1. Abdalla, M.H., and Omar, S.A. 2001. Survival of Rhizobia bradi Rhizobia and aroch phosphate solubilization fungus Aseorgillus nigeron various carrier prom some agroinduster wastes and their effect on nodulation and growth of pahabean and soybean. Plant Natutrition 24: 72-261.
2. Adeleye, E.O., Ayeni, L.S., and Ojeniyi, S.O. 2010. Effect of poultry manure on soil physico-chemical properties, leaf nutrient contents and yield of Yam (Dioscorea rotundata) on Alfisol in Southwestern Nigeria. American Journal of Science 6: 870-878.
3. Aliasgharzad, N. 2000. Study on Dispersion and Compaction on Mycorriza Arbascular Population in Salin Soil of Tabriz Plain and affect of Inoculation on Improvement Onion and Barely in Salinity Tolerance. Ph.D Thesis, Agriculture College, Tahran University, Iran. (In Persian with English Summary).
4. Antouan, H., and Klopper, W.J. 2001. Plant Growth Promoting Rhizobacteria. Academic Press. p: 1470-1488.
5. Arancon, NQ., Edwards, CA., Atiyeh, RM., and Metzger, JD. 2004. Effects of vermicomposts produced from food waste on greenhouse peppers. Bioresource Technology 93: 139-144.
6. Arancon, NQ., Edwards, CA., Lee, S., and Byrne, R. 2006. Effects of humic acids from vermicomposts on plant growth. European Journal of Soil Biology 42: 65-69.
7. Asadi, H., and Falah, A.R. 2000. Necessity of biological fertilizer productionfor plant growth and its propagation. Soil and Water Journal, Soil Biology 12(7): 97-105. (In Persian with English Summary).
8. Asgari, M., Habibi, D., and Brojerdi, G. 2011. Study on the application of vermicompost, growth stimulating bacteria and humic acid on growth index of peppermint in central province. Journal of Agronomy and Plant Breeding 7(4): 41-54. (In Persian with English Summary).
9. Azeimi, R., Jangjoo, M., and Asghari, H.R. 2013. Effect of Mycorrhiza on pre-establishment and physiological properties of garden oregano in natural condition. Iranian Journal of Agronomy Research 11(4): 666-676. (In Persian with English Summary).
10. Babaei, M., Ardakani, M.R., Rejali, F., Shirani Rad, A.H., Golzardi, F., and Mafakheri, S. 2012. Response of agronomical traits of sunflower (Helianthus annuus L.) to co-inoculation with Glomus intraradices and Pseudomonas fluorescens under different phosphorus levels. Annals of Biological Research 3: 4195-4199. (In Persian with English Summary).
11. Balakumbahan, R., and Rajamani, K. 2010. Effect of Biostimulant on growth and yield of senna. Journal of Horticulture Science and Ornamental Plant 2(1): 16-18.
12. Banchio, E., Bagino, P., Zygadlo, J., and Giordano, W. 2008. Plant growth promoting rhizobacteria improve growth and essential oil yield in Origanum majorana L. Biochemistry Systemic Ecology 36: 766-771.
13. Barea, J.M. Werner, D., Azcon-Guilar, C., and Azcon, R. 2005. Interactions of Mycorrhiza arbuscular and nitrogen-fixing symbiosis in sustainable agriculture. D. Werner and W.E. Newton (Eds.). Nitrogen Fixation in Agriculture, Forestry, Ecology, and the Environment 4: 199-222.
14. Bayat, A.A., Sephri, A., Ahmad, G., and Dorri, H.R. 2010. Effect of water deficit stress on yield and yield component of pinto bean (Phaseolus vulgaris L.). Iranian Journal of Crop Sciences 12(1): 42-54.
15. Biswas, J.C., Ladha, J.K., Dazzo, F.B., Yanni, Y.G., and Rolfe, B.G. 2000. Rhizobial inoculation influences seedling vigor and yield of rice. Agronomy Journal 92: 880-886.
16. Busato, JG., Lima, LS., Aguiar, N.O., Canellas, LP., and Olivares, F. L2002. Changes in labile phosphorus forms during maturation of vermicompost enriched with phosphorus-solubilizing and diazotrophic bacteria. Bioresource Technology110: 390-395.
17. Journal of Crop Science 12(1): 42-54. (In Persian with English Summary).
18. Cardoso, I.M., and Kuyper, T.W. 2006. Mycorrhizas and tropical soil fertility. Agricultur Ecosystems and Environment 116: 72-84.
19. Chandrashekara, C.P., Patil, V.C., and Sreenivasa, M.N.1995. Response of two sunflower (Helianthus annuus L.) genotypes to VA-mycorrizal inoculation and phosphorus levels. Biotopia 8: 53-59.
20. Darzei, M.T. Ghalavand, A., and Rajali, F. 2008. Study on the mycorizea, vermicopost andbio-phosphate fertilizer application on flowering, biological yield and root symbiosis in fennel plant. Iranian Journal of Agronomy Science 10(1): 88-109. (In Persian with English Summary).
21. Davodifar, M., Habibi, D., and Davodifar, F. 2012. Study on the saline stress on sustainability of cytoplasm membrane, cholorophyll content and yield components of wheat inoculated with growth stimulating bacteria and humic acid. Journal of Agronomy and Plant Breading 8(2): 71-86. (In Persian with English Summary).
22. Davison, J. 1998. Plant beneficial bacteria. Biotechnology 6: 282-286.
23. Delfine, S., Tognetti, R., Desiderio, E., and Alvino, A. 2005. Effect of foliar application of N and humic acids on growth and yield of durum weath. Agronomy Sustainable Develoment 25: 183-191.
24. Dolatabadi, H.K., Goltape, E.M., Moeini, A., Jaimand, B., Sardrood, P., and Varma, A. 2011. Effect of Priformospora indica and sebacina vemifera on plant growth and essential oil yield on Thymus vulgaris invitro and invivo experiments. Symbiosis 53: 29-35.
25. Duresun, A., and Guvenc, I. 2000. Effects of different level of humic acid on seedling growth of tomato and eggplant. ISHS Acta Horticultur 491.
26. Egamberdievva, D., and Hoflich, G. 2004. Influence of growth promoting bacteria on the growth wheat in different soils and temperature. Soil Biology Biochemistry 35: 973-978.
27. Ferrol, N., and Perez-Tienda, J. 2009. Coordinated nutrient exchange in arbuscular mycorrhiza In: C. Azcon-Aguilar, J. Barea, S. Gianiazzi and S. Pearson. Mycorrhizas-Fanctional Proccesses and Ecological Impact. Pp: 73-87.
28. Gehan, G.M., and Abo-Baker A. 2010. Effect bio and chemical fertilization on growth of sunflower (Helianthus annuus L.) at south valley area. Asian Journal of Crop Science 2: 137-146.
29. Ghanavati, N., and Nadeian, H. 2012. Effect of mycoraizea arbascolar on berseem plant growth under three different swage. Journal of Physiology of Agronomy Plants 5(17): 17-30. (In Persian with English Summary).
30. Ghorchani, M., Akbari, G., Alikhanu, H., Zarei, M.V., and Dadi, A. 2012. Interaction of Mycorrhiza arbuscular and bacteria pseudomonas fluorescence on efficiency of phosphorus fertilizer use and Mycorrhiza dependence of maize under low water. Journal of Science and Technology of Agriculture and Natural Resources, Soil and Water 17(63): 123-136. (In Persian with English Summary).
31. Karimi, K., Bolandnazar, S., and Ashori, S. 2013. Effect of biological fertilizers and mycorrihza arbascolar on yield, growth properties and green bean qualities. Journal of Agricultural Science and Sustainable Products 23(30): 392-400. (In Persian with English Summary).
32. Kay, D., Edwards, A.C., Ferrier, R.C., Francis, C., Kay, C., Rushby, L., Watkins, J., McDonald, A.T., Wyer, M., Crowther, J., and Wilkinson, J. 2007. Catchmentmicrobial dynamics: the emergence of a research agenda. Progress Physical Geology 31: 59-76.
33. Khazaei, H., Sabzevari, S., and Kafi, M. 2009. Effect of humic acid on root and shoot growth of wheat varieties sayons and sabalan. Journal of Water & Soil 23(2): 87-94. (In Persian with English Summary).
34. Khoramdel, S., Kochakei, A.L., Naseirimahalatei, M., and Ghorbani, R. 2008. Effect of biological fertilizer on Nigella sativa growth index. Journal of Agricultural Research 6(2): 285-294. (In Persian with English Summary).
35. Lue, C., Cooper, R.J., and Bowman, D.C. 1996. Humic acid application affects synthesis root, and nutrient content of creeping bentgrass. Horticultural Science 33(6): 1023-1025.
36. Malcolm, R.E., and Vaghuan, D.A. 1979. Humic substances and phosphatas activities in plant tissues. Soil Biology Chemistry 11: 253-259.
37. Mirzakhani, M., Ardakani, M.R., Aeeneband, A., Shiranirad, A.H., and Rejali, F. 2009. Effects of Co-inoculation of Azotobacter and Mycorrhiza under Nitrogen and Phosphorus Levels on Nutrients Absorbtion Efficiency in Safflower (Carthamus tinctorius L.). Ph.D Thesis of Agricultural on Agronomy. Islamic Azad University Science and ResearchBranch-Khouzestan, Iran. (In Persian with English Summary).
38. Mishra, M., Patjoshi, A.K., and Jena, D. 1998. Effect of biofertilization on production (Zea mays) of maize. Indian Journal Agronomy 43: 307-310.
39. Muscolo, A., Panuccio, M.R., Abenavoli, MR., Concheri, G., and Nardi, S.1996. Affect of molecular complexity and acidity of earthworm faeces humic fractions on glutamate dehydrogenase, glutamine synthetase, and phosphoenolpyruvate carboxylase in Daucus carota a ll cells. Boil fertile Soils 22: 83-88.
40. Olsen, S.R., Cole, C.V., Watanabe, F.S., and Dean, L.A. 1954. Estimation of available phosphorus in soils by extraction with sodium bicarbonate. United States Department of Agriculture Circular 939: 1-19.
41. Orlov, D.S., and Biryukova, O. 1996. Humic substances of vermicomposts. Agrokhimiya 12: 60-67.
42. Padem, H., Ocal, A., and Alan, R. 1991. Effect of humic acid added foliar fertilizer on quality and nutrient content of eggplant and pepper seedlings. Acta Horticulture 491(35): 241-246.
43. Parsa, M., and Bagheri, A. 2008. Pulses. Mashhad University. 522p. (In Persion).
44. Peiranosheh, H.Y., Emmam, V., and Jamali, R. 2010. Comparison of biological fertilizer and chemical fertilizer on growth and yield and oil percentage of sunflower (Helianthus annuss L.) in different levels of dry stress. Agroecology Journal 2(3): 491-501. (In Persian with English Summary).
45. Pinton, R., Cesco, S., Iacolettig, G., Astolfi, S., and Varanini, Z. 1999. Modulation NO3- Uptake by water extractable humic substances: involvement of root plasama membrane H+ ATPase. Plant and Soil 215: 155-161.
46. Rahimi, A., Alahmadi, M., Khavazei, K., Sayari, M., and Yazdani, R. 2013. Different effect of pseudomonas fluorescence on quantity and quality properties of Carthamus tinctorius. Journal of Plant Eco-physiology 5(14): 1-16. (In Persian with English Summary).
47. Rolfe, B.G., Djordjevic, M.A., Weinman, J.J., Mathesius, U., Pittock, C., Gartner, E., Ride, K.M., Schnepf, A., Jones, D., and Roose, T. 2011. Modelling nutrient uptake by individual hyphae of arbuscular mycorrhizal fungi: temporal and spatial scales for an experimental design. Bulltain Mathematical Biology 73: 2175-2200.
48. Sabzevari, S., and Khazaeii, H.R. 1999. Effect of foliar application with different levels of humic acid on growth properties, yield and yield components of wheat (Triticum aestivum. L.) Pishtaz variety. Journal of Agricultural Ecology 1(2): 53-63. (In Persian with English Summary).
49. Safapour, M. 2010. Effect of binary inoculation of mycorizea and rizobiom on three verities of kidney bean. Journal of New Findings in Agriculture 5(1): 20-35. (In Persian with English Summary).
50. Saleh Rastein, N. 2001. Biological fertilizers and their role in their direction to sustainable agriculture. Report Papers in Essential of Biological Fertilizer Production in Country. P.1-54. (In Persion).
51. Seran, T.H., Srikrishnah. S., and Ahamed, M.M.Z. (2010). Effect of different levels of inorganic fertilizers and compost as basal application on the Effgrowth and yield of onion (Allium cepa L.). Journal of Agricultural Science 5(2): 64-70.
52. Shariff, M. 2002. Effect of Lignitic Coal Derived HA on Growth and Yield of Wheat and Maize in Alkaline Soil. Ph.D Thesis, NWFP Agriculture Univiversity Peshawar, Pakistan.
53. Smith, S.E., and Read, D.J. 1997. Mycorrhizal Symbiosis. 2nd Edn. London: Academic.
54. Sprent, J.I., and Sprent, P.1990. Nitrogen Fixing Organisms: Pure and Applied Aspects. Chapman and Hall London, 256.
55. Swift, C.E. 2004. Mycorrhiza and Soil Phosphorus Levels. Area Extension Agent. http://www.colostate. edu/Depts/Coop Ext/TRA/Plants/ mycorrhiza.
56. Tan. K.H., and Tantiwiramanond, D. 1983. Effect of humic acids on nodulation and dry matter production of soybean, peanut, and clover. Soil Science Society American Journal 47: 1121-1124.
57. Tasang, A., and Maum, M.A. 1999. Mycorrhizal fungi increase salt tolerance of Strophostyles helvola in coastalforedunes. University of Waterloo, Canada. Plant Ecology 144: 159-166.
58. Taylor, G., and Cooper, L. 2004. Humic Acid: The Root to Healthy Plant Growth. California State. Science Fair.
59. Walkley, A.J,. and Black, I.A. 1934. Estimation of soil organic carbon by the chromic acid titration method. Soil Science 37: 29-38.
60. Wahyudi, A., Astuti, I., and Giyanto, R. 2011. Screening of Pseudomonas sp. isolatedfrom rhizosphere of soybean plant as plant growth promoter and bio-controlAgent". American Journal of Agricultural and Biological Sciences 6(1): 134-144.
61. Widada, J., Damarjaya, D.I., and Kabirun, S. 2007. The interactive effect of arbuscular mycorhizal fungi and rhizobacteria om growth and nutrient uptake sorghum in acid soil. First International Meeting on Microbial Phosphate Solubilization Development. Plant Soil 102: 173-177.
62. Zahir, A.Z., Arshad, M., and Frankenberger, W.F. 2004. Plant growth promoting rhizobacteria: application and perspectives in agriculture. Advancees in Agronomy 81: 97-168.
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