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@Mail.ru .

17 01 2021 .


68.37.31

29. [ , 1988-2019 . ()]. Juroszek P., Racca P., Link S., Farhumand J., Kleinhenz B. Overview on the review articles published during the past 30 years relating to the potential climate change effects on plant pathogens and crop disease risks // Plant Pathology.-2020.-Vol.69,N 2.-P. 179-193.-.-Bibliogr.: p.189-193. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; ; ; ; ; ; ;

30. [ , Bacillus subtilis Pseudomonas syringae, 29°C 85-90% (. Rhizopus stolonifer). ]. Sweany R.R., Picha D.H., Clark C.A. Hot-water baths, biologicals and re-curing effects on rhizopus soft rot during sweetpotato packing // Plant Pathology.-2020.-Vol.69,N 2.-P. 284-293.-.-Bibliogr.: p.293. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; IPOMOEA BATATAS; ; ; ; RHIZOPUS STOLONIFER; ; ; ; ; ; ; ; ; BACILLUS SUBTILIS; PSEUDOMONAS SYRINGAE; ;
. " "

31. [ Fusarium pseudograminearum ]. Deng Y.Y., Li W., Zhang P., Sun H.Y., Zhang X.X., Zhang A.X., Chen H.G. Fusarium pseudograminearum as an emerging pathogen of crown rot of wheat in eastern China // Plant Pathology.-2020.-Vol.69,N 2.-P. 240-248.-.-Bibliogr.: p.247-248. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; TRITICUM; ; ; ; ; ; GIBBERELLA CORONICOLA; ; ;

32. [ Xanthomonas axonopodis pv. punicae ]. Kumar A., Sharma J., Munjal V., Sakthivel K., Thalor S.K., Mondal K.K., Chinchure S., Gharate R. Polyphasic phenotypic and genetic analysis reveals clonal nature of Xanthomonas axonopodis pv. punicae causing pomegranate bacterial blight // Plant Pathology.-2020.-Vol.69,N 2.-P. 347-359.-.-Bibliogr.: p.358. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; PUNICA GRANATUM; ; ; ; XANTHOMONAS AXONOPODIS PV PUNICAE; ; ; ; ;

33. [ D ]. Gurcan K., Teber S., Candresse T. Genetic analysis suggests a long and largely isolated evolutionary history of plum pox virus strain D in Turkey // Plant Pathology.-2020.-Vol.69,N 2.-P. 370-378.-.-Bibliogr.: p.378. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; PRUNUS; ; ; ; ; ;

34. [ Paraphoma radicina , ]. Cao S., Liang Q.W., Nzabanita C., Li Y.Z. Paraphoma root rot of alfalfa (Medicago sativa) in Inner Mongolia, China // Plant Pathology.-2020.-Vol.69,N 2.-P. 231-239.-.-Bibliogr.: p.238-239. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; MEDICAGO SATIVA; ; ; ; ; ; ; ; ;

35. [ , , , , . ()]. Jaime C., Muchut S.E., Reutemann A.G., Gieco J.O., Dunger G. Morphological changes, alteration of photosynthetic parameters and chlorophyll production induced by infection with alfalfa dwarf virus in Medicago sativa plants // Plant Pathology.-2020.-Vol.69,N 2.-P. 393-402.-.-Bibliogr.: p.401-402. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; MEDICAGO SATIVA; ; RHABDOVIRIDAE; ; ; ; ; ;

36. [ Streptomyces albidoflavus OsiLf-2 -. ()]. Gao Y., Zeng X.D., Ren B., Zeng J.R., Xu T., Yang Y.Z., Hu X.C., Zhu Z.Y., Shi L.M., Zhou G.Y., Zhou Q., Liu X.M., Zhu Y.H. Antagonistic activity against rice blast disease and elicitation of host-defence response capability of an endophytic Streptomyces albidoflavus OsiLf-2 // Plant Pathology.-2020.-Vol.69,N 2.-P. 259-271.-.-Bibliogr.: p.269-271. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; ORYZA SATIVA; ; MAGNAPORTHE ORYZAE; ; ; -; STREPTOMYCES; ; ; ; ; ; ;
. " "

37. [ , , , -]. Ouattara A., Tiendrebeogo F., Lefeuvre P., Hoareau M., Claverie S., Allibert A., Chiroleu F., Traore E.V., Barro N., Traore O., Lett J.-M. Diversity, distribution and prevalence of vegetable-infecting geminiviruses in Burkina Faso // Plant Pathology.-2020.-Vol.69,N 2.-P. 379-392.-.-Bibliogr.: p.391. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; ; GEMINIVIRIDAE; ; ; ; ; ; PCR; ; -

38. [ - , , Plasmodiophora brassicae . ()]. Bhering A.S., Carmo M.G.F., Coelho I.S., Lima E.S.A., de Carvalho C.F., Saraiva A.L.R.F., Passos S.R., Amaral Sobrinho N.M.B. Soil management in a mountain agroecosystem and clubroot disease // Plant Pathology.-2020.-Vol.69,N 2.-P. 302-309.-.-Bibliogr.: p.308-309. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; BRASSICA OLERACEA VAR BOTRYTIS; ; PLASMODIOPHORA BRASSICAE; ; - ; ; ; ; ; ; ; ; ;

39. [ Plasmodiophora brassicae - (). ]. Al-Daoud F., Gossen B.D., McDonald M.R. Maturation of resting spores of Plasmodiophora brassicae continues after host cell death // Plant Pathology.-2020.-Vol.69,N 2.-P. 310-319.-.-Bibliogr.: p.318-319. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; BRASSICA NAPUS; ; PLASMODIOPHORA BRASSICAE; ; ; -; ; ;

40. [ - Phytophthora infestans 1997-2013 .]. Lindqvist-Kreuze H., Gamboa S., Izarra M., Perez W., Correa M.Y., Astete A., Sarkinen T., Cueva M., Gonzales P. Population structure and host range of the potato late blight pathogen Phytophthora infestans in Peru spanning two decades // Plant Pathology.-2020.-Vol.69,N 2.-P. 334-346.-.-Bibliogr.: p.345-346. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; SOLANUM TUBEROSUM; ; PHYTOPHTHORA INFESTANS; ; ; -;

41. [ ( , ) Verticillium dahliae . ()]. Gomez-Galvez F.J., Vega-Macias V., Hidalgo-Moya J.C., Hidalgo-Moya J.J., Rodriguez-Jurado D. Application to soil of disinfectants through irrigation reduces Verticillium dahliae in the soil and verticillium wilt of olive // Plant Pathology.-2020.-Vol.69,N 2.-P. 272-283.-.-Bibliogr.: p.287-288. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; OLEA EUROPAEA; ; VERTICILLIUM DAHLIAE; ; ; ; ; ; ; (); ; ; ; ;

42. [ Phytophthora ramorum . ()]. Serrano M.S., Eyre C., Garbelotto M. Epidemiology and microevolution of Phytophthora ramorum during a controlled disease outbreak in a simulated plant production facility // Plant Pathology.-2020.-Vol.69,N 2.-P. 320-333.-.-Bibliogr.: p.332-333. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; RHODODENDRON; ; PHYTOPHTHORA RAMORUM; ; ; ; ; ; ; ; ;

43. [ Coprinellus radians, Fomitiporia langloisii, F. polymorpha Tropicoporus texanus , Phaeomoniella chlamydospora. ()]. Brown A.A., Lawrence D.P., Baumgartner K. Role of basidiomycete fungi in the grapevine trunk disease esca // Plant Pathology.-2020.-Vol.69,N 2.-P. 205-220.-.-Bibliogr.: p.219-220. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; VITIS VINIFERA; ; PHAEOMONIELLA CHLAMYDOSPORA; BASIDIOMYCOTINA; ; ;

44. [ Ralstonia solanacearum, ( ) ]. Ramirez M., Moncada R.N., Villegas-Escobar V., Jackson R.W., Ramirez C.A. Phylogenetic and pathogenic variability of strains of Ralstonia solanacearum causing moko disease in Colombia // Plant Pathology.-2020.-Vol.69,N 2.-P. 360-369.-.-Bibliogr.: p.368-369. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; MUSA; ; ; RALSTONIA SOLANACEARUM; ; ; ; ; PCR;

45. [ (, ) ]. Tsror (Lahkim) L., Shapira R., Erlich O., Hazanovsky M., Lebiush S. Characterization of weeds and rotational crops as alternative hosts of Spongospora subterranea, the causal agent of powdery scab in Israel // Plant Pathology.-2020.-Vol.69,N 2.-P. 294-301.-.-Bibliogr.: p.301. *https://www.researchgate.net/journal/Plant-Pathology-1365-3059.
; SOLANUM TUBEROSUM; ; ; SPONGOSPORA SUBTERRANEA; -; ; ; ; TRITICUM; ; HORDEUM VULGARE; ; PCR;



        

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