Baldan, E., Nigris, S., Romualdi, C., D’Alessandro, S., Clocchiatti, A., Zottini, M., ... & Baldan, B. (2015). Beneficial Bacteria Isolated from Grapevine Inner Tissues Shape Arabidopsis thaliana Roots. PloS one, 10(10), e0140252. link
Balestrini, R., Magurno, F., Walker, C., Lumini, E., & Bianciotto, V. (2010). Cohorts of arbuscular mycorrhizal fungi (AMF) in Vitis vinifera, a typical Mediterranean fruit crop. Environmental microbiology reports, 2(4), 594-604. link
Bruez, E., Haidar, R., Tidjani Alou, M., Vallance, J., Bertsch, C., Mazet, F., ... & Rey, P. (2015). Bacteria in a woody fungal disease: characterization of bacterial communities in wood tissues of esca-foliar symptomatic and asymptomatic grapevines. Frontiers in Microbiology, 6, 1137. link
Burns, K. N., Kluepfel, D. A., Strauss, S. L., Bokulich, N. A., Cantu, D., & Steenwerth, K. L. (2015). Vineyard soil bacterial diversity and composition revealed by 16S rRNA genes: differentiation by geographic features. Soil Biology and Biochemistry, 91, 232-247. link
Cetin, E. S., Guven, Z., & Ucar, M. (2014). The Roles of Arbuscular Mycorrhizal Fungi on Some Growth Parameters and Biochemical Compounds on Some Vitis Rootstock. Tarım Bilimleri Araştırma Dergisi 7 (1): 39-44 link
Cruz, A. F., Soares, W. R. O., & Blum, L. E. B. (2014). Impact of the Arbuscular Mycorrhizal Fungi and Bacteria on Biocontrol of White Root Rot in Fruit Seedlings. J Plant Physiol Pathol 2, 1, 2. link
Donkó, Á., Zanathy, G., Èros-Honti, Z., Villangó, S., & Bisztray, G. D. (2014). Changes of mycorrhizal colonization along moist gradient in a vineyard of Eger (Hungary). Acta Universitatis Sapientiae, Agriculture and Environment, 6(1), 13-23. link
Freitas, N. D. O., Yano-Melo, A. M., Silva, F. S. B. D., Melo, N. F. D., & Maia, L. C. (2011). Soil biochemistry and microbial activity in vineyards under conventional and organic management at Northeast Brazil. Scientia Agricola, 68(2), 223-229. link
Holland, T. C., Bowen, P., Bogdanoff, C., & Hart, M. (2014). Arbuscular Mycorrhizal Fungal Communities Associated with Vitis vinifera Vines under Different Frequencies of Irrigation. American Journal of Enology and Viticulture, ajev-2014. link
Holland, T. C., Bowen, P., Bogdanoff, C., & Hart, M. M. (2014). How distinct are arbuscular mycorrhizal fungal communities associating with grapevines?. Biology and fertility of soils, 50(4), 667-674. link
Karagiannidis, N., Nikolaou, N., Ipsilantis, I., & Zioziou, E. (2007). Effects of different N fertilizers on the activity of Glomus mosseae and on grapevine nutrition and berry composition. Mycorrhiza, 18(1), 43-50. link
Likar, M., Hančević, K., Radić, T., & Regvar, M. (2013). Distribution and diversity of arbuscular mycorrhizal fungi in grapevines from production vineyards along the eastern Adriatic coast. Mycorrhiza, 23(3), 209-219. link
Likar, M., Vogel-Mikuš, K., Potisek, M., Hančević, K., Radić, T., Nečemer, M., & Regvar, M. (2015). Importance of soil and vineyard management in the determination of grapevine mineral composition. Science of the Total Environment, 505, 724-731. link
Lòpez-Fernàndez, S., Compant, S., Vrhovsek, U., Bianchedi, P. L., Sessitsch, A., Pertot, I., & Campisano, A. (2015). Grapevine colonization by endophytic bacteria shifts secondary metabolism and suggests activation of defense pathways. Plant and Soil, 1-21. link
Nicolás, E., Maestre-Valero, J. F., Alarcón, J. J., Pedrero, F., Vicente-Sánchez, J., Bernabé, A., ... & Fernández, F. (2014). Effectiveness and persistence of arbuscular mycorrhizal fungi on the physiology, nutrient uptake and yield of Crimson seedless grapevine. The Journal of Agricultural Science, 1-13. link
Ocete, R., Armendáriz, I., Cantos, M., Álvarez, D., & Azcón, R. (2015). Ecological characterization of wild grapevine habitats focused on arbuscular mycorrhizal symbiosis. VITIS-Journal of Grapevine Research, 54, 207-211. link
Ozdemir, G., Akpinar, C., Sabir, A., Bilir, H., Tangolar, S., & Ortas, I. (2010). Effect of inoculation with mycorrhizal fungi on growth and nutrient uptake of grapevine genotypes (Vitis spp.). European Journal of Horticultural Science, 103-110. link
Piao, H., Hawley, E., Kopf, S., DeScenzo, R., Sealock, S., Henick-Kling, T., & Hess, M. (2015). Insights into the bacterial community and its temporal succession during the fermentation of wine grapes. Frontiers in microbiology, 6. link
Pinto, C., Pinho, D., Cardoso, R., Custódio, V., Fernandes, J., Sousa, S., ... & Gomes, A. C. (2015). Wine fermentation microbiome: a landscape from different Portuguese wine appellations. Frontiers in microbiology, 6. link
Rolli, E., Marasco, R., Vigani, G., Ettoumi, B., Mapelli, F., Deangelis, M. L., ... & Daffonchio, D. (2015). Improved plant resistance to drought is promoted by the root‐associated microbiome as a water stress‐dependent trait. Environmental microbiology, 17(2), 316-331. link
Schreiner, R. P. (2003). Mycorrhizal colonization of grapevine rootstocks under field conditions. American Journal of Enology and Viticulture, 54(3), 143-149. link
Schreiner, R. P. (2005). Spatial and temporal variation of roots, arbuscular mycorrhizal fungi, and plant and soil nutrients in a mature Pinot noir (Vitis vinifera L.) vineyard in Oregon, USA. Plant and soil, 276(1-2), 219-234. link
Schreiner, R. P. (2007). Effects of native and nonnative arbuscular mycorrhizal fungi on growth and nutrient uptake of ‘Pinot noir’(Vitis vinifera L.) in two soils with contrasting levels of phosphorus. applied soil ecology, 36(2), 205-215. link
Schreiner, R. P., & Pinkerton, J. N. (2008). Ring nematodes (Mesocriconema xenoplax) alter root colonization and function of arbuscular mycorrhizal fungi in grape roots in a low P soil. Soil Biology and Biochemistry, 40(7), 1870-1877. link
Schreiner, R. P., Tarara, J. M., & Smithyman, R. P. (2007). Deficit irrigation promotes arbuscular colonization of fine roots by mycorrhizal fungi in grapevines (Vitis vinifera L.) in an arid climate. Mycorrhiza, 17(7), 551-562. link
Soussi, A., Ferjani, R., Marasco, R., Guesmi, A., Cherif, H., Rolli, E., ... & Cherif, A. (2015). Plant-associated microbiomes in arid lands: diversity, ecology and biotechnological potential. Plant and Soil, 1-14. link
Torres, N., Goicoechea, N., & Antolín, M. C. (2015). Antioxidant properties of leaves from different accessions of grapevine (Vitis vinifera L.) cv. Tempranillo after applying biotic and/or environmental modulator factors. Industrial Crops and Products, 76, 77-85. link
Trouvelot, S., Bonneau, L., Redecker, D., van Tuinen, D., Adrian, M., & Wipf, D. (2015). Arbuscular mycorrhiza symbiosis in viticulture: a review. Agronomy for Sustainable Development, 35(4), 1449-1467. link
Zarraonaindia, I., Owens, S. M., Weisenhorn, P., West, K., Hampton-Marcell, J., Lax, S., ... & Gilbert, J. A. (2015). The Soil Microbiome Influences Grapevine-Associated Microbiota. MBio, 6(2), e02527-14. link