Biosolubilization of rock phosphate byPleurotus ostreatuswith brewery sludge and its effect on the growth of maize (Zea maysL.)

Rock Phosphate (RP) is a natural phosphorus source which can be an alternative to chemical fertilizers; but unfortunately, we lack technologies to make it applicable in alkaline soils. Therefore the aim of this work was to study the effects of phosphorous solubilizing fungusPleurotus ostreatuson rock phosphate solubilization and its effect on growth ofZea maysL. incorporated with brewery sludge. The activity of the selected strain indicates the formation of the halo zone supplemented with rock phosphate. The maximum concentration of soluble phosphorus (P) was found at the 9th day of incubation in Pikovskaya's broth containing rock phosphate as P source. The inoculation ofP. ostreatuswith RP and brewery sludge significantly increased the root length (49%), shoot length (27%), root fresh weight (20%), root dry weight (46%), shoot fresh weight (89%), shoot dry weight (87%), chlorophyll content (79%) and nutrient accumulation, i.e., P (2.13), K (4.48), Ca (134.21), Mg (38.09), Cu (1.70), Mn (5.15), Zn (12.08), S (78.25) times greater than control inZea maysL. The phosphatic residues after microbial solubilization showed structural and elemental changes confirmed by SEM and FE-SEM attached with energy-dispersive X-ray. The XRD and FTIR pattern shows that the mineral constituent of the treated sample signifies the proper P solubilization. Though few reports are available onP. ostreatusbut biosolubilization with rock phosphate in the presence of brewery sludge is not yet reported. Overall, these findings suggest a possible application of the abundant waste materials on the sustainable growth of the plants.

Automated summary

The study aimed to investigate the effects of Pleurotus ostreatus in combination with rock phosphate on the growth of Zea mays, revealing significant improvements in plant growth parameters. The phosphatic residues after microbial solubilization showed structural and elemental changes, confirming proper phosphorus solubilization with the selected strain. These findings suggest the potential application of abundant waste materials in promoting sustainable plant growth.