Diversity of Phosphorus‐Solubilizing Microbes Isolated From Different Cropping Systems of Zimbabwe for Use as Biofertilizers With Rock Phosphate
Grace Kanonge, Mazvita S. Chiduwa, Pardon Muchaonyerwa

TL;DR
This study identifies diverse phosphorus-solubilizing microbes from Zimbabwean soils that can help plants access phosphorus from rock phosphate, offering a low-cost alternative to chemical fertilizers.
Contribution
The study pioneers the discovery of diverse native phosphorus-solubilizing microbes in Zimbabwean soils for potential use as biofertilizers.
Findings
Thirty-seven culturable phosphorus-solubilizing microbes were isolated, with 91% being bacteria and 8% fungi.
Bacillus species, particularly Bacillus amyloliquefaciens, showed the highest phosphorus solubilization capacity.
Diversity was higher in certain regions and under specific crops like groundnut and maize.
Abstract
Soil phosphorus deficiency and the high cost of mineral fertilizers necessitate research into alternative strategies. Inoculating seeds with adapted phosphorus‐solubilizing microorganisms (PSMs) could be a cost‐effective option. This study explored diversity, including phenotypic and genotypic characteristics of PSMs from selected soils and cropping systems of Zimbabwe, for coapplication with rock phosphate (RP). Culturable PSMs were isolated from preincubated or cowpea rhizosphere soil. Over 91% of the 37 isolates (PSM1–PSM37) were bacteria, while 8% were fungi. Diversity was higher in Dorowa (H′ 2.99; DMn 8.49) than that in Marondera (H′ 2.85; DMn 7.57), and under groundnut and maize (H′ 3.26) than other crops. Some PSMs occurred only in Marondera (8%) and Dorowa (14%). The P solubilization index on RP‐amended Pikovskaya medium, ranged between 1.00 and 15.9. Sixty‐five percent of the…
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Taxonomy
TopicsLegume Nitrogen Fixing Symbiosis · Plant nutrient uptake and metabolism · Soil Carbon and Nitrogen Dynamics
