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potential biocontrol species of Trichoderma . FEMS Microbiol Lett 145 , 385 (1996). Assignment of a PCR-amplified chitinase sequence cloned from Trichoderma hamatum to resolved chromosomes of potential biocontrol species of
., Krishnappa, M. and Shetty, H. S.(1998): Biocontrol of downy mildew disease of pearl millet using Pseudomonas fluorescens. Crop Prot. 17, 387–392. Biocontrol of downy mildew disease of pearl millet using Pseudomonas fluorescens
1016 1022 Khan, M. S., Zaidi, A., Aamil, M.: Biocontrol of fungal pathogens by the use of plant growth promoting rhizobacteria and nitrogen fixing microorganisms. Ind J Bot Soc
. ( 2018 ): Essential oil of Syringa oblata Lindl. as a potential biocontrol agent against tobacco brown spot caused by Alternaria alternata . – Crop Prot. 104 : 41 – 46 . https://doi.org/10.1016/j.cropro.2017
. V.: Isolation of siderophore — producing strains of rhizobacterial fluorescent pseudomonads and their biocontrol against rice fungal pathogens. Int. J. Appl. Biol. Pharm. Technol. 1 , 133–137 (2010). Krishna
-sensing signaling is required for production of the antibiotic pyrrolnitrin in a rhizospheric biocontrol strain of Serratia plymuthica . FEMS Microbiol Lett 270 , 299–305 (2007). Chernin L
esculenta and their biocontrol by chitosan. Phytoparasitica 34 , 213–218 (2006). Abd-Allah E. F.,. Hashem, Abeer: Seed mycoflora of Lens esculenta and their biocontrol by chitosan
Elad, Y., Chet, I. (1987): Possible role of competition for nutrients in biocontrol of Pythium damping-off bacteria. Phytopathology , 77 , 190–195. Chet I. Possible
. Soil Chemical Analysis 1967 Khan, M. S., Zaidi, A., Aamil, M. (2002): Biocontrol of fungal pathogens by the use of plant
, 3.5.6S A molecular approach for studying autecology of fungal BCAs. Brasier, C. M., Milgroom, M. G.: New genetics and new biocontrols for Dutch elm disease and