A., Amorim L. Early detection of Neophysopella tropicalis in grapevine leaves and on spore traps by qPCR // Plant Pathology.-2021.-Vol.70,N 2.-P. 358-366.-.-Bibliogr.: p.364-366. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; VITIS VINIFERA; ; ; UREDINALES; ; ; ; ; ; ; PCR;

586. [ ]. .., .., .. // . .-2020.-N 9.-. 30-33.-. .-.: .33. 3224.
; HORDEUM VULGARE; ; ; ; ; ; ; ; -; ;

587. [ Ceratocystis fimbriata ; ]. Oliveira L.S.S., Pimenta L.V.A., Guimaraes L.M.S., de Souza P.V.D., Bhering L.L., Alfenas A.C. Resistance of kiwifruit cultivars to ceratocystis wilt: An approach considering the genetic diversity and variation in aggressiveness of the pathogen // Plant Pathology.-2021.-Vol.70,N 2.-P. 349-357.-.-Bibliogr.: p.356-357. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; ACTINIDIA; ; ; ; CERATOCYSTIS FIMBRIATA; ; ; ; ; ; ; ; ;

588. [ Botrytis cinerea - . , ]. Kozhar O., Peever T.L. Colonization of red raspberry flowers and fruit by Botrytis cinerea under commercial production conditions in northwestern Washington, USA // Plant Pathology.-2021.-Vol.70,N 2.-P. 336-348.-.-Bibliogr.: p.347-348. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; BOTRYTIS CINEREA; ; ; ; ; ; ; ; ; ; ;

589. [ Pyricularia oryzae . , ]. Zhong-Qiang Qi, Xiayan Pan, Yan Du, Lerong Shen, Mi-Na Yu, Hui-Juan Cao, Tian-Qiao Song, Jun-Jie Yu, Rong-Sheng Zhang, Ming-Li Yong, Xiao-Le Yin, Yong-Feng Liu Pathogenicity and population structure analysis of Pyricularia oryzae in different districts of Jiangsu province, China // Plant Pathology.-2021.-Vol.70,N 2.-P. 449-458.-.-Bibliogr.: p.457-458. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; ORYZA SATIVA; ; MAGNAPORTHE ORYZAE; ; ;

590. [ Fusarium oxysporum, ]. Achari S.R., Kaur J.K., Mann R.C., Sawbridge T., Summerell B.A., Edwards J. Investigating the effector suite profile of Australian Fusarium oxysporum isolates from agricultural and natural ecosystems // Plant Pathology.-2021.-Vol.70,N 2.-P. 387-396.-.-Bibliogr.: p.395-396. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
FUSARIUM OXYSPORUM; ; ; ; ;

591. [ . Fusarium Alternaria, , ]. Uwaremwe C., Liang Yue, Yang Liu, Yuan Tian, Xia Zhao, Yun Wang, Zhongkui Xie, Yubao Zhang, Zengtuan Cui, Ruoyu Wang Molecular identification and pathogenicity of Fusarium and Alternaria species associated with root rot disease of wolfberry in Gansu and Ningxia provinces, China // Plant Pathology.-2021.-Vol.70,N 2.-P. 397-406.-.-Bibliogr.: p.405-406. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; LYCIUM BARBARUM; ; ; ; - ; FUSARIUM OXYSPORUM; FUSARIUM SOLANI; ALTERNARIA ALTERNATA; ;

592. [ 4 , ( ). ]. Schroder M. Soil transmission studies with four pome fruit viruses // Journal fur Kulturpflanzen.-2021.-Vol.73,N 3-4.-P. 72-82.-.-. .-Bibliogr.: p.82. 32635.
; MALUS DOMESTICA; ; ; ; ; ; ; ; ; RT-PCR;

593. . .. // .-2020.-N 4.-. 350-354.-. .-.: .353-354. 3709.
; PRUNUS DOMESTICA; ; STIGMINA CARPOPHILA; ; ; ;

594. [ ]. .. // . . .-. .-2021.-.51,N 2.-. 107-112.-. .-.: .110-112. 2728.
- ; ; ; ; ; ;

595. . .., .. // . . . .-2020.-N 4(20).-. 10-14.-. .-.: .13-14. 13-12078.
; GLYCINE MAX; ; ; ; ; ; ; ; ; ; ;

596. [ Fusarium tucumaniae Fusarium crassistipitatum, , . ()]. Rosati R.G., Ramos R.S., Scandiani M.M., Luque A.G., Spampinato C.P. Pathogenicity and toxicity of Fusarium tucumaniae and Fusarium crassistipitatum to soybean and Arabidopsis thaliana // Plant Pathology.-2021.-Vol.70,N 2.-P. 407-416.-.-Bibliogr.: p.415-416. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; GLYCINE MAX; ARABIDOPSIS THALIANA; ; ; FUSARIUM; ; ; ; ;

597. [ Mycosphaerella linicola ; ]. Paumier D., Bamme B., Penaud A., Valade R., Suffert F. First report of the sexual stage of the flax pathogen Mycosphaerella linicola in France and its impact on pasmo epidemiology // Plant Pathology.-2021.-Vol.70,N 2.-P. 475-483.-.-Bibliogr.: p.482-483. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
-; ; LINUM USITATISSIMUM; ; ; ; MYCOSPHAERELLA LINICOLA; ; ;

598. [ Colletotrichum alienum, ; in vitro. ()]. Siddique S.S., Hardy G.E.St.J., Bayliss K.L. Plasma-activated water inhibits in vitro conidial germination of Colletotrichum alienum, a postharvest pathogen of avocado // Plant Pathology.-2021.-Vol.70,N 2.-P. 367-376.-.-Bibliogr.: p.375-376. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; PERSEA AMERICANA; ; ; COLLETOTRICHUM; ; ; ; ; ; ; ; ; ; ; ; IN VITRO;
. " "

599. [, in vitro . ( )]. Jae-Wook OH, Se Chul Chun, Chandrasekaran M. Preparation and In Vitro Characterization of Chitosan Nanoparticles and Their Broad-Spectrum Antifungal Action Compared to Antibacterial Activities against Phytopathogens of Tomato // Agronomy.-2019.-Vol.9.-P.20:1-12.-.-Bibliogr.: p.10-12. *https://www.mdpi.com/journal/agronomy.
; LYCOPERSICON ESCULENTUM; ; ; ; ; ; ; ; ; ; ;

600. . .., .. // .-2021.-N 6.-. 28-30.-. .-.: .30. 1774.
; SOLANUM TUBEROSUM; ; SPONGOSPORA SUBTERRANEA; ; ; ; ; ; ;

601. [ , . ()]. Ochssner T. Beeren gesund erhalten bis zur Lese // Bad. Winzer.-2021.-N Oktober.-P. 17-19.-. 31632.
; VITIS VINIFERA; ; ; ; ; ;

602. : / ..-: - . , 2021.-160 .: .-.: . 144-156 (150 .).- ISBN 978-5-93382-354-4. 21-4975
- ; ; ; ; ; ; ;

603. [ Pyricularia oryzae ]. Poloni N.M., Carvalho G., Nunes Campos Vicentini S, Dorigan A.F., Nunes Maciel J.L., McDonald B.A., Intra Moreira S., Hawkins N., Fraaije B.A., Kelly D.E., Kelly S.L., Ceresini P.C. Widespread distribution of resistance to triazole fungicides in Brazilian populations of the wheat blast pathogen // Plant Pathology.-2021.-Vol.70,N 2.-P. 436-448.-.-Bibliogr.: p.447-448. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; TRITICUM; ; MAGNAPORTHE ORYZAE; ; ; (); ; ;

604. [ - Puccinia horiana - ]. Matsuzaki Y., Harada T., Iwahashi F. Amino acid substitutions responsible for different QoI and SDHI sensitivity patterns in Puccinia horiana, the causal agent of chrysanthemum white rust // Plant Pathology.-2021.-Vol.70,N 2.-P. 377-386.-.-Bibliogr.: p.385-386. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; CHRYSANTHEMUM; ; ; PUCCINIA HORIANA; ; ; ; ; ; ; ; ; ; ; ; ; ;

605. [ Pseudomonas syringae pv. tomato. ()]. Arofatullah N.A., Hasegawa M., Tanabata S., Ogiwara I., Sato T. Heat Shock-Induced Resistance against Pseudomonas syringae pv. tomato (Okabe) Young et al. via Heat Shock Transcription Factors in Tomato // Agronomy.-2019.-Vol.9.-P.39:1-17.-.-Bibliogr.: p.15-17. *https://www.mdpi.com/journal/agronomy.
; LYCOPERSICON ESCULENTUM; ; ; PSEUDOMONAS SYRINGAE PV TOMATO; ; ; ; ; ; - ;

606. [ , , ]. .., .., .., .., .., .. // .-2020.-N 4.-. 336-343.-. .-.: .341-343. 3709.
; VITIS VINIFERA; ; ERYSIPHE NECATOR; ; PLASMOPARA VITICOLA; -; LOBESIA BOTRANA; ; EOTETRANYCHUS PRUNI; ; ; ; ; ; ;

607. Phytophthora infestans . .., .., .., .. // .-2021.-.55,N 4.-. 291-296.-. .-.: .295-296. 2674.
; SOLANUM TUBEROSUM; ; LYCOPERSICON ESCULENTUM; ; PHYTOPHTHORA INFESTANS; ; ; ; ; ;
. " "

608. : : 06. 01. 07 < >. ...-, 2021.-24 .: ., .-.: . 23-24 (19 .). 21-6319
; VITIS VINIFERA; ; ; ; FUSARIUM; ; ; ; ; ; ; ; ; ; -; ;

609. : [ Fusarium oxysporum F. proliferatum]. .., .., .. // .-2020.-N 4.-. 344-349.-. .-.: .348-349. 3709.
; VITIS VINIFERA; ; ; FUSARIUM OXYSPORUM; FUSARIUM PROLIFERATUM; ; ; ;

610. . .., .. // . . .-. .-2021.-.51,N 2.-. 40-48.-. .-.: .46-48. 2728.
; GLYCINE MAX; ; ; ; ; ; ; ; ; ;

611. [ P0 - . ()]. Barrios Baron M.P., Delfosse V.C., Agrofoglio Y.C., Nahirnak V., Almasia N.I., Vazquez Rovere C., Distefano A.J. Argentinian potato leafroll virus P0 protein: Novel activities for a previously known suppressor // Plant Pathology.-2021.-Vol.70,N 2.-P. 259-274.-.-Bibliogr.: p.273-274. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; SOLANUM TUBEROSUM; ; ; ; ; ;

612. Venturia inaequalis , . .., .., .. // .-2021.-.55,N 4.-. 297-308.-. .-.: .306-307. 2674.
; MALUS DOMESTICA; ; VENTURIA INAEQUALIS; ; ; ; ; ; ; ;
. " "



        

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