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Ádám Donkó, Gábor Zanathy, Zsolt Èros-Honti, Szabolcs Villangó and György Dénes Bisztray

References [1] Auge, R. M. (2001), Water relations. drought and vesicular-arbusciilar mycorrhizal symbiosis, Mycorrhiza 11,3-42. [2] Aguin. O., Mansilla. P., Vilarino, A., Sainz, M. (2004), Effects of mycorrhizal inoculation on root morphology and nursery production of three grapevine rootstocks. American Journal of Enology and Viticulture 55(1), 108-111. [3] Baumgartner. K. (2003), Why and how. Encouraging beneficial AM fungi in vineyard soil, Practical Winery and Vineyard 14, 57-60. [4

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Anna Ząbkiewicz, Magdalena Myga-Nowak, Katarzyna Bandurska, Justyna Paczyńska, Anna Szybecka and Piotr Krupa

References [1] Aspray T.J., Jones E.E., Whipps J.M. & Bending G.D. (2006). Importance of mycorrhization helper bacteria cell density and metabolite localization for the Pinus sylvestris-Lactarius rufus symbiosis, FEMS Microbiology Ecology, 56, 25-33. [2] Aspray T.J., Frey-Klett P., Jones E.E., Whipps J.M., Garbaye J. & Bending G.D. (2006). Mycorrhization helper bacteria: a case of specificity for altering ectomycorrhiza architecture but not ectomycorrhiza formation, Mycorrhiza 16, 533-541. [3] Badura L. (2006). Rozważania nad rolą mikroorganizmów w

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Saleh Shahabivand, Ali Asghar Aliloo and Hassan Zare Maivan

., 2005: Accumulation of reactive oxygen species in arbuscular mycorrhizal roots. - Mycorrhiza, 15: 373-379. Gill S.S., Tuteja N., 2010: Reactive oxygen species and antioxidant machinery in abiotic stress tolerance in crop plants. - Plant physiology and biochemistry, 48: 909-930. Han R.M., Lefèvre I., Albacete A., Pérez-Alfocea F., Barba-Espín G., Díaz-Vivancos P., Lutts S., 2013: Antioxidant enzyme activities and hormonal status in response to Cd stress in the wetland halophyte Kosteletzkya virginica under saline conditions

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Samuel Adamec and Alena Andrejiová

References AL-KARAKI, G. 2013. The role of mycorrhiza in the reclamation of degraded lands in arid environments. In Developments in Soil Classification, Land Use Planning and Policy Implications. vol. 48, 2013, pp. 823–836. ISBN 978-94-007-5331-0. [online], cit. [2018-09-10]. doi: 10.1007/978-94-007-5332-7_48 BAUM, C. – EL-TOHAMY, W. – GRUDA, N. 2015. Increasing the productivity and product quality of vegetable crops using arbuscular mycorrhizal fungi: A review. In Scientia Horticulturae. vol. 187, 2015, pp. 131–141. [online], cit. [2018-09-10]. doi

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Perumalsamy Priyadharsini, Radha Pandey and Thangavelu Muthukumar

References Abbott, L. K., Gazey, C., 1994: An ecological view of the formation of VA mycorrhizas. Plant and Soil 159, 69-78. Addy, H. D., Piercey, M. M., Currah, R. S., 2005: Macrofungal endophytes in roots. Canadian Journal of Botany 83, 1-13. Aliasgharzad, N., Bolandnazar, S. A., Neyshabouri, M. R., Chaparzadeh, N., 2009: Impact of soil sterilization and irrigation intervals on P and K acquisition by mycorrhizal onion ( Allium cepa ). Biologia 64, 512

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Grażyna Dąbrowska, Katarzyna Hrynkiewicz and Alina Trejgell

proliferation of fungal hyphae in soils supporting mycorrhizal and non-mycorrhizal plants. Mycorrhiza 6: 477-480. KHAN IA, AHMAD S, and AYUB N. 2003. Yield and nutrients uptake of Avena sativa as influenced by vesicular arbuscular mycorrhizal (VAM). Asian Journal of Plant Sciences 2 (4): 347-376. KOSZUCKA AM, and DĄBROWSKA G. 2006. Plant metallothioneins. Advances in Cell Biology 33 (2): 285-302. [In Polish]. MA M, LAU P-S, JIA Y-T, TSANG W-K, LAM SKS, TAM NFY, and WONG Y-S. 2003. The isolation and characterization of

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Thangavelu Muthukumar and Ramalingam Sathya

References Akond M. A., Mubassara S., Rahman M. M., Alam S. & Khan Z. U. M. 2008. Status of vesicular arbuscular (VA) mycorrhizae in vegetable crop plants of Bangladesh. World Journal of Agricultural Sciences 4: 704-708. Anonymous 2013. The Plant List. Version 1.1. [10 January 2017]. http://www.theplantlist.org. Barrow J. R. 2003. A typical morphology of dark septate fungal root endophytes of Bouteloua in arid south western USA range lands. Mycorrhiza 13: 239-247. Bentivenga S. P. & Morton J. B

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Thangavelu Muthukumar and Kandasamy Prabha

fern prothallia. The American Naturalist 42, 154-165. Cooper, K. M., 1976: A field survey of mycorrhizas in New Zealand ferns. New Zealand Journal of Botany 14, 169-181. Dickson, S., Smith, F. A., Smith, S. E, 2007: Structural differences in arbuscular mycorrhizal symbiosis. More than 100 years after Gallaud, where next? Mycorrhiza 17, 375-393. Haselwandter, K., Read, D. J., 1982: The significance of a root-fungus association in two Carex species of high-alpine plant communities. Oecologia

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Agnieszka Jamiołkowska, Andrzej Księżniak, Anna Gałązka, Beata Hetman, Marek Kopacki and Barbara Skwaryło-Bednarz

REFERENCES Abiala M.A., Popoola O.O., Olawuyi O.J., Oyelude O.J., Akanmu A.O., Killani A.S., Osonubi O., and Odebode A.C., 2013. Harnessing the potentials of Vesicular Arbuscular Mycorrhizal (VAM) fungi to plant growth – A review. Int. J. Pure Appl. Sci. Technol., 14(2), 61-79. Addy H.D., Schaffer G.F., Miller M.H., and Peterson R.L., 1994. Survival of the external mycelium of a VAM fungus in frozen soil over winter. Mycorrhiza, 5, 1-5. Al-Karaki G., McMichael B., and Zak J., 2004. Field response of wheat to arbuscular mycorrhizal fungi and

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Edyta Derkowska, Lidia Sas Paszt, Beata Sumorok and Barbara Dyki

References Azcón-Aquilar C., Barea J.M., 1992. Interactions between mycorrhizal fungi and other rhizosphere microorganisms. In: Mycorrhizal functioning an integrative plant-fungal process. M.J. Allen (ed.), New York, Chapman & Hall: 63-198. Cox G., Tinker B.B., 1976. Translocation and transfer of nutrients in vesicular-arbuscular mycorrhizas I. The arbuscule and phosphorus transfer: quantitative ultrastructural study. New Phytol. 77: 371-378. Esperschütz J., Gatt inger A., Mäder P., Schloter M