Stoltzfus JR, Malarvithi JK, Ladha de Bruijn FJ (1997) Isolation of endophytic bacteria from rice
and assessment of their potential for supplying rice with biologicallyfixed nitrogen. Plant Soil
194:25– 36
Strobel G, Daisy B, Castillo U, Harper J (2004) Natural products from endophytic microorgan-
isms. J Nat Prod 67:257– 268
Sturz AV, Matheson BG (1996) Populations of endophytic bacteria which influence
host-resistance toErwinia-induced bacterial soft rot in potato tubers. Plant Soil 184:265– 271
Sturz AV, Christie BR, Matheson BG, Arsenault WJ, Buchanan NA (1999) Endophytic bacterial
communities in the periderm of improve resistance to soil-borne plant pathogens. Plant Pathol
48:360– 369
Sun Z, Yuan X, Zhang H, Wu L, Liang C, Feng Y (2013) Isolation, screening and identification of
antagonistic downy mildew endophytic bacteria from cucumber. Euro J Plant Pathol 137:
847 – 857
Sundaramoorthy S, Raguchander T, Ragupathi N, Samiyappan R (2012) Combinatorial effect of
endophytic and plant growth promoting rhizobacteria against wilt disease ofCapsicum
annumL. caused byFusarium solani.Biologic Cont 60:59– 67
Susilowati DN, Kadir TS, Ruskanda A (2012) Seed dipping application of local endophytic
bacterial consortium against bacterial leaf blight of rice. J Agrotrop 17:7– 13
Taghavi S, Garafola C, Monchy S, Newman L, Hoffman A Weyens N (2009) Genome survey and
characterization of endophytic bacteria exhibiting a beneficial effect on growth and
development of poplar trees. Appl Environ Microbiol 75:748– 757
Tanprasert P, Reed BM (1997) Detection and identification of bacterial contaminants from
strawberry runner explants. In Vitro Cell Dev Biol 33:221– 226
Thangavelu R, Muthukathan G (2015) Field suppression of Fusarium wilt disease in banana by the
combined application of native endophytic and rhizospheric bacterial isolates possessing
multiplemfunctions. Phytopathol Mediterr 54:241– 252
Tombolini R, Jansson JK (1998) Monitoring of GFP-tagged bacterial cells. In: LaRossa RA
(ed) Methods in molecular biology: bioluminescence method protocol, pp 285– 298
Tombolini R, Unge A, Davey ME, de Bruijn FJ, Jansson JK (1997) Flow cytometric and
microscopic analysis of GFP taggedPseudomonasfluorescensbacteria. FEMS Microbiol Ecol
22:17– 28
Tonelli ML, Taurian T, Ibáñez F, Angelini J (2010) Selection and in vitro characterization of
biocontrol agents with potential to protect peanut plants against fungal pathogens. J Plant
Pathol 92:73– 82
Trognitz F, Piller K, Nagel M, Borner A, Bacher CF, Rechlik M, Mayrhofer H, Sessitsch A (2014)
Isolation and characterization of endophytes isolated form seeds of different plants and the
application to increase juvenile development. Tagung Verein Pflanzen Saatgut Osterr 65:25– 28
Tsurumaru H, Okubo T, Okazaki K, Hashimoto M, Kakizaki K, Hanzawa E, Takahashi H,
Asanome N, Tanaka F, Sekiyama Y, Ikeda S, Minamisawa K (2015) Metagenomic analysis of
the bacterial community associated with the tap root of sugar beet. Microb Environ 30:63– 69
Uppala SS, Beena S, Chapala MM, Bowen KL (2009) Bioefficacy of endophytes in the
management of leaf blight disease ofAmaranthus. In: Proceedings First Asian PGPR congress
for sustainable agriculture 21– 24
Vanitha SC, Umesha S (2011)Pseudomonasfluorescensmediated systemic resistance in tomato is
driven through an elevated synthesis of defense enzymes. Biol Plant 55:17– 322
Veena GA, Eswara reddy NP, Harshitha M, Prathyusha C (2014) Efficacy of rhizospheric and root
endophytic bacteria againstRhizoctonia bataticolaand compatibility studies with fungicides.
Int J Plant Anim Environ Sci 4:270– 275
Velusamy P, Immanuel JE, Gnanamanickam SS (2013) Rhizosphere bacteria for biocontrol of
bacterial blight and growth promotion of rice. Rice Sci 20(5):356– 362
Verma SC, Ladha JK, Tripathi AK (2001) Evaluation of plant growth promoting and colonization
ability of endophytic diazotrophs from deep water rice. J Biotechnol 91:121– 141
160 A. Muthukumar et al.