[electronic resource].

Shams El-Deen, Rawia O.

Safe application and preservation efficacy of low-toxic rhamnolipids produced from Ps. Aeruginosa for cosmetics and personal care formulation [electronic resource]. - p. 71-86.

Includes references.

Phosphate solubilizing capacity of four strains, Pseudomonas fluorescence, Bacillus megaterium, Serratia marcescens,
and Bacillus subtilis was assessed in liquid National Botanical Research Institute’s phosphate medium containing rock
phosphate (RP). A greenhouse pot experiment was conducted to evaluate the effects of inoculation with arbuscular
mycorrhizal (AM) fungi alone or in combination with each strain with and without RP on wheat (Triticum aestivum Gemeza-9)
growth, yield, nutrient uptake and the activity of alkaline phosphatase. The amounts of P released from RP by bacterial
strains ranged from 0.22 to 80.8mg P L-1 and the pH values of the cultures were reduced from initial value of 7.3 to
values varied between 4.04 and 6.62. The results indicated that B. subtilis was the most effective strain in solubilizing RP
in liquid culture. The combined inoculation with bacterial strains and AM fungi led to a significant increase in soil P content
and alkaline phosphatase activity compared with both the non-inoculated and the individually inoculated soil, and this increase
was much higher after 69 days comparing with those after 130 days. In RP-amended soil, B. subtilis and P. fluorescence were more
effective in increasing NPK uptake of wheat straw and grains compared with S. marcescens and B. megaterium when inoculated with AM fungi.
This study is concluded that the combined inoculation plus RP gave better results for wheat grown in sandy soil. Further researches are
required to estimate this study under field conditions and different soils to give reliable results.



Summary in Arabic.


Phosphates--Solubility.
Vesicular-arbuscular mycorrhizas
Wheat--Fertilizers
Soil microbiology.

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