Author(s)

Zakira Naureen^1,2*, Muhammad Aqeel², Muhammad Nadeem Hassan², Syed Abdullah Gilani¹, Nahla Bouqellah³, Fazal Mabood¹, Javid Hussain¹, Fauzia Y. Hafeez²

¹Department of Biological Sciences and Chemistry, University of Nizwa, Birkat Al Mawz, Oman.
²COMSATS University, Chak Shehzad, Islamabad, Pakistan.
³Department of Biology, Taibah University Madina, Saudi Arabia.

Silicate solubilizing bacteria (SSB) can play an efficient role in soil by solubilizing insoluble forms of silicates. In addition to this some SSB can also solubilize potassium and phosphates, hence increasing soil fertility and enhancing plant defense mechanisms. A total of 111 bacterial strains were isolated from various habitats of Pakistan and screened for solubilization of silicate, phosphate and potassium on respective media. Out of these, 35 bacterial isolates were capable of solubilizing either silicate, phosphate or potassium. Amongst these 7 bacterial isolates were capable of solubilizing all three minerals tested. The highest silicate (zone diameter 54 mm) and phosphate solubilization (zone diameter 55 mm) was observed for bacterial isolate NR-2 while the highest potassium solubilization was observed for NE-4b (zone diameter 11 mm). Dual culture antagonistic assays were carried out by using these bacterial isolates against four plant pathogenic fungi Magnaporthae grisae, Rhizoctonia solani, Altarnaria alternata and Macrophomina pheasolina. Mean zone of inhibition of these bacterial isolates against the four pathogenic fungi ranged between 4 mm to 39 mm. The largest zone of inhibition against all four bacterial strains was recorded for bacterial isolate NR-2 followed by NE-4b. These strains will be further investigated for their plant growth promoting activities in the future.

Silicate Solubilizing Bacteria, Biocontrol, Phytopathogenic Fungi

Naureen, Z. , Aqeel, M. , Hassan, M. , Gilani, S. , Bouqellah, N. , Mabood, F. , Hussain, J. and Y. Hafeez, F. (2015) Isolation and Screening of Silicate Bacteria from Various Habitats for Biological Control of Phytopathogenic Fungi. American Journal of Plant Sciences, 6, 2850-2859. doi: 10.4236/ajps.2015.618282.