Page 635 - e-Book
P. 635

Ebert,  B.  E.Kurth,  F.Grund,  M.Blank,  L.  M.,  &  Schmid,  A.  (2011).  Response  of

                     Pseudomonas putida  KT2440  to  increased  NADH  and  ATP  demand.  Appl.  Environ.
                     Microbiol., 77(18), 6597-6605.

               Egamberdieva,  D.Jabborova,  D.,  &  Hashem,  A.  (2015).  Pseudomonas  induces  salinity
                     tolerance in cotton (Gossypium hirsutum) and resistance to Fusarium root rot through the

                     modulation  of  indole-3-acetic  acid.  Saudi  journal  of  biological  sciences,  22(6),  773-
                     779.

               Egamberdiyeva,  D.  (2007).  The  effect  of  plant  growth  promoting  bacteria  on  growth  and

                     nutrient uptake of maize in two different soils. applied soil ecology, 36(2-3), 184-189.
               Elbeltagy,  A.  et  al.  (2001).  Endophytic  colonization  and  in  planta  nitrogen  fixation

                     by  a Herbaspirillum  sp.  isolated  from  wild  rice  species.  Appl.  Environ.  Microbiol.,

                     67(11), 5285-5293.
               Elser,  J.  J.  (2012).  Phosphorus:  a  limiting  nutrient  for  humanity?  Current  opinion  in

                     biotechnology,23(6), 833-838.

               Etesami, H., & Adl, S. M. (2020). Plant growth-promoting rhizobacteria (PGPR) and their
                     action mechanisms  in  availability  of  nutrients  to  plants.  Phyto-Microbiome  in  Stress

                     Regulation,14-203.

               Figueiredo,  M.Martinez,  C.Burity,  H.,  &  Chanway,  C.  (2008).  Plant  growth-promoting

                     rhizobacteria  for  improving  nodulation  and  nitrogen  fixation  in  the  common  bean
                     (Phaseolus  vulgaris  L.).  World  Journal  of  Microbiology  and  Biotechnology,  24(7),

                     1187-1193.

               Flores‐Félix, J. D. et al. (2013). Use of Rhizobium leguminosarum as a potential biofertilizer
                     for Lactuca  sativa  and  Daucus  carota  crops.  Journal  of  Plant  Nutrition  and  Soil

                     Science, 176(6), 876-882.
               Frankenberger  Jr,  W.  T.,  &  Arshad,  M.  (2020).  Phytohormones  in  soils  microbial

                     production & function: CRC Press.

               Gagné,  S.Le  Quéré,  D.Aliphat,  S.Lemay,  R.,  &  Fournier,  N.  (1991).  Inhibition  of  plant
                     pathogenic fungi  by  volatile compounds  produced  by  some PGPR  strains.  Canadian

                     Journal of Plant Pathology, 13, 277-280.
               García-Fraile,  P.  et  al.  (2012).  Rhizobium  promotes  non-legumes  growth  and  quality  in

                     several production steps: towards a biofertilization of edible raw vegetables healthy for

                     humans. PLoS One, 7(5).






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