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Biljni lekar
2021, vol. 49, br. 6, str. 745-760
Mikoze pasulja i boranije
Bulajić Aleksandraa ORCID, Vojvodić Miraa, Tanović Brankicab ORCID
aUniverzitet u Beogradu, Poljoprivredni fakultet, Srbija
bInstitut za pesticide i zaštitu životne sredine, Beograd, Srbija

e-adresabulajic_aleksandra@yahoo.com
Sažetak
Porodica mahunarki obuhvata veliki broj gajenih biljaka, uključujući značajne useve ratarskih, povrtarskih i krmnih biljnih vrsta. Po svojim biološkim osobinama ističe se pasulj, koji je tradicionalno značajan u Srbiji i ima važno mesto u ljudskoj ishrani, a gaji se kao suv pasulj, radi zrna ili kao povrće - boranija. Proizvodnju pasulja i boranije u našoj zemlji karakteriše tendencija smanjenja zasejanih površina, uz male prosečne prinose i ogroman spoljnotrgovinski deficit. Navedeno, kao i stalno prisutne potrebe na domaćem tržištu ukazuju da proizvodnja pasulja i boranije ima veliku perspektivu za rast i unapređenje u našoj zemlji. U mnogim delovima sveta, u proizvodnji pasulja i boranije fitopatogene gljive i pseudogljive nanose velike, često i totalne štete. O situaciji u našoj zemlji ima izuzetno malo podataka, čak i onih na osnovnom nivou, kao što su pojava i rasprostranjenost bolesti odnosno fi topatogenih gljiva/pseudogljiva koje ih prouzrokuju. U radu su sistematizovana dosadašnja saznanja o najznačajnijim bolestima pasulja i boranije u svetu, o štetama, simptomima, načinima održavanja i širenja prouzrokovača oboljenja, uz razmatranje raspoloživih mera suzbijanja i preporuka za kombinacije mera sa ciljem dobijanja visokih i bezbednih prinosa, a sve radi podsticaja proizvodnje ovih značajnih useva u našoj zemlji.
Reference

Aban, C.L., Taboada, G., Spedaletti, Y., Aparicio, M., Curti, R.N., Casalderrey, N.B., Maggio, M.E., Chocobar, M.O., Salgado, M., Galván, M.Z. (2018) Molecular, morphological and pathogenic diversity of Sclerotinia sclerotiorum isolates from common bean (Phaseolus vulgaris) fields in Argentina. Plant Pathology, 67: 1740-1748

Aktaruzzaman, M.D., Afroz, T., Lee, Y., Kim, B. (2017) Botrytis cinerea is the causal agent of post-harvest grey mould rot on green bean (Phaseolus vulgaris) in Korea. Australasian Plant Disease Notes, 12(1): 32-32

Brauna-Morzevska, E., Bankina, B., Kaneps, J. (2019) Botrytis genus fungi as causal agents of legume diseases: A review. Agricultural sciences -Research for rural development, 2: 63-70

Campa, A., Rodríguez-Suárez, C., Giraldez, R., Ferreira, J.J. (2014) Genetic analysis of the response to eleven Colletotrichum lindemuthianum races in a RIL population of common bean (Phaseolus vulgaris L.). BMC Plant Biology, 14(1): 115-115

Deb, D., Khan, A., Dey, N. (2020) Phoma diseases: Epidemiology and control. Plant Pathology, 69(7): 1203-1217

Dillard, H.R., Cobb, A.C. (2008) Alternaria alternata and Plectosporium tabacinum on snap beans: Pathogenicity, cultivar reaction and fungicide efficacy. Plant Health Progress, 9(1): 1-1

Dubey, S., Patel, B. (2000) Mode of perpetuation and spread of Alternaria blight of broad bean. Indian phytopathology, 53: 175-177

Gill, T.S., Davidson, J.A. (2005) A preservation method for Peronospora viciaeconidia. Australasian Plant Pathology, 34(2): 259-260

Harrison, J.G. (1984) Botrytis cinerea as an important cause of chocolate spot in field beans. Transactions of the British Mycological Society, 83(4): 631-637

1

Ignjatov, M., Popović, T., Milošević, D., Vasić, M., Nikolić, Z., Tamindžić, G., Ivanović, Ž. (2016) Occurrence, identification and phylogenetic analysis of Fusarium proliferatum on bean seed (Phaseolus vulgaris L.) in Serbia. Ratarstvo i povrtarstvo, vol. 53, br. 2, str. 42-45

Macedo, R., Sales, L.P., Yoshida, F., Silva-Abud, L.L., Lobo, M. (2017) Potential worldwide distribution of Fusarium dry root rot in common beans based on the optimal environment for disease occurrence. PLoS One, 12(11): e0187770-e0187770

Mahmoud, S., Hosseny, M.H., El-Shaikh, K., Obiadalla, A.H., Mohamed, A.Y. (2013) Seed borne fungal pathogens associated with common bean (Phaseolus vulgaris L.) seeds and their impact on germination. Journal of Environmental Studies, 11(1): 19-26

Mahuku, G.S., Riascos, J.J. (2004) Virulence and molecular diversity within Colletotrichum lindemuthianum isolates from Andean and mesoamerican bean varieties and regions. European journal of plant pathology, 110(3): 253-263

Marcenaro, D., Valkonen, J.P.T. (2016) Seedborne pathogenic fungi in common bean (Phaseolus vulgaris cv. INTA Rojo) in Nicaragua. PLoS One, 11(12): e0168662-e0168662

Marques, E., Martins, I., Marques, D.M.S.C. (2015) Virulencia de Sclerotinia sclerotiorum al frijol común utilizando el método de inoculación en las axilas foliares. Applied Research and Agrotechnology, 8(1): 75-79

Mersha, Z., Hau, B. (2008) Effects of bean rust (Uromyces appendiculatus) epidemics on host dynamics of common bean (Phaseolus vulgaris). Plant Pathology, 57(4): 674-686

Miorini, T.J.J., Kamvar, Z.N., Higgins, R.S., Raetano, C.G., Steadman, J.R., Everhart, S.E. (2019) Differential aggressiveness of Sclerotinia sclerotiorum isolates from North and South America and partial host resistance in Brazilian soybean and dry bean cultivars. Tropical Plant Pathology, 44(1): 73-81

Olson, J.D., Damicone, J.P., Kahn, B.A. (2016) Identification and characterisation of Pythium spp., and Phytophthora spp. from snap beans with cottony leak. Plant Disease, 100(7): 1446-1453

Pastor-Corrales, M.A., Otoya, M.M., Molina, A., Singh, S.P. (1995) Resistance to Colletotrichum lindemuthianum isolates from Middle America and Andean South America in different common bean races. Plant Disease, 79(1): 63-67

Pethybridge, S.J., Hay, F.S., Gorny, A., Kikkert, J.R. (2018) Spatiotemporal attributes and crop loss associated with tan spot epidemics in baby lima bean in New York. Plant Disease, 102(2): 405-412

Qi, M., Mei, Y., Grayczyk, J.P., Darben, L.M., Rieker, M.E.G., Seitz, J.M., Voegele, R.T., Whitham, S.A., Link, T.I. (2019) Candidate effectors from Uromyces appendiculatus, the causal agent of rust on common bean, can be discriminated based on suppression of immune responses. Frontiers in Plant Science, 10: 1182-1182

Radujkov, D., Vlajić, S., Maširević, S., Vujičić, J., Turlanović, J. (2015) The appearance of sclerotinia sclerotiorum on green beans and the examination of antifungal effect of extrasol. Research Journal of Agricultural Science, 47(1): 183-187

Rusagara, N.J., Lyumugabe, F., Busogoro, J., Baudoin, J. (2012) Pythium root rot of common bean: Biology and control methods: A review. Biotechnology, Agronomy and Society and Environment, 16: 405-413

Souza, T., Lilia, A., Faleiro, F., Everaldo, B. (2008) Pathosystem common bean-uromyces appendiculatus: Host resistance, pathogen specialization, and breeding for rust resistance. Pest Technology, 2: 56-69

Stoddard, F.L., Nicholas, A.H., Rubiales, D., Thomas, J., Villegas-Fernández, A.M. (2010) Integrated pest management in faba bean. Field Crops Research, 115(3): 308-318

Torres, V.S., Vargas, M.M., Godoy-Lutz, G., Porch, T.G., Beaver, J.S. (2016) Isolates of rhizoctonia solani can produce both Web blight and root rot symptoms in common bean (Phaseolus vulgaris L.). Plant Disease, 100(7): 1351-1357

van der Gaag, D.J., Frinking, H.D. (1997) Extraction of oospores of Peronospora viciae from soil. Plant Pathology, 46(5): 675-679

1

Vasić, M. (2004) Genetička divergentnost pasulja / Genetic divergence in a bean collection. Beograd: Zadužbina Andrejević

Vasić, T., Živković, S., Marković, J., Stanojević, I., Filipović, S., Terzić, D. (2019) Phytopathogenic fungi causers fungal diseases of the faba bean (Vicia faba L.) in Serbia. Biologica Nyssana, 10(1): 17-21
   

O članku

jezik rada: srpski
vrsta rada: neklasifikovan
DOI: 10.5937/BiljLek2106745B
objavljen u SCIndeksu: 19.11.2021.

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