1.Ahmad, F., Ahmad, I., and Khan, M.S. 2008. Screening of free-living rhizospheric bacteria for their multiple plant growth promoting activities. Microbiological Research. 163: 2. 173-181.
2.Amani, B. 1967. Soft rof of ornamental and vegatables. Iranian Journal of Plant Pathology. 4: 1-13. (In Persian)
3.Archana, D.S., Nandish, M.S., Savalagi, V.P., and Alagawadi, A.R. 2013. Characterization of potassium solubilizing bacteria (KSB) from rhizosphere soil. Bioinfolet. 10: 1. 248-257.
4.Badr, M.A., Shafei, A.M., and El-Deen, S.S. 2006. The Dissolution of K and P-bearing Minerals by Silicate Dissolving Bacteria and Their Effect on Sorghum Growth. Research Journal of Agriculture and Biological Sciences. 2: 5-11.
5.Bahar, M., and Danesh, D. 1986. Occurrence of potato black leg in Isfahan. Proceeding Eighteen plant protection congo of Iran. 105p. (In Persian)
6.Clarridge, J.E. 2004. Impact of 16S rRNA gene sequence analysis for identification of bacteria on clinical microbiology and infectious diseases. Clinical Microbiology Reviews. 17: 4. 840-862.
7.Dorjdor, J., Yazdansetad, S., Arzanesh, M.H., and Ajoudanifar, H. 2014. Screening of indigenous potassium-solubilizing bacterial strains and evaluation of their ability in solubilisation of absorbable potassium. Journal of Microbial World.
7: 3. 252-264. (In Persian)
8.Eslami Seyyedmahaleh, R., Landi, A., Enayatizamir, N., and Hojati, S. 2017. Iron and Potassium Release from Muscovite and Vermiculite by Some Plant Growth Promoting Bacteria. The Iranian Journal of Soil Research (IJSR). 30: 4. 487-496. (In Persian)
9.Fankem, H., Nwaga, D., Deubel, A., Dieng, L., Merbach, W., and Etoa, F.X. 2006. Occurrence and functioning of phosphate solubilizing microorganisms from oil palm tree (Elaeis guineensis) rhizosphere in Cameroon. African Journal of Biotechnology. 5: 2450-2460.
10.Glick, B.R. 1995. The enhancement of plant growth by free-living bacteria. Canadian Journal of Microbiology.
41: 2. 109-117.
11.Guang-Can, T.A., Shu-Jun, T.I., Miao-Ying, C.A., and Guang-Huang-Hui, X.I. 2008. Phosphate-Solublizing and-Mineralizing Abilities of Bacteria Isolated from soils Scholars, the Ministry. Pedosphere. 18: 515-23.
12.Hosseinpour, A., and Kalbasi, M. 2002. Kinetics of non-exchangeable potassium release from soils soil separates in some central region of Iran. Proseeding of 17th WCSS; 2002 Aug 14-21; Thailand, Symposium. 54: 231. 1-11.
13.Hu, X., and Boyer, G.L. 1996. Siderophore-Mediated Aluminum Uptake by Bacillus megaterium ATCC 19213. Applied and Environmental Microbiology. 62: 4044-4048.
14.Keshavarz Zarjani, J., Aliasgharzad, N., Oustan, S., Emadi, M., and Ahmadi, A. 2013. Isolation and characterization of potassium solubilizing bacteria in some Iranian soils. Archives of Agronomy and Soil Science. 59: 12. 1713-1723.
15.Khakipour, N., Khavazi, K., and Akhgar, A. 2012. Identification of indole compounds produced by a selection of fluorescent pseudomonas and their induction effect on canola growth. Iranian Journal of Soil Research. 26: 4. 415-423. (In Persian)
16.Khoshrou, B., Sarikhani, M.R., Aliasgharzad, N., and Zare, P. 2015. Assessment the important PGPR features of isolates used in biofertilizers Barvar2, Biosuperphosphate, Supernitroplus and Nitroxin. Applied Soil Reserch.
3: 1. 39-52. (In Persian)
17.Leoni, L., Ambrosi, C., Petrucca, A., and Visca, P. 2002. Transcriptional regulation of pseudobactin synthesis
in the plant growth-promoting Pseudomonas B10. FEMS Microbiology Letters. 208: 2. 219-225.
18.Loper, J.E., and Henkels, M.D. 1999. Utilization of heterologous siderophores enhances levels of iron available to Pseudomonas putida in the rhizosphere. Applied and Environmental Microbiology. 65: 12. 5357-5363.
19.Martin, H.W., and Sparks, D.L. 1983. Kinetics of Nonexchangeable Potassium Release from Two Coastal Plain Soils. Soil Science Society of America Journal. 47: 883-887.
20.Prajapati1 K.B., and Modi, H.A. 2012. Isolation and characterization of potassium solubilizing bacteria from ceramic industry soil. CIBTech Journal of Microbiology. 1: 2-3. 8-14.
21.Pratama, D., and Suwarno, I. 2016. Ability of Potassium-Solubilissing Microbes to Solubilise Feldspar and Their Effects on Sorghum Growth. Malaysian Journal of Soil Science. 20: 163-175.
22.Rafiei, S., and Asadi Rahmani, H. 2013. Survey the ability of flavobacterium sp. bacteria in solubilization of insoluble phosphate. Journal of Soil Biology.26: 4. 479-472. (In Persian)
23.Rajawat, M.V.S., Singh, S., Tyagi, S.P., and Saxena, A.K. 2016. A Modified Plate Assay for Rapid Screening
of Potassium-Solubilizing Bacteria. Pedosphere. 26: 5. 768-773.
24.Rasouli Sadaghiani, M.H., Sadeghi, S., Barin, M., Sepehr, E., and Dovlati, B. 2017. The Effect of Silicate Solubilizing Bacteria on Potassium Release from Mica Minerals and its Uptake by Corn Plants. 20: 78. 89-102.
25.Rodrı́guez, H., and Fraga, R. 1999. Phosphate solubilizing bacteria and their role in plant growth promotion. Biotechnology Advances. 17: 4. 319-339.
26.Sample, E.C., Soper, R.J., and Racz, G.J. 2015. Reactions of Phosphate Fertilizers in Soils. In The Role of Phosphorus in Agriculture (eds F. Khasawneh, E. Sample and E. Kamprath). Wiley Press, Pp: 263-310.
27.Sarikhani, M.R., Malbobi, M.A., and Ebrahimi, M. 2014. Phosphate soluble bacteria: Separation of phosphate soluble bacteria and encoding genes, mechanism and genetics of phosphate dissolution. Agricultural Biotechnology Journal. 6: 1. 77-110. (In Persian)
28.Schulte, E.B. 2004. Soil and applied iron. Understanding Plant Nutrient, A3554, University of Wasconsin-Extension, RP08-2004 (I 09/92).
29.Sheng, X.F., He, L.Y., and Huang, W.Y. 2002. The Conditions of Releasing Potassium by a Silicate-dissolving Bacterial Strain NBT. Agricultural Sciences in China. 1: 6. 662-666.
30.Sparks, D.L. 1987. Potassium Dynamics in Soils. In: Stewart B.A. (eds) Advances in Soil Science. Advances in Soil Science, Springer, New York, NY, Pp: 1-63.
31.Sugumaran, P., and Janarthanam, B. 2007. Solubilization of potassium containing minerals by bacteria and their effect on plant growth. World Journal of Agricultural Sciences. 3: 3. 350-355.