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Collembola often play an important controlling role in the interrelationship between arbuscular mycorrhizal fungi (AMF) and host plants. However there are little data to prove AMF dispersing ability of Collembola. In our experiment Folsomia candida (Willem) did not consume the spores of Glomus mossea (Nicol. and Gerd.) and G. intraradices )Schenck and Smith), but Sinella coeca (Schott) consumed 45% of the G. mossea spores and 71% of G. intraradices spores. Both species were able to disperse mycorrhiza in the soil, but the efficiency of dispersal was different. F. candida carried the infection more effectively than S. coeca, in spite of the fact that F. candida did not consume the spores in the food choice experiment. The total plant biomass was 23% higher in the presence of F. candida and 8.5% higher in the presence of S. coeca then in the control treatment without Collembola. The water content of the plants was also a little higher in the presence of both Collembola species (about 10%) than that of the control plants, but this difference was not statistically significant. Collembola improved the dispersion of the AM fungi, therefore enhanced the nutrient and water uptake of the plant.
Czasopismo
Rocznik
Tom
Strony
395--399
Opis fizyczny
Bibliogr. 12 poz.,Rys., tab.,
Twórcy
autor
autor
autor
- Department of Zoology and Ecology, Szent Istvan University, Pater Karoly u.1., H-2103 Godollo, Hungar
Bibliografia
- Bakonyi G., Posta K., Kiss I., Fábián M., Nagy P., Nosek J.N. 2002 – Density-dependent regulation of arbuscular mycorrhiza by collembola – Soil Biol. Biochem., 34: 661–664.
- Finlay R.D. 1985 – Interactions between soil micro-arthropods and endomycorrhizal associations of higher plants (In: Ecological Interactions in Soil. Eds: Fitter A. H., Attkinson D., Read D. J., Usher M. B.) – UsherBlackwell Scientific Publications, Oxford, pp. 319–331.
- Gange A.C., Ayres R.L. 1999 – On the relation between arbuscular mycorrhizal colonization and plant ‘benefit’ – Oikos, 87: 615–621.
- Giovanetti M., Mosse B. 1980 – An evaluation techniques for measuring vesicular-arbuscular infection in roots – New Phytol., 84: 489–500.
- Jakucs E. 1999 – Fungal symbioses – Acta Microbiol. Hun., 46: 193–195.
- Klironomos J.N., Moutoglis P. 1999 – Colonization of nonmycorrhizal plants by neighbours as influenced by the collembolan, Folsomia candida – Biol. Fert. Soils, 29: 277–281.
- Larsen J., Jakobsen I. 1996 – Effects of a mycophagous Collembola on the symbioses between Trifolium subterraneum and three arbuscular mycorrhizal fungi – New Phytol., 133: 295–302.
- Malloch D.W., Pirozynski K.A., Raven P.H. 1980 – Ecological and evolutionary significance of mycorrhizal symbiosis in vascular plants (a review) – P. Nat. Acad. Sci., USA, 77: 2113–2118.
- Moore J.C., St John T.V., Coleman D.C. 1985 – Ingestion of vesicular-arbuscular mycorrhizal hyphae and spores by soil microarthropods Ecology, 66:1979–1981.
- Posta K., Füleky Gy. 2000 – Phosphate activity in the rhizosphare and hyphosphere of maize induced by different phosphorus sources – Bulletin of the Szent István University, 55–67.
- Posta K., Füleky Gy. 1997 – Growth and phosphorus nutrition of mycorrhizal maize plants at different soil volumes and phosphorus supplies – Acta Agr. Hung., 45: 135–145.
- Warnock A.J., Fitter A.H., Usher M.B. 1982 – The influence of a springtail Folsomia candida (Insecta, Collembola) on the mycorrhizal association of leek (Allium porrum) and the vesicular-arbuscular mycorrhizal endophyte Glomus fasciculatus – New Phytol., 90: 285–292.
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-article-BGPK-1772-6492