Core Microbiome. Группа авторов

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and Berg, G. (2014). The microbiome of medicinal plants: Diversity and importance for plant growth, quality and health. Frontiers in Microbiology 4: 400. DOI: 10.3389/fmicb.2013.00400

      29 29 Beneduzi, A., Ambrosini, A., and Passaglia, L.M.P. (2012). Plant growth-promoting rhizobacteria (PGPR): Their potential as antagonists and biocontrol agents. Genetics and Molecular Biology 35: 1044–1051. DOI: 10.1590/S1415-47572012000600020

      30 30 Weller, D.M., Raaijmakers, J.M., McSpadden Gardner, B.B., and Thomashow, L.S. (2002). Microbial populations responsible for specific soil suppressiveness to plant pathogens. Annual Review of Phytopathology 40: 308–348. DOI: 10.1146/annurev.Phyto.40.030402.110010

      31 31 Berendsen, R.L., Pieterse, C.M.J., and Bakker, P.A.H.M. (2012). The rhizosphere microbiome and plant health. Trends in Plant Science 17: 478–486. DOI: 10.1016/j.plants.2012.04.001

      32 32 Köberl, M., Ramadan, E.M., Adam, M., Cardinale, M., Hallmann, J., Heuer, H. et al. (2013). Bacillus and Streptomyces were selected as broad-spectrum antagonists against soilborne pathogens from arid areas in Egypt. FEMS microbiology letters 342: 168–178. DOI: 10.1111/1574-6968.12089

      33 33 Kumar, G., Kanaujia, N., and Bafana, A. (2012). Functional and phylogenetic diversity of root-associated bacteria of Ajuga bracteosa in Kangra valley. Microbiological Research 167: 220–225. DOI: 10.1016/j.micres.2011.09.001

      34 34 Hardoim, P.R., van Overbeek, L.S., Berg, G., Pirttilä, A.M., Compante, S., Campisano, A. et al. (2015). The hidden World within plants: Ecological and evolutionary considerations for defining functioning of microbial endophytes. Microbiology and Molecular Biology Reviews 79: 293–320. DOI: 10.1128/MMBR.00050-14

      35 35 Chandra, S. (2012). Endophytic fungi: Novel sources of anticancer lead molecules. Applied Microbiology and Biotechnology 95: 47–59. DOI: 10.1007/s00253-012-4128-7

      36 36 Pal, K.K. and McSpadden Gardener, B. (2006). Biological Control of Plant Pathogens. Plant Health Instr.

      37 37 Lecomte, C., Alabouvette, C., Edel-Hermann, V., Robert, F., and Steinberg, C. (2016). Biological control of ornamental plant diseases caused by Fusarium oxysporum: A review. Biological Control 101: 17–30.

      38 38 Eljounaidi, K., Lee, S.K., and Bae, H. (2016). Bacterial endophytes as potential biocontrol agents of vascular wilt diseases—Review and future prospects. Biological Control 103: 62–68.

      39 39 Latz, M.A.C., Jensen, B., Collinge, D.B., and Jørgensen, H.J.L. (2018). Endophytic fungi as biocontrol agents: Elucidating mechanisms in disease suppression. Plant Ecology & Diversity 11: 555–567.

      40 40 De Silva, N.I., Brooks, S., Lumyong, S., and Hyde, K.D. (2019). Use of endophytes as biocontrol agents. Fungal Biology Reviews 33: 133–148.

      41 41 Morales-Cedeño, L.R., delCarmenOrozco-Mosqueda, M., Loeza-Lara, P.D., Parra-Cota, F.I., de losSantos-Villalobos, S., and Santoyo, G. (2021). Plant growth-promoting bacterial endophytes as biocontrol agents of pre-and post-harvest diseases: Fundamentals, methods of application and future perspectives. Microbiological Research 242: 126612.

      42 42 Santoyo, G., delOrozco-mosqueda, M.C., and Govindappa, M. (2012). Mechanisms of biocontrol and plant growth-promoting activity in soil bacterial species of Bacillus and Pseudomonas: A review. Biocontrol Science and Technology 22: 855–872.

      43 43 Dobbelaere, S., Vanderleyden, J., and Okon, Y. (2003). Plant growth-promoting effects of diazotrophs in the rhizosphere. Critical Reviews in Plant Sciences 22: 107–149.

      44 44 Gray, E.J. and Smith, D.L. (2005). Intracellular and extracellular PGPR: Commonalities and distinctions in the plant-bacterium signaling processes. Soil Biology and Biochemistry 37: 395–412.

      45 45 Schroth, M.N. and Hancock, J.G. (1982). Disease-suppressive soil and root-colonizing bacteria. Science 216: 1376–1381.

      46 46 Kloepper, J.W., Lifshitz, R., and Zablotowicz, R.M. (1989). Free-living bacterial inocula for enhancing crop productivity. Trends in Biotechnology 7: 39–43.

      47 47 Podile, A.R. and Kishore, G.K. (2006). Plant growth-promoting rhizobacteria. In: Plant-Associated Bacteria, (ed. S.S.Gnanamanickam), 195–230. Netherlands: Springer.

      48 48 Glick, B.R. (1995). The enhancement of plant growth by free-living bacteria. Canadian Journal of Microbiology 41: 109–117.

      49 49 Castronovo, L.M., Vassallo, A., Mengoni, A., Miceli, E., Bogani, P., Firenzuoli, F., Fani, R., and Maggini, V. (2021). Medicinal plants and their bacterial microbiota: A review on antimicrobial compounds production for plant and human health. Pathogens 10 (106). https://doi.org/10.3390/pathogens10020106

      50 50 Verma, V.C., Gond, S.K., Kumar, A., Kharwar, R.N., and Strobel, G. (2007). The endophytic mycoflora of bark, leaf, and stem tissues of Azadirachta indica A. Juss (Neem) from Varanasi (India). Microbial Ecology 54: 119–125.

      51 51 Verma, V.C., Gond, S.K., Kumar, A., Kharwar, R.N., Boulanger, L.A. and Strobel, G.A. (2011). Endophytic Fungal Flora from Roots and Fruits of an Indian Neem Plant Azadirachta indica A. Juss., and Impact of Culture Media on their Isolation. Indian Journal of Microbiology 51: 469–476.

      52 52 James, T.Y., Kauff, F., Schoch, C.L., Matheny, P.B., Hofstetter, V., Cox, C.J., Celio, G., Gueidan, C., Fraker, E., and Miadlikowska, J. et al. (2006). Reconstructing the early evolution of fungi using a six-gene phylogeny. Nature 443: 818–822.

      53 53 Maharachchikumbura, S.S., Hyde,

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