Page 73 - ACCB 2020
P. 73

Arbuscular Mycorrhizae Fungi: A Tool For Sustainable Agriculture. Varaprasad Kolla  et al




                   45.  Chaudhry, T.M., Hayes, W.J., Khan, A.G., Khoo, C.S. (1998). Phytoremidiation- fousing on accumu-
                       lator plants that remediate metal ontaminated soils. Aust J Ecotoxicol, 4, 37-51.
                   46.  Shetty, K.G., Banks, M.K., Hetrick, B.A., Schwab, A.P. (1995). Effects of myorrhizae and fertilizer
                       amendments on zinc tolerance of plants. Environ Poll, 88, 307-314.
                   47.  Bhattacharjya, S., Bhaduri, D., Sahu, A. (2018). Arbuscualr Mycorrhizal Fungi: A potential tool for
                       enhancing crop productivity in salt affected soil. Inter J Agric Environ Biotechnol, 11, 871-880.
                   48.  Saia, S., Aissa, E., Luziatelli, F., Ruzzi, M., Colla, G., Ficca, A.G. et al (2019). Growth-promoting
                       bacteria and arbuscular mycorrhizal fungi differentially benefi t tomato and corn depending upon the
                       supplied form of phosphorus. Mycorrhiza,30, 133-147.
                   49.  Chiariello, N., Hickman, C., Mooney, M.A. (1982). Endomycorrhizal role for interspecifi c transfer of
                       phosphorous in a community of annual plants. Science. 217, 941-943.
                   50.  Tian, C.Y., Feng, G., Li, X.L., Zhang, F.S. (2004). Different effects of arbuscular mycorrhizal fungal
                       isolates from saline or non-saline soil on salinity tolerance of plants. Applied Soil Ecol,26, 143-148.
                   51.  Sharifi , M., Ghorbanli, M., Ebrahimzadeh, H. (2007). Improved growth of salinity-stressed soybean
                       after inoculation with salt pre-treated mycorrhizal fungi. J Plant Physiol, 164, 1144-1151.
                   52.  Al-Khaliel, A.S. (2010). Effect of salinity stress on mycorrhizal association and growth response of
                       peanut infected by Glomus mosseae. Plant Soil Environ,56 , 318-324.
                   53.  Garg, N. and Manchanda, G. (2008). Effect of arbuscular mycorrhizal inoculation of salt-induced no-
                       dule senescence in Cajanus cajan (pigeonpea). J Plant Growth Regul, 27, 115-124.
                   54.  Giri, B. and Mukerji, K.G. (2004). Mycorrhizal inoculant alleviates salt stress in Sesbania aegyptiaca
                       and Sesbania grandifl ora under fi eld conditions: evidence for reduced sodium and improved magne-
                       sium uptake. Mycorrhiza,. 14, 307-312.
                   55.  Mitra, D., Navendra, U., Panneerselvam, U., Ansuman, S., Ganeshamurthy, A. N., Divya, J. (2019).
                       Role of mycorrhiza and its associated bacteria on plant growth promotion and nutrient management in
                       sustainable agriculture. Int J Life Sci Appl Sci, 1, 1–10.
                   56.  Liu, C., Ravnskov, S., Liu, F., Rubæk, G. H., Andersen, M. N. (2018). Arbuscular mycorrhizal fungi
                       alleviate abiotic stresses in potato plants caused by low phosphorus and defi cit irrigation/partial root-
                       zone drying. J Agric Sci, 156, 46–58.
                   57.  Gutjahr, C. and Paszkowski, U. (2013). Multiple control level of root system remodelling in arbuscular
                       mycorrhizal symbiosis. Front Plant Sci, 4, 204.
                   58.  Atkinson, D., Berta, G., Hooker, J.E. (1994). Impact of mycorrhizal colonization on root architecture,
                       root longevity and the formation of growth regulators. In: Gianinazzi S, Schuepp H, eds. Sustainable
                       agriculture and natural ecosystems. Basel, Switzerland: Birkauser Verlag. 89-99.
                   59.  Elsen, A.,  Baimey,  H.,  Swennen,  R.,  Waele,  D.De.  (2003).  Relative  mycorrhizal  dependency  and
                       mycorrhiza-nematode interaction in banana cultivars (Musa spp) differing in nematode susceptibility.
                       Plant Soil, 256, 303-313.
                   60.  Ingraffi a, R., Amato, G., Frenda, A.S., Giambalvo, D. (2019). Impacts of arbuscular mycorrhizal fungi
                       on nutrient uptake, N  fi xation, N transfer, and growth in a wheat/faba bean intercropping system.
                                         2
                       PLOS ONE,  14, 1-16.
                   61.  Gibson, A.H. (1976). Limitation to dinitrogen fi xation by legumes. Proc First Inter Symp. Washington
                       State Univ Press Pullman. pp 400-428.
                   62.  Suresh, C.K. and Bagyaraj, D.J. (2002). Arbuscular Mycorrhizae: Interactions in Plants, Rhizosphere
                       and Soils. Oxford and IBH, New Delhi. 7-28.
                   63.  Reverkar, K., Singh, A.B., Ganguli, T.K. (2005). Mycorrhiza: Role and Applications, Allied Publishers
                       Pvt Ltd, New Delhi.
                   64.  Azcon- Aguilar, C. and Barea, J.M. (1992).  Interactions between mycorrhizal fungi and other rhi-
                       zosphere microorganisms. In: Allen MJ (eds). Mycorrhizal functioning, An Integrative Plant-Fungal
                       process. Champan and Hall NY. 163-198.
                   65.  Soumare, A., Diop, T., Manga, A., Ndoye, I. (2015). Role of arbuscular mycorrhiza fungi and nitrogen
                       fi xing bacteria on legume growth under various environmental stresses. Int J Biosci,7, 31-46.
                   66.  Hindumathi, A. and Reddy, B.N. (2012). Synergistic effect of arbuscular mycorrhizal fungi and Rhi-
                       zobium on the growth and charcoal rot of Soybean (Glycine max(L.) Merrill) World J Sci Technol, 2,
                       63-70.
                   67.  Gao, X., Lu, X., Wu, M., Zhang, H., Pan, R., Tian, J. et al (2012).  Co-Inoculation with Rhizobia and

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            Rev. Asoc. Col. Cienc.(Col.), 2020; 32: 63-76.
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