Page 642 - e-Book
P. 642

Otieno,  N.  et  al.  (2015).  Plant  growth  promotion  induced  by  phosphate  solubilizing

                     endophytic Pseudomonas isolates. Frontiers in microbiology, 6, 745.
               Pailan,  S.Gupta,  D.Apte,  S.Krishnamurthi,  S.,  &  Saha,  P.  (2015).  Degradation  of

                     organophosphate  insecticide  by  a  novel  Bacillus  aryabhattai  strain  SanPS1,  isolated
                     from  soil  of  agricultural  field  in  Burdwan,  West  Bengal,  India.  International

                     biodeterioration & biodegradation,103, 191-195.
               Pandey, A.Trivedi, P.Kumar, B., & Palni, L. M. S. (2006). Characterization of a phosphate

                     solubilizing and antagonistic strain of Pseudomonas putida (B0) isolated from a sub-

                     alpine location in the Indian Central Himalaya. Current microbiology, 53(2), 102-107.
               Persello‐Cartieaux,    F.Nussaume,    L.,    &    Robaglia,    C.    (2003).    Tales    from    the

                     underground:  molecular  plant–rhizobacteria  interactions.  Plant,  Cell  &  Environment,

                     26(2), 189-199.
               Peter, J.Young, W., & HAUKKA, K. E. (1996). Diversity and phylogeny of rhizobia. New

                     phytologist, 133(1), 87-94.
               Phillips,  D.,  &  Tsai,  S.  (1992).  Flavonoids  as  plant  signals  to  rhizosphere  microbes.

                     Mycorrhiza,1(2), 55-58.
               Rahi, P. et al. (2010). Stimulatory effect of phosphate-solubilizing bacteria on plant growth,

                     stevioside  and  rebaudioside-A  contents  of  Stevia  rebaudiana  Bertoni.  Applied  Soil

                     Ecology,46(2), 222-229.
               Rajput, M. S.Naresh Kumar, G., & Rajkumar, S. (2013). Repression of oxalic acid-mediated

                     mineral phosphate solubilization in rhizospheric isolates of Klebsiella pneumoniae by
                     succinate. Arch Microbiol, 195(2), 81-88. doi: 10.1007/s00203-012-0850-x

               Reed, S. C.Cleveland, C. C., & Townsend, A. R. (2011). Functional ecology of free-living
                     nitrogen fixation: a contemporary perspective. Annual review of ecology, evolution, and

                     systematics, 42, 489-512.

               Rodrıguez,  H.,  &  Fraga,  R.  (1999).  Phosphate  solubilizing  bacteria  and  their  role in  plant

                     growth promotion. Biotechnology advances, 17(4-5), 319-339.
               Rodriguez,  H.Gonzalez,  T.Goire,  I.,  &  Bashan,  Y.  (2004).  Gluconic  acid  production  and

                     phosphate  solubilization  by  the  plant  growth-promoting  bacterium  Azospirillum  spp.
                     Naturwissenschaften, 91(11), 552-555.

               Rokhbakhsh-Zamin,  F.  et  al.  (2011).  Characterization  of  plant-growth-promoting  traits  of

                     Acinetobacter species isolated from rhizosphere of Pennisetum glaucum. J Microbiol
                     Biotechnol, 21(6), 556-566.






                                                           632
   637   638   639   640   641   642   643   644   645   646   647