A szőlőre endomikorrhiza kapcsolat jellemző. A gyökérkapcsoltság kialakulását, illetve a gyökerek kolonizációjának a mértékét elsősorban az ültetvény talajtani és szőlészeti sajátosságai befolyásolják. Fontos, hogy a szakemberek felismerjék a mikorrhiza-kapcsolat jelentőségét, s olyan termesztési gyakorlatot folytassanak, ami elősegíti e hasznos szervezetek zavartalan tevékenységét. Az alkalmazott agrotechnikai eljárások (a tápanyagok, elsősorban a foszfor utánpótlása, a talajművelés és az öntözés) kisebb-nagyobb mértékben befolyásolhatják a spórák számát, a gyökerek kolonizációját és az arbuszkulumok gyakoriságát. A mikorrhiza kapcsolat tudatos hasznosítása kiemelt jelentőségű az oltványiskolai gyakorlatban, a fi atal telepítések indításakor, a környezetkímélő szőlőtermesztésben, illetve azokban az ültetvényekben, ahol nem áll rendelkezésre elegendő víz, illetve tápanyag. (…)
Irodalomjegyzék:
1. ABBOTT, L.K., ROBSON, A.D. (1985): Formation of external hyphae in soil by four species of vesicular-arbuscular mycorrhizal fungi. New Phytol., 99. (2.): 245–255.
2. AGUÍN, O., MANSILLA, P., VILARIÑO, A., SAINZ, M. (2004): Effects of Mycorrhizal Inoculation on Root Morphology and Nursery Production of Three Grapevine Rootstocks. Am. J. Enol. Vitic. 55. (1.): 108–111.
3. AUGÉ, R.M. (2001): Water relations, drought and vesicular-arbuscular mycorrhizal symbiosis. Mycorrhiza 11. (1.): 3–42.
4. AZCÓN-AQUILAR, C., BAREA, J. M. (1996): Arbuscular mycorrhizas and biological control of soil borne plant pathogens – an overview of the mechanisms involved. Mycorrhiza, 6. (6.): 457–464.
5. BAUMGARTNER, K., SMITH, R.F., BETTIGA, L. (2005): Weed control and cover crop management affect mycorrhizal colonization of grapevine roots and arbuscular mycorrhizal fungal spore populations in a California vineyard. Mycorrhiza. 15. (2.): 111–119.
6. BAUMGARTNER, K. (2003): Why and How. Encouraging benefi cial AM fungi in vineyard soil. Practical Winery and Vineyard 14. (1-2.): 57–60.
7. BAVARESCO, L.; FOGHER, C. (1992): Effect of root infection with Pseudomonas fl uorescens and Glomus mosseae in improving Fe-effi ciency of grapevine ungrafted rootstocks. Vitis. 31. (3.): 163–168.
8. BAVARESCO, L., CANTU, E., TREVISAN, M. (2000): Chlorosis occurrence, natural arbuscular-mycorrhizal infection and stilbene root concentration of ungrafted grapevine rootstocks growing on calcareous soil. J. Plant Nutr. 23. (11.): 1685–1997.
9. BAVARESCO, L., FOGHER, C. (1996): Lime-induced chlorosis of grapevine as affected by rootstock and root infection with arbuscular mycorrhiza and Pseudomonas fl uorescens. Vitis, 35. (3.): 119–123.
10. BETHLENFALVAY, G.J., FRANSON, R.L. (1989): Manganese toxicity alleviated by mycorrhizae in soybean. J. Plant Nutr. 12. (8.): 953–970.
11. BHARDWAJ, S., DUDEJA, S.S., KHURANA, A.L. (1997): Distribution of vesicular-arbuscular mycorrhizal fungi in natural ecosystems. Folia Microbiol. 42. (6.): 589–594.
12. BIRICOLTI, S., FERRINI, F., RINALDELLI, E., TAMANTINI, I., VIGNOZZI, N. (1997): VAM fungi and soil lime content infl uence rootstock growth and nutrient content. Am. J. Enol. Vitic., 48. (1.): 93–99.
13. BLEACH, C.M., COPE, R.J., JONES, E.E., RIDGWAY, H.J., JASPERS, M.V. (2008): Impact of mycorrhizal colonisation on grapevine establishment in Cylindrocarpon infested soil. New Zealand Plant Protection 61. 311–316.
14. CALVET, C., PINOCHET, J., HERNÁNDEZ-DORREGO, A., ESTAÚN, V., CAMPRUBÍ A. (2001): Field microplot performance of the peachalmond hybrid GF677 after inoculation with arbuscular mycorrhizal fungi in a replant soil infested with root-knot nematodes. Mycorrhiza, 10.
(6.): 285–300.
15. CARRETERO, C.L., CANTOS, M., TRONCOSO DE ARCE, A. (1999): Efecto de la micorriza vesículo arbuscular en la aclimatación de patrones de vid micropropagados. Vitic. Enol. Profesional. 60. 28–36.
16. CHENG, X., BAUMGARTNER, K. (2004): Survey of arbuscular mycorrhizal fungal communities in Northern California vineyards and mycorrhizal colonization potential of grapevine nursery stock. HortScience. 39. (7.): 1702–1706.
17. CHENG, X., BAUMGARTNER, K. (2006): Effects of mycorrhizal roots and extraradical hyphae on 15N uptake from vineyard cover crop litter and the soil microbial community. Soil Biology and Biochemistry Soil Biology & Biochemistry 38. (9): 2665–2675.
18. CHENG, X., BAUMGARTNER, K. (2005): Overlap of grapevine and cover crop roots enhances interactions among grapevines, cover crops, and arbuscular mycorrhizal fungi. In: Christensen, P., Smart, D. (Eds.), Proceedings of the Soil Environment and Vine Mineral Symposium,29–30 June 2004, San Diego, CA. American Society of Enology and Viticulture, Davis, CA, USA, 171–174.
19. CHENG, X., EULISS, A., BAUMGARTNER, K. (2008): Nitrogen capture by grapevine roots and arbuscular mycorrhizal fungi from legume
cover-crop residues under low rates of mineral fertilization. Biol. Fertil. Soils. 44. (7.): 965–973.
20. CLARK, R.B., ZETO, S.K. (2000): Mineral acquisition by arbuscular mycorrhizal plants. J. Plant Nutr. 23. (7): 867–902.
21. DEAL, D.R., BOOTHROYD, C.W., MAI, W.F. (1972): Replanting of vineyards and its relationship to vesiculararbuscular mycorrhiza. Phytopathol. 62. (1.): 172–175.
22. DOUDS, D. D., SCHENCK, N. C. (1990): Increased sporulation of vesicular arbuscular mycorrhizal fungi by manipulation of nutrient regiments. Appl. Environ. Microbiol. 56. (2.): 413–418.
23. DOUDS, D.D., GALVEZ, L., FRANKE-SNYDER, M., REIDER, C., DRINKWATER, L.E. (1997): Effect of compost addition and crop rotation point upon VAM fungi. Agric. Ecosyst. Environ. 65. (3): 257–266.
24. EISSENSTAT, D.M. (1992): Costs and benefi ts of constructing roots of small diameter. J. Plant Nutrition 15. (6-7.): 763–782.
25. FRANCIS, R., READ, D.J., 1984. Direct transfer of carbon between plants connected by vesicular arbuscular mycorrhizal mycelium. Nature 307: 53–56.
26. GALVEZ, L., DOUDS JR, D.D., WAGONER, P., LONGNECKER, L.R., DRINKWATER, L.E., JANKE, R.R. (1995): An overwintering cover crop increases inoculum of VAM fungi in agricultural soil. American Journal of Alternative Agriculture, 10. (4.): 152–156.
27. GEBBING, H., SCHWAB, A., ALLEWELDT, G. (1977): Mikorrhiza der Rebe. Vitis, 16: 279–285.
28. GRAHAM, J.H., (2001): What do pathogens see in mycorrhizas? New Phytol. 149. (3.): 357–359.
29. HODGE, A., CAMPBELL, C.D., FITTER, A.H., (2001): An arbuscular mycorrhizal fungus accelerates decomposition and acquires nitrogen
directly from organic material. Nature 413: 297–299.
30. Kabir, Z., O’HALLORAN, I.P., FYLES, J.W., HAMEL, C. (1997): Seasonal changes of arbuscular mycorrhizal fungi as affected by tillage practices and fertilization: Hyphal density and mycorrhizal root colonization. Plant and Soil. 192. (2.): 285–293.
31. KABIR, Z., O’HALLORAN, I.P., WIDDEN, P., HAMEL, C. (1998): Vertical distribution of arbuscular mycorrhizal fungi under corn (Zea mays L.) in no-tillage and conventional tillage systems. Mycorrhiza 8. (1.): 53–55.
32. KARAGIANNIDIS, N., NIKOLAU, N. (2000): Infl uence of Arbuscular Micorrhizae on Heavy Metal (Pb and Cd) Uptake, Growth, and Chemical Composition on Vitis vinifera L. (cv. Razaki). Am. J. Enol. Vitic. 51. (3.): 269–275.
33. KARAGIANNIDIS, N., NIKOLAOU., N. (1999): Arbuscular mycorrhizal root infection as an important factor of grapevine nutrition status. Multivariate analysis application for evaluation and characterization of the leaf and soil parameters. Agrochimica. 42. 151–165.
34. KARAGIANNIDIS, N., NIKOLAOU, N., MATTHEOU, A. (1995): Wirkung dreier VA-Mykorrhizapilze auf Ertag und Nährstoffaufnahme von drei
Unterlagen und einer Tafeltraubensorte. Vitis. 34. (2.): 85–89.
35. KARAGIANNIDIS, N., VELEMIS, D., STAVROPOULOS, N. (1997). Root colonization and spore population by VA-mycorrhizal fungi in four grapevine rootstocks. Vitis, 36. (2.): 57–60.
36. KOTHARI, S.K., MARSCHNER, H., RÖMHELD, V. (1990): Direct and indirect effects of VA mycorrhizal fungi and rhizosphere microorganisms on acquisition of mineral nutrients by maize (Zea mays L.) in calcareous soil. New Phytol., 116. (4.): 637–645.
37. KOTHARI, S.K., MARSCHNER, H., RÖMHELD, V. (1991): Effect of a vesicular-arbuscular mycorrhizal fungus and rhizosphere microorganisms on manganese reduction in the rhizosphere and manganese concentrations in maize (Zea mays L.). New Phytol., 117. (4.): 649–655.
38. KRISHNA, H., SINGH, S.K., SHARMA, R.R., KHAWALE, R.N., GROVER, M., PATEL, V.B. (2005): Biochemical changes in micropropagated grape (Vitis vinifera L.) plantlets due to arbuscular mycorrhizal fungi (AMF) inoculation during ex vitro acclimatization. Sci. Hortic., 106. (4.):
554–567.
39. LINDERMAN, R.G., DAVIS, E.A. (2001): Comparative response of selected grapevine rootstocks and cultivars to inoculation with different mycorrhizal fungi. Am. J. Enol. Vitic., 52. (1.): 8–11.
40. MARSCHNER, H. (1997): Mineral nutrition of higher plants. Academic Press, London
41. MENGE, J.A., RASKI, D.J., LIDER, L.A., JOHNSON, E.L.V., JONES, N.O., KISSLER, J.J., HEMSTREET, C.L. (1983): Interactions between mycorrhizal fungi, soil fumigation, and growth of grapes in California. Am. J. Enol. Vitic. 34. (2.): 117–121.
42. MEYER, A.H., BOTHA, A., VALENTINE, A.J., ARCHER, E., LOUW, P.J.E. (2005): The Occurrence and Infectivity of Arbuscular Mycorrhizal Fungi in Inoculated and Uninoculated Rhizosphere Soils of Two-year-old Commercial Grapevines. S. Afr. J. Enol. Vitic., 26. (2.): 90–94.
43. MEYER, A.H., VALENTINE, A.J., BOTHA, A., ARCHER, E., LOUW, P.J.E. (2004): Young grapevine response and root colonisation following inoculation with arbuscular mycorrhizal fungi. S. Afr. J. Enol. Vitic., 25. (1.): 26–32.
44. MOHR, H. D. (1994): Verteilung und Mykorrhizierung der Wurzeln von Reben und Begrünungspfl anzen im Boden – Methodik und Anwendungsbeispiele. Begrünung im Weinbau. „Förderungsdienst”, Bundesministerium für Land- und Forstwirtschaft, Sonderausgabe, Wien,
60–68.
45. MORTIMER, P. E., ARCHER, E., VALENTINE, A. J. (2005): Mycorrhizal C costs and nutritional benefi ts in developing Grapevines. Mycorrhiza, 15. (3.): 159–165.
46. MUNDY, D.C., ALSPACH, P.A. , DUFAY, J. (2005): Grass grub damage and mycorrhizal colonisation of grapevine rootstocks. New Zealand Plant Protection, 58. 234–238.
47. NAGAHASHI, G., DOUDS JR., D. D., ABNEY, G. D. (1996): Phosphorus amendment inhibits hyphal branching of the VAM fungus Gigaspora margarita directly and indirectly through its effect on root exudation. Mycorrhiza, 6. (5.): 403–408.
48. NAPPI, P., JODICE, R., LUZZATI, A., CORINO, L. (1985): Grapevine root system and VA mycorrhizae in some soils of Piedmont (Italy). Plant
Soil, 85. (2): 205–210.
49. NEMEC, S. (1997): Longevity of microbial biocontrol agents in a planting mix amended with Glomus intraradices. Biocontrol Sci. Technol.,7.
(2.): 183–192.
50. NIKOLAOU, N., ANGELOPOULOS, K., KARAGIANNIDIS, N. (2003): Effects of drought stress on mycorrhizal and non-mycorrhizal Cabernet Sauvignon grapevine, grafted onto various rootstocks. Exp. Agric., 39. (3.): 241–252.
51. NOGALES, A., CAMPRUBÍ, A., ESTAÚN, V., CALVET, C. (2008): Mycorrhizal inoculation of grapevines in replant soils: improved fi eld application and plant performance. Mycorrhiza application in sustainable agriculture and natural systems. COST Action 870. Working groups
2 and 4. Thessaloniki, Greece, 17–19 September, 12–15.
52. NOGALES, A., LUQUE, J., ESTAÚN, V., CAMPRUBÍ, A., GARCIA-FIGUERES, F., CALVET, C. (2009): Differential Growth of Mycorrhizal Field-InoculatedGrapevine Rootstocks in Two Replant Soils. Am. J. Enol. Vitic., 60. (4.): 484–489.
53. OMAR, A.E.K. (2007): Rooting and growth response of grapevine nurslings to inoculation with arbuscular mycorrhizal fungi and irrigation intervals Journal of Applied Horticulture, 9. (2.): 108–111.
54. PATRICK, A.E., SMITH, R., KECK, K., BERRY, A. M. (2004): Grapevine uptake of 15N-labeled nitrogen derived from a winter-annual leguminous cover-crop mix. Am. J. Enol. Vitic., 55. (2.): 187–190.
55. PETGEN, M. (2004a): Mykorrhiza-Vorkommen im Weinberg. Wie wirkt sich die Begrünung aus? Das Deutsche Weinmagazin, 14. (10.): 29–33.
56. PETGEN, M. (2004b): Mykorrhiza-Pilze in Weinbergen: Kleine Helfer an der Wurzel. Das Deutsche Weinmagazin, 12. (12.): 14–19.
57. PETGEN, M. (2005a): Mykorrhizapilze. Teil I. Einsatz in Rebschulen. Das Deutsche Weinmagazin. 23. (3.): 20–23.
58. PETGEN, M. (2005b): Praktische Anwendung von Mykorrhizapilzen im Weinbau, Teil II. Einsatz in den Topfreben. Das Deutsche Weinmagazin,
23. (4.): 29–33.
59. PETGEN, M.; SCHROPP, A.; MARSCHNER, H.; RÖMHELD, V. (1997): Untersuchungen über das Vorkommen der arbuskularen Mykorrhiza in verschiedenen Rebschulboden der Pfalz sowie deren praktische Anwendung in der Rebschule . Mitt . Biol. Bundesanst. Land – and Forstwirtsch., Berlin Dahlem, Heft 332. 32–46.
60. PETGEN, M., SCHROPP, A., GEORGE, E., RÖMHELD, V. (1998): Einfl uss unterschiedlicher Inokulationstiefen mit dem arbuskulären Mykorrhizapilz Glomus mosseae auf die Mykorrhizierung bei Reben (Vitis sp.) in Wurzelbeobachtungskasten. Vitis, 37. (3.): 99–105.
61. PETIT, E., GUBLER, W.D. (2006): Infl uence of Glomus intraradices on Black Foot Disease Caused by Cylindrocarpon macrodidymum on Vitis rupestris Under Controlled Conditions. Plant Disease, 90. (12.): 1481–1484.
62. PINKERTON, J. N. – R. P. SCHREINER, K. L. IVORS, M. C. VASCONCELOS (2004): Effects of Mesocriconema xenoplax on Vitis vinifera and Associated. Mycorrhizal Fungi. Journal of Nematology 36 (3.): 193–201.
63. POSSINGHAM, J.V., OBBINK, J. G. (1971): Endotrophic mycorrhiza and the nutrition of grape vines. Vitis 10. (2.): 120–130.
64. RYAN, M.H., GRAHAM, J.H. (2002): Is there a role for arbuscular mycorrhizal fungi in production agriculture. Plant Soil, 244. (1-2.): 263–271.
65. SCHELLENBAUM, L., BERTA, G., RAVOLANIRIA, F., TISSERANT, B., GIANNAZZI, S., FITTER, A.H. (1991): Infl unce of endomycorrhizal
infection on root morphology in a micropropagated woody plant species (Vitis vinifera L.). Annals Botany, 68. (2.): 135–141.
66. SCHREINER, R.P., BETHLENFALVAY, G.J. (2003): Crop residue and Collembola interact to determine the growth of mycorrhizal pea plants.
Biol. Fertil. Soils, 39. (1.): 1–8.
67. SCHREINER, R.P. (2005a): 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.
68. 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. (2-3.): 205–215.
69. SCHREINER, R.P., LINDERMAN, R.G. (2005): Mycorrhizal Colonization in Dryland Vineyards of the Willamette Valley, Oregon. Small Fruits Review, 4. (3.): 41–55.
70. SCHREINER, R.P., TARARA, J.M., SMITHYMAN, R. (2007): Defi cit irrigation promotes arbuscular colonization of fi ne roots by mycorrhizal fungi in grapevines (Vitis vinifera L.). Mycorrhiza, 17. (7.): 551–562.
71. 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 & Biochemistry, 40. 1870–1877.
72. SCHREINER, R.P., KOIDE, R.T. (1993): Antifungal compounds from the roots of mycotrophic and non-mycotrophic plant species. New Phytol.,
123. 99–105.
73. SCHREINER, RP. (2003): Mycorrhizal Colonization of Grapevine Rootstocks under Field Conditions. Am. J. Enol. Vitic., 54. (3.):143–149.
74. SCHREINER, RP. (2005b): Mycorrhizas and mineral acquisition in grapevines. In.: Christensen LP., Smart DR. Proceedings of the Soil
Environment and Vine Mineral Nutrition Sympsium. American Socitey for Enology and Viticulture, Davis, 49.–60.
75. SCHUBERT, A., MAZZITELLI, M., ARIUSSO, O., EYNARD, I. (1990): Effects of vesicular-arbuscular mycorrhizal fungi on micropropagated grapevines: Infl uence of endophyte strain, P fertilization and growth medium. Vitis. 29. 5–13.
76. SCHUBERT, A., CRAVERO, MC. (1985): Occurrence and infectivity of vesicular-arbuscular mycorrhizal fungi in north-western Italy vineyards. Vitis, 24. 129–138.
77. SCHUBERT, A., CAMMARATA, S., EYNARD, I. (1988): Growth and colonization of grapevines inoculated with different mycorrhizal endophytes. HortScience, 23. (2.): 302-303.
78. SERES A. (2009): A mikorrhiza-ugróvillás (Collembola) kapcsolatok szerepe a kukorica tápanyagfelvételében. Doktori értekezés. Szent István Egyetem, Gödöllő
79. SIEVERDING, E. (1991): Vesicular-Arbsucular Mycorrhiza Management in Tropical Agrosystems. Deutsche Gesellschaft für Technische
