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Efecto del agobio hídrico sobre la acumulación de fósforo en el huésped y el micelio extraradicalmycorrhizal roots of drought rosap l a n t . N e w P h y t o l o g i s t ,115:285-295.Augé, R.M. 2001. Water relations,drought and vesicular-arbuscularm y c o r r h i z a .Mycorrhiza, 11:3-42.Azcon-Bieto, J. y Talón, M. 2000. Fundamentosde fisiología vegetal. EditorialMc Graw-Hill-interamericana.Edición Universidad de Barcelona,Barcelona, España. 481-497 pp.Becard, G. y Fortín, J.A. 1988. Earlyevents of vesicular-arbuscular mycorrhizalformation on Ri T-DNA transformedroots. New Phytologist,108:211-218.Bethenfalvay, G.J. 1992. My corrhizaeand crop productivity. En. Micorrhyzaein Sustainable Agricuklture.(G.J. Bethlenfalvay y R.G. Liderman,Eds.) ASA special publication No.54, Madison, Wisc. 1-28 pp.Bieleski, R.L.1973. Phosphate pool,phosphate transport, anh phosphateavailability. Annual review of PlantPhysiology, 24:225-252.Bücking, H. y Shachar-Hill, Y. 2005.Phosphate uptake, transport andtransfer by the arbuscular mycorrhizalfungus Glomus intraradices isstimulated by increased carbohydrateavailability. New Phytologist,165(3):899912.Burleigh, S.H., Cavagnaro, T. y Jakobsen,I. 2002. Functional diversity of arbuscularmycorrhizas extend to theexpression of plant genes involved inP nutrition. Journal of ExperimentalBotany, 53: 1593-1601.Cruz Cruz, C.A. 2005. Acumulación dec a r b o h i d ratos e n m i c o r r i z a sarbusculares sometidas a estrés invitro. Tesis de maestría en biologíaexperimental. Instituto de InvestigacionesQuímico Biológicas (IIQB).Universidad Michoacana de San Nico l á s d e H i d a l g o . M o r e l i aMichoacán, México.Davies, F.T., Potter, J.R. y Linderman,R.G. 1992. Mycorrhiza and repeateddrought exposure affect drought resistanceand extraradical hyphae developmentof pepper plant independentof plant size and nutrientcontent. Journal of Plant Physiology,139:189-294.Goicoechea, N., Szalai, G., Antolin,M.C., Sánches-Díaz, M. y Paldi, E.1998. Influence of arbuscular mycorrhizaeand Rhizobium on freepolyamines and proline levels inwater-stressed alfalfa. Journal of plantHysiology, 153:706-711.Hardie, K y Leyton, L. 1981. The influenceof vesicular-arbuscular mycorrhizaeon growth and water relationon red clover in phosphate-deficientsoil. New Phytologist, 89:599-608.Koide, R.T. y Kabir, Z. 2000. ExtraradicalHyphae of the Mycorrhizal fungus,Glomus intraradices can hydrolyseorganic phosphate. New Phytologist,148: 511-517.Ortas, I., Harris, P.J. y Rowell, D.L. 1996.Enhanced uptake of phosphorus bymycorrhizal Shorgum plants as influencedby forms of nitrogen. Plantand soil, 184:255-264.Raghothama, K.G. 1999. Phosphate acquisition.Annual Review of PlantPhysiology and Plant Molecular Biology,50:665-693.Read, D.J. 1984. The structure and functionof vegetative mycelium of mycorrhizalroots. En: Ecological andPhysiology of the fungal mycelium.(D.H. Jennings y A.D.M. Rayner, Eds).No. Especial 2008 Ciencia Nicolaita [89]
Santos Zepeda Guzmán y Javier Villegas MorenoCambridge Univ. Press, Cambridge.215 240 pp.Ruiz-Lozano, J.M. y Azcón, R. 1995.Hyphal contribution to water uptakein mycorrhizal plant as affected bythe fungal species and water status.Physiologia Plantarum, 95:472-478.Ruiz-Lozano, J.M., Azcón, R. y Gómez,M. 1995. Effect of arbuscularmycorrhizalGlomus species ondrought tolerance: physiological andnutritional plant responses. Appliedand Environmental Microbiology,61:456-460.Schellembaum, L., Müller, J., Boller, T.,Wiemkem, A. y Schüpp, H. 1998.Effect of drought on non-mycorrhizaland mycorrhizal maize: changes inthe pools non-structural carbohydrates,in the activities of invertaseand trehalase, and in the pools ofaminoacids and iminoacids. NewPhytologist, 138:59-66.Smith, F.W., Rae, A.L. y Hawkesford, M.J.2000. Molecular mechanism ofphosphate and sulfate transport inplant. Biochimica et Biophysica Acta,1465:236-245.Subramanian, K.S., Charest, C., Dwyer,L.M. y Hamilton, R.I. 1995. Arbuscularmycorrhizas and water relationsin maize under drought stress at tasse l l i n g . N e w P h y t o l o g i s t ,129:643-650.Tibbet, M. y Sanders, F.E. 2002. Ectomycorrhizalsymbiosis can enhanceplant nutrition through improvedaccess to discrete organic nutrientpatches of high resource quality. Annualsof Botany, 89: 783-789.Tinker, P.B. 1978. Effects of vesiculararbuscularmycorrhizas on plant nutritionand plant growth. Physiol.Veg. 16: 743-751.[90] Ciencia Nicolaita No. Especial 2008
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