84: 489-500
Gurmani Z. A. Zahid M. S and Bashir M. (2006), Performance of vetch Vicia Sativa cultivars for fodder production under rainfed conditions of Pothwar region. Journal Agriculture Research, 44(4): 291-297.
Ibrahim K. M. Ghrir A. M. and Khoury H. N. (2001), Influence of Jordanian chabazite – philipsite tuffon nutrient concentration and yield of strawberry. Department of geology, University of Jordan, Amman, Jordan.
Jeffries P. Gianinazzi S. Perotto S. Turnau K. and Barea, J.M. (2003), The contribution of arbuscular mycorrhizal fungi in sustainable maintenance of plant health and soil fertility, Biol. Fert. Soils,37: 1-16.
Joner E. J. van Aarle I. M. and Vosatka M. (2000), “Phosphatase activity of extra-radical arbuscular mycorrhizal hyphae” Plant Soil., 226, pp 199.
Graham J. H. Leonard R. T. and Menge J. A. (1981), Membrance- mediated decreasse in root exudation responsible for phosphorus inhibition of Vesicular-arbuscular mycorrhizae formation. Plant Physiol. G8:548-552.
Hanson w.c. (1950), J. Sci. Food Agric.: I, 172-173.
Harb E. M. Z. and Mahmoud M. A. (2009), Enhancing of growth, essential oil yield and agriculture. Journal of Fruit and Ornamental Plant Research, 12: 183 -189.
Harsh, P. B., Tiffany L. Weir, Laura G. Perry, Simon Gilroy, and Jorge M. Viranco. (2006), The role of root exudates in rhizosphere interactions with plants and other organisms. Plant. Biol. 53:233-266.
Hasanpour J. Panahi M. Sadeghi Pour Marvi M. Arabsalmani K. (2012), Effect of inoculation with VA mycorrhiza and azotobacter on grain yield, LAI and protein of wheat on drought stress condition . International Journal of AgriScience. 2(6): 466-476.
Hassan zadeh E. Mazaheri D. Chaichi M. R. and Khavazi K. (2008). Efficiency of phosphorus solubilizing bacteria and phosphorus chemical fertilizer on yield and yield components of barley cultivar (Karoon Dar Kavir). Pajouhesh & Sazandegi 77: 111-118. (In Persian).
Hayman D. S. (1975).The occurrence of mycorrhiza in crops as affected by soil fertility, In :Endomycorrhizas. F.E Sanders, B Mosse and P.B. Tinkey (eds). Academic Press. London. pp. 495-509.
Hayman, D.S. (1983). “The physiology of vesicular arbuscular endomycorrhizal symbiosis”. Canadian. J. Botany. 61: 944-963.
Hixon M. M., Bauer M. E. and Scholz D.K., (2003), An assessment of land sat data acquisition history on identification and area estimation of corn and soyabean. Biol. 68.
Huang Z. T and Petrovic A. M. (1995), Physical properties of sand a affected by clinoptilolite zeolite particle size and quantity. J. Turfgrass management.1 (1):1-15.
Jackson C. R. (1984), Phosphorus nutrition on mycorrhizal colonization, photosynthesis, growth and nutrient composition of Citrus aurantium. Plant and Soil. 80:35-42.
Khan M. S. and Zaidi A. (2007), Synergistic effects of the inoculation with plant growth promoting rhizobacteria and an arbuscular mycorrhizal fungus on the performance of wheat. Turk J. Agric. For., 31, pp 355.
Kapoor R. Giri B. and Mukerji K. G. (2004), Improved growth and essential oil yield and quality in Foeniculum vulgar Mill. on mycorrhizal inoculation supplement with P fertilizer. Bioresource Technol., 93, pp 307.
Kathleen K. T. and A. Cross. (2006), Global distributions of arbuscular mycorrhizal fungi. Ecosystems. 9: 305- 316.
Kemper W. D. and Roseman R. C. (1986), Aggregate stability and size distribution. In: Methods of Soil Analysis, Part I, Physiological and Mineral Methods. Agronomy Monograph No. 9, 2nd ed, American Society of Agronomy. Madison. WI. USA. pp. 425-444.
Kiston R. S .and Mellon M. G. (1944). Ind. Eng. Chem. Anal. Ed.16, 379-381.
Kochaki A. Jahan M. and Nassiri Mahallti M. (2008), Effects of arbuscular mycorrhizal fungi and free-living nitrogen-fixing bacteria on growth characteristic of corn (Zea mays L.) under organic and conventional cropping systems” 2nd conference of the international society of organic agriculture research (ISOFAR). Modona. Italia.
Koide R. T. and Kabir Z. (2000), Extraradical hyphae of the mycorrhizal fungus Glomus intraradices can hydrolyse organic phosphate” New Phytol., 148, pp 511.
Kung’u B. D. L. Rodel U. D. Lorettu E. D. Reynaldo and Husain T. (2008), Effect of vesicular arbuscular mycorrhizal (VAM) fungi inoculation on coppicing ability and drought resistance of Senna spectabilis. Pak. J. Bot, 40(5): 2217-2224.
Laheurte F. Leyval I. and Berthelin J. (1990), Root exudates of maize, pine and beech seedlings influenced by mycorrhizal and bacterial inoculation” Symbiosis., 9, pp 111.
Lekberg Y. and Koide R. T. (2005), Is plant performance limited by abundance of arbuscular mycorrhizal fungi? A meta-analysis of studies published between 1988 and 2003. New Phytol. 168: 189–204.
Lopes A. S. (2003), Soils under Cerrado: A success story in soil management In: IFA278 references (Eds.) IFAPPI Regional Conference for Latin America and the Caribbean. International Fertilizer Industry Association, Paris, pp.1-10.
Marschner H, (1995), Mineral nutrition of higher plants. Second Edition. Academic Press. New York.
Mazur G. A. Medvid G. K, and Gvigora I. T. (1986), Use of natural zeolites to increase the fertilizer of coarse soil. Soviet Soil Science, 16, 105_111.
McGonigle T. P. (1988), A numerical analysis of published field trials with vesicular-arbuscular mycorrhizal fungi. Func. Ecol. 2: 473–478.
Mehrvarz S. and Chaichi MR. (2008), Effect of phosphate solubilizing microorganisms and phosphorus chemical fertilizer on forage and grain quality of barely (Hordeum vulgare L.). American-Eurasian J Agric & Environ Sci, 3(6): 855-860.
Mehrvarz S. M. R.Chaichi and Alikhani H. A. (2008), Effects of phosphate solubilizing microorganisms and phosphorus chemical fertilizer on yield and yield component of Barley (Hordeum vulgar). American-Eurasian J. Agric & Environ, 3(6): 822-828.
Milla´n G. Agosto F. Va´zquez M. Botto, L. Lombardi L. and Juan L. (2008). Use of clinoptilolite as a carrier for nitrogen fertilizers in soils of the Pampean regions of Argentina. Ciencia e Investigacio´n Agraria, 35, 245-254.
Miller P. and Fick G. (1978), Influence of plant population on performance of corn hybrids. plant science, 58:599–600.
Mishra R. R. (2007), Soil microbiology. Translated by: Fallah A. Besharati H. and Khosravi H. Aeeizh publisher. pp: 179. (in Persian).
Mobasser H. R. Moradgholi A. Mehraban A. Koohkan S. (2012), Investigation of mycorrhizal effect on agronomic traits and protein percent of corn varieties in Sistan. International Journal of AgriScience . 2(2): 108-119.
Mumpton F. A. (1999), La roca majica: Uses of natural zeolites in agriculture and industry. Proceedings of the National Academy of Sciences of the United States, 96, 3463_3470.
Muckle G. E. (2003), Ph. D. thesis, “The functioning of arbuscular mycorrhizal fungi in land under different agricultural management intensities, Department of Animal and Plant Sciences, Sheffield University.
Nagarathna T. k. Prasad T. G. Bagyaraj D. J. and Shadakshar Y. G. I. (2007), Effects of arbuscular mycorrhiza and phosphorus levels on growth and water use efficienecy in Sunflower at different soil moisture stress. Journal of agricultureal technology, 3(2): 221-229.
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. USDA Circular, U. S. Government Printing Office, Washington D. C. 939.
Ortus I. and Harris P. J. (1996), Enhancement uptake of phosphorus by mycorrhizal sorghum plant as influenced by forms of nitrogen. Plant and Soil. 184: 225-264.
Ortas I. (2010), Effect of mycorrhiza application on plant growth and nutrient uptake in cucumber production under field conditions. Spanish Journal of Agricultural Research 8, S116–S122.
Pacovsky R. S. Benthlenfalvay G.J. and Paul E. A. (1986), Comparisons between P-fertilizer and mycorrhizal plants.Crop Sci. 26:151-156.
Panwar j. D. (1993), Effect of VAM and azspirillum inoculation on metabolic chande and grain yield of wheat under moisture stress condition . Indian journal of physiology. 35, 157- 161.
Perez R. Caballero J. Gil C. Benitez J. and Gonazalez L. (2008), The effect of adding zeolite to soils in order to improve the N-K nutrition of olive trees: Preliminary results. Am. J. Agricultural and Biological Sci., 2(1), 321-324.
Peterso R. L. and Massicotte H. B. (2004), Exploring structural definitions of mycorrhizas, with emphasis on nutrient-exchange interfaces. Can. J. Bot., 82, pp 1074.
Phillips J. M. and Hayman D. S. (1970), Improved procedures for clearing roots and staining parasitic and vesicular arbuscular mycorrhizal fungi for rapid assessment of infection. T. Brit. Mycol. Soc., 55, pp 158.
Piotrowski J. S. Denich T. Klironomos J. N. Graham J. M. and Rilling M. C. (2004), The effects of arbuscular mycorrhizas on soil aggregation depend on the intraction between plant and fungal species. New phytol. 164: 365-373.
Polat E. M. Karaca H. Demir and Naci Onus A. (2004). Use of natural zeolita (clinoptilolite) in agriculture. Journal of Fruit Ornam. Plant Research. Special ed. 12 :183-189.
Poehlman, J. M. (1995), Breeding Field Crops. Henry Holt Company, Inc. New York, 427p.
Raja P. (2006), Status of endomycorrjizal (AMF) biofertilizer in global market. In: Handbook of microbial biofertilizers. Mahendra Rai. (Ed.). Haworh Press. New York. pp. 283-303.
Rashid M. A. Ranjha M and Rehim A. (2007), Model based fertilization to improve yield and quality of sorghum (sorghum bicolor l) fodder on usthochrept soil. Pak. J. Agri. Sci, 44(2),221-227.
Richardson A. E. George T. S. Jakobsen I. and Simpson R. J. (2007). Plant utilization of inositol phosphates. pp 242–260, In: “Inositol phosphates: linking agriculture and the environment”, Turner B. L., Richardson A. E. and Mullaney E. J., CABI, Wall- ingford, UK.
Rigou I. and Mignard E. (1994), Factors ofacidification of the rhizospher of mycorrhizal plants. Measurement of pCO2 in the rhizosphere. Acta Bot. Gall. 141: 533-539.
Salih F. A. Ali A. M. and Elmobarak A. A. (1986), Effect of phosphorus application and time of harvest on seed yield and quality of faba bean. FABIS Newsletter. 15: 32- 35.
Sample E. C. Soper R. J. and Recz G. J. (1980), Reactions of phosphate fertilizers in soils. In: Khasawneh F.E., E. C. Sample and E. J. Kamprath. (Eds.), The role of phosphorus in agriculture.(pp. 263-310). Am. Soc. Agron. Madison.WI.
Sannazzaro A. I. Ruiz O. A. Alberto E. O. and Menendez A. B. (2006), Alleviation of salt stress in Lotus glaber by Glomus intradices. Plant Soil., 285, pp 279.
