Poster presentation
190
SCREENING FOR PHOSPHATE-SOLUBILIZING WHEAT
RHIZOBACTERIA (Triticum aestivum)
G.Х. Кadirova, М.S. Sadullayeva, Т.S. Хusanov, Т.E. Shonaxunov
Institute of Microbiology of the Academy of Sciences, Tashkent, Uzbekistan;
e-mail: kadirovagul@mail.ru
Soil fertility and sustainable agriculture are crucial for ensuring global food security.
The majority of soils with high sorption capacity have scarce phosphorus (P) resources
that fall far short of what agriculture needs, it is not enough agricultural fertility and
productivity. Agricultural soils typically have a phosphorus content of 0.05%, of which
only 0.1% is accessible to plants. Biological phosphate solubilization, which is carried
out by soil microorganisms and facilitates the conversion
of sparingly soluble
phosphorus compounds into forms accessible to higher plants, is one of the potential
approaches for increasing the phosphorus nutrition of agricultural crops.
The objective of this study is to identify and screen wheat (
Triticum aestivum
L.)
phosphate-solubilizing rhizobacteria (FSR) for the capacity to produce acids.
More than 50 isolates (pure cultures) of FSR were found in the root zone of wheat
(
Triticum aestivum
L.), which was grown in the Tashkent and Kashkadarya regions of
the Republic in the cultivars "Asr," "Yaksart," and "Thunder." The dynamics of growth
and development were demonstrated by 20 of the isolates isolated in pure culture, who
were able to dissolve tricalcium phosphate on the Pikovsky nutritional medium with an
indicator, generating a transparent zone. It has
been determined that the
Acinebacter,
Clostridium, Enterobacter, Pseudomonas, Bacillus, Exiguobacterium
, and
Serratia
genera contain
the most active FSR strains
.
It is known that one of the main
mechanisms recognized as responsible for the release of available forms of phosphorus
by plants in the soil is the production of organic acids and an increase in the activity of
acid phosphatases. Therefore, the next stage of the research was to determine the
formation of total titratable acids by active FSR. It has been established that all studied
FSR form organic acids, but the most active acid-forming cultures are
Acinebacter pittii
1K,
Bacillus cereus
11K,
Acinebacter pittii
2K,
Enterobacter cloacae
9K,
Exiguobacterium
sp.12K,
B. cereus
16K,
Serratia marcescens
21K,
E. cloacae
FA,
Pseudomonas aeruginosa
23A,
P. aeruginosa
28A,
E. cloacae
34A and
B. subtilis
35A.
It should be noted that in
the most active PS strains
S. marcescens
21K and
P.
aeruginosa
23A, the total amount of titratable acids for 15 days remains at the level of
28.4 mg/ml to 36.0 mg/ml and from 14.6 to 32.4 mg/ml. Today, improving phosphate
bioavailability for crop productivity is the main objective for sustainable agricultural
development. Isolated local strains of FSR are extremely effective as biofertilizers in
this situation because they boost phosphorus'
bioavailability to plants, support
sustainable agriculture, and enhance soil fertility and crop yields.
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