(CFU [mL.saup.-1]) ** 6.6 x [10.sup.5] 1.8 x [10.sup.6] 1.7 x [10.sup.6] (a) (a) (a, b) P.fluorescens
(CFU [mL.sup.-1]) ** 6.0 x [10.sup.3] 8.4 x [10.sup.4] 6.2 x [10.sup.2] (a) (a) (a) A D E Temperature ([degrees]C) 3.1 3.4 3.3 Mesophilic bacteria (CFU [mL.sup.-1]) 1.6x [10.sup.6] 8.4 x [10.sup.5] 3.4 x [10.sup.5] (a, b) (b) (b) Psychrotrophic bacteria (CFU [mL.sup.-1]) ** 1.68 x [10.sup.6] 1.5 x [10.sup.6] 4.0 x [10.sup.5] (a) (a, b) (b) Pseudomonas spp.
Two strains were identified as P.fluorescens strain DmBR 2; Two strains were identified as P.fluorescens strain NITDPY, One strain was identified as Pseudomonas sp.
Isolate Identified as %similarity Ps7 Pseudomonas fluorescens 98% Ps8 Pseudomonas fluorescens 98% Ps12 Pseudomonassp 98% Ps26 Pseudomonas fluorescens 99% Ps34 Pseudomonas fluorescens 98% Ps43 Pseudomonas fluorescens 94% Ps47 Pseudomonas fluorescens 98% Ps65 Pseudomonas fluorescens 89% Ps66 Pseudomonas fluorescens 98% Isolate Accession number Organism, strain Ps7 KR267325 P.fluorescens strain DmBR 2 Ps8 KR267326 P.fluorescens strain NITDPY Ps12 KR267327 Pseudomonas sp EP_S_49 Ps26 KR267328 P.fluorescens strain dqe01 Ps34 KR267330 P fluorescens strain NITDPY Ps43 KR267331 P.geniculata strain MD 05 Ps47 KR267332 P fluorescens A506 Ps65 KR267333 P fluorescens strain B-Exp9 Ps66 KR267334 P fluorescensstrainDmBR 2
pyrrocinia + P.fluorescens
) resulted in 58 and 43% gain in root length of rice seedlings, respectively, and T.
Catheter removal in such instances is strongly recommended, especially among immunocompromised patients, because antibiotic therapy alone might not eradicate P.fluorescens
from catheter biofilms.
Among the bio-agents and botanicals used, the maximum number of tillers were recorded in [T.sub.1-] P.fluorescens
(46.43) as compared to treated and untreated control (38.46 and 25.93, respectively).
Results showed that treatment of PVY-infected tubers with P.fluorescens, Rhodotorula sp and fermented neem extract induced significant reduction in the time of plant emergence associated with significant increase in plant dry weight compared with infected non-treated plants (control).
The absorbance values of ELISA reaction between anti-PVY antibodies and treated from leaves of plants emerged from infected tubers treated with P.fluorescens, Rhodotorula sp and neem extract were found to be 0.14, 0.23 ,0.18 respectively compared with 2.50 for extract of control plants emerged from infected non-treated tubers table (1).
The result of this study demonstrated that the treatment of potato tubers with fermented neem extract, P.fluorescens and Rhodotorula sp have significantly stimulated plant emergence and improved plant growth.
Similar results were obtained with P.fluorescens and Rhodotorula sp concerning plant emergence and growth promotion.
harzianum-6 IIHR, Bengaluru 7 Pseudomonas fluorescens Bacteriology lab, UAS, GKVK, Bengaluru 8 P.fluorescens
NBAIR, Bengaluru 9 Bacillus subtilis Bacteriology lab, UAS, GKVK, Bengaluru 10 B.