The Effect of Arbuscular Mycorrhizal Fungi on Nutrient Concentrations in Ohadi (Fandoghi) and Kalleghouchi Pistachio Seedlings in Kerman Region
Subject Areas : Agriculture Marketing and Commercialization
1 - Department of Agriculture, Rafsanjan Branch, Islamic Azad University, Rafsanjan, Iran
Keywords:
Abstract :
Iraqi M. & Rahnama K. & Latifi N. (2011), The growth-increasing effect of Trichoderma harziamum in tomatoes, Journal of Plant Production Research 18(2): 107-118.
- Karami A. (2017), Effects of mycorrhizal fungus, Glomus intraradices, and nutrients on orange seedlings and parthenogenesis, Scientific Journal of Plant Ecophysiology, 9(3): 28-41.
- Jalali Z. & Shoor M. Nemati H. (2011), Effects of Trichoderma fungus and different levels of iron on morphological and biochemical traits of spiderwort, Nation Institute of Ornamental Flowers and Plants, Karaj, Iran, 16(2): 1-4.
- Anith K. & Faseela P. & Archana K. & Prathapan D. (2011), Compatibility of piriformospora indica and Trichoderma harzianum as dual inoculants in black pepper (piper nigrum L) Symbiosid 17
- Abdllatif L. & Bouzid S. & Kaminskyj S. & Vujanovic V. (2009), Endophytic hyphal compartmentalization is required for successful symbiotic Ascomycota association with root cells Mycol Res, 11(3): 782-791.
- Mousavi S. & Sharif Nabi A. & S. & Alavi M. & Tajik Ghanbari A. (2012), Investigation of symbiosis possibility and evaluation of the effect of the endomychrhiza fungus Pirtformospora 7 Agricultural Marketing and Commercialization Journal ISSN Print: 2676640X, ISSN online: 2676-7570 on orange seedlings and parthenogenesis, Scientific Journal of Plant Ecophysiology,
Jalali Z. & Shoor M. Nemati H. (2011), Effects of Trichoderma fungus and different levels of iron on morphological and biochemical traits of spiderwort, National Institute of Ornamental Flowers and Plants,
Anith K. & Faseela P. & Archana K. & Prathapan D. (2011), Compatibility of piriformospora indica and Trichoderma harzianum as dual inoculants in black pepper (piper nigrum L) Symbiosid, 5(5):11
- Abdllatif L. & Bouzid S. & Kaminskyj S. & Vujanovic V. (2009), Endophytic hyphal compartmentalization is required for successful symbiotic Ascomycota association with root cells Mycol Res, 11(3):
Mousavi S. & Sharif Nabi A. & Babaeizad S. & Alavi M. & Tajik Ghanbari A. (2012), Investigation of symbiosis possibility and evaluation of the effect of the Pirtformospora indica in rice, Journal of Plant Diseases, 48(3): 441-442.
- Bagde U. & Prasad R. & Varma A. (2 lnteraction of mycobiont: Piriformospora indica with medicinal plants and plants of economic importance Afr I Biotechnol, 9(6): 9214-9226.
- Agha Babaei F. & Raisi H. & Nadian M. (2011), The effect of mycorrhizal symbiosis on nutrient uptake by some co almond plant genotypes in sandy loam soil, Journal of Soil Research, (Soil and Water Sciences) 25(2): 137-147.
- Nasiri V. (2007), Applied statistics (non parametric approach), Iran Industrial Research and Training Center Publications, 7(5): 24-39.
- Yaqubian Y. & Pirdashti A. & Mohammadi Goltappeh V. & Faizi A. & Esfandyari A. (2012), Evaluation of response of rainfed wheat Tritcum aestivum cv. Azar 2 to symbiosis with arbuscular and mycorrhiza like fungi at different levels of drought stress. Journal of Agricultural Ecology, 4(1): 63-73
