Fungi arbuscular mycorrhizal

Vesicles Spherical structures, formed intracellularly, by some arbuscular mycorrhizal fungi. [Pg.628]

Walter, M.H., Fester, T., and Strack, D., Arbuscular mycorrhizal fungi induce the non-mevalonate methylerythritol phosphate pathway of isoprenoid biosynthesis correlated with accumulation of the yellow pigment and other apocarotenoids. Plant J. 21, 571, 2000. [Pg.394]

P. Bonfante and S. Perotto, Strategies of arbuscular mycorrhizal fungi when infecting host plants. New Phytologist 130 3 (1995). [Pg.131]

V. Gianinazzi-Pearson, Plant cell responses to arbuscular mycorrhizal fungi getting to the roots of the symbiosis. Plant Cell 70 1871 (1996). [Pg.287]

S. Rosendhal and J. W. Taylor, Development of multiple genetic markers for studies of genetic variation in arbuscular mycorrhizal fungi using AFLP. Mol. Ecol. 6 821 (1997). [Pg.288]

R. Sanders, J. P. Clapp, and A. Wiemken, The genetic diversity of arbuscular mycorrhizal fungi in natural ecosystems—a key to understanding the ecology and functioning of the mycorrhizal symbiosis. New Phytol. /ii 123 (1996). [Pg.288]

M. Giovannetti and V. Gianinazzi-Pcarson, Biodiversity in arbuscular mycorrhizal fungi. Mycol. Re.s. 98 705 (1994). [Pg.288]

G. Becard, D. D. Douds, and P. E. Pfeffer, Extensive in vitro hyphal growth of vesicular-arbuscular mycorrhizal fungi in the presence of CO and flavonols. Appi. Environ. Microbiol. 5 ( 821 (1992). [Pg.290]

D. Morandi, J. A. Bailey, and V. Gianinazzi-Pearson, Isoflavonoid accumulation in soybean root infected with vesicular-arbuscular mycorrhizal fungi. Physiol. Plant Pathol. 24 357 (1984). [Pg.290]

M. Giovannetti, L. Avio, C. Sbrana, A. S. Citernesi, and C. Logi, Differential hyphal morphogenesis in arbuscular mycorrhizal fungi during pre-infection stages. New Phytol. 125 5 1 (1993). [Pg.290]

R. Balestrini, M. G. Hahn, A. Faccio. K. Mendgen, and P. Bonfanie, Differential localization of carbohydrates epitopes in plant cell walls in the presence and absence of arbuscular mycorrhizal fungi. Plant Physiol. 111 203 (1996). [Pg.292]

H. Liu, A. T. Trieu, L. A. Blaylock, and M. J. Harrison, Cloning and characterization of two phosphate transporters from Medicago truncatula roots Regulation in response to phosphate and to colonization by arbuscular mycorrhizal fungi. Mol. Plant-Microbe Interact. 11 A (1998). [Pg.294]

V. Bianciotto, D. Minerdi, S. Perotto, and P. Bonfante, Cellular interactions between arbuscular mycorrhizal fungi and rhizosphrere bacteria. Protoplasma 193 123 (1996). [Pg.295]

G. Andrade, K. L. Mihara, R. G. Linderman, and G. J. Bethlenfalvay, Bacteria from rhizosphere and hyphosphere soils of different arbuscular-mycorrhizal fungi. Plant Soil 192 1 (1997). [Pg.296]

Akiyama, K., K. Matsuzaki et al. (2005). Plant sesquiterpenes induce hyphal branching in arbuscular mycorrhizal fungi. Nature 435(7043) 824-827. [Pg.410]

Vierheilig, H., H. Gagnon et al. (2000). Accumulation of cyclohexenone derivatives in barley, wheat and maize roots in response to inoculation with different arbuscular mycorrhizal fungi. Mycorrhiza 9(5) 291-293. [Pg.415]

Driver JD, Holben WE, Rillig MC (2005) Characterization of glomalin as a hy-phal wall component of arbuscular mycorrhizal fungi. Soil Biol Biochem 37 101-106... [Pg.30]

Dehne HW (1982) Interactions between vesicular-arbuscular mycorrhizal fungi and plant pathogens. Phytopathology 72 1115-1119... [Pg.102]

Schreiner PR, Ivors KL, Pinkerton JN (2001) Soil solarization reduces arbuscular mycorrhizal fungi as a consequence of weed suppression. Mycorrhiza 11 273-277. doi 10.1007/... [Pg.270]

Dilly O, Nannipieri P (2001) Organic and mineral fertilization, respectively, increase and decrease the development of external mycelium of arbuscular mycorrhizal fungi in a long-term field experiment. Biol Fert Soils 34 64-72... [Pg.296]

Hansen B, Alroe HF, Kristensen ES (2001) Approaches to assess the environmental impact of organic farming with particular regard to Denmark. Agric Ecosyst Environ 83 11-26 Harinikumar KM, Bagyaraj DJ (1989) Effect of cropping sequence, fertilizers and farmyard manure on vesicular-arbuscular mycorrhizal fungi in different crops over three consecutive seasons. Biol Fertil Soils 7 173-175... [Pg.297]

Oehl F, Sieverding E, Mader P, Dubois D, Ineichen K, Boiler T, Wiemken A (2004) Impact of long-term conventional and organic farming on the diversity of arbuscular mycorrhizal fungi. Oecologia 138 574-583... [Pg.299]

Ellis JR. 1998. Post flood syndrome and vesicular-arbuscular mycorrhizal fungi. Journal of Production Agriculture 11 200-204. [Pg.265]

Vierheihg H et al., An overview of methods for the detection and observation of arbuscular mycorrhizal fungi in roots. Physiol Plant 125 393—404, 2005. [Pg.566]

Soares ACF et ai, Arbuscular mycorrhizal fungi and the occurrence of flavonoids in roots of passion fruit seedlings, Scient Agric 62 331-336, 2005. [Pg.571]

Zhao X, Yan XF, Effects of arbuscular mycorrhizal fungi on plant secondary metabolism, Zhiwu ShengtaiXuebao 30 514-521, 2006. [Pg.571]

Ryan, M.H. and Graham, J.H. 2002. Is there a role for arbuscular mycorrhizal fungi in production agriculture Plant and Soil 244 263-271. [Pg.50]

Ryan, M.H., Small, D.R. and Ash, J.E. 2000. Phosphorus controls the level of colonisation by arbuscular mycorrhizal fungi in conventional and biodynamic irrigated dairy pastures. Australian Journal of Experimental Agriculture 40 663-670. [Pg.50]

Scullion, J., Eason, W.R. and Scott, F.P. 1998. The effectivity of arbuscular mycorrhizal fungi from high input conventional and organic grassland and grass-arable rotations. Plant and Soi/204 243-254. [Pg.291]

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