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  • Bago B, Pfeffer PE, Abubaker J, Jun J, Allan JW, Brouillette J, Douds DD, Lammers PJ, Shachar-Hill Y. 2003. Carbon export from arbuscular mycorrhizal roots involves the translocation of glycogen as well as lipid. Plant Physiology 131: 14961507.
  • Bago B, Pfeffer PE, Douds DD, Brouillette J, Bécard G, Shachar-Hill Y. 1999. Carbon metabolism in spores of the arbuscular mycorrhizal fungus Glomus intraradices as revealed by nuclear magnetic resonance spectroscopy. Plant Physiology 121: 263271.
  • Bago B, Pfeffer PE, Shachar-Hill Y. 2000. Carbon metabolism and transport in arbuscular mycorrhizas. Plant Physiology 124: 924957.
  • Bago B, Pfeffer PE, Zipfel W, Jun J, Lammers P, Shachar-Hill Y. 2002. Tracking metabolism and imaging transport in arbuscular mycorrhizal fungi. Plant and Soil 244: 189197.
  • Bago B, Vierheilig H, Piché Y, Azcon Aguilar C. 1996. Nitrate depletion and pH changes induced by the extraradical mycelium of the arbuscular mycorrhizal fungus Glomus intraradices grown in monoxenic culture. New Phytologist 133: 273280.
  • Bidartondo MI, Redecker D, Hijrl I, Wiemken A, Bruns TD, Domininguez L, Sérsic A, Leake J, Read DJ. 2002. Epiparasitic plants specialized on arbuscular mycorrhizal fungi. Nature 419: 389392.
  • Chabot S, Bécard G, Piché Y. 1992. Life-cycle of Glomus-intraradix in root organ-culture. Mycologia 84: 315321.
  • Christopherson SW, Glass RL. 1970. Preparation of milk fat methyl esters by alcoholsis in an essentially nonalcoholic solution. Dairy Science 52: 12801286.
  • Doner LW, Bécard G. 1991. Solubilization of gellan gels by chelation of cations. Biotechnology Techniques 5: 2529.
  • Douds DD. 2002. Increased spore production by Glomus intraradices in the split-plate monoxenic culture system by repeated harvest, gel replacement, and resupply of glucose to the mycorrhiza. Mycorrhiza 12: 163167.
  • Douds DD, Johnson CR, Koch KE. 1988. Carbon costs of the fungal symbiont relative to net leaf P accumulation in a split-root VA mycorrhizal symbiosis. Plant Physiology 86: 491496.
  • Finlay R, Söderström B. 1992. Mycorrhiza and carbon flow to the soil. In: AllenMJ, ed. Mycorrhizal functioning. New York, NY, USA: Chapman & Hall, pp. 134160.
  • Finlay RD, Söderström B, Read DJ. 1986. Factors influencing the flux of carbon through ectomycorrhizal mycelium forming inter-plant connections. In: Gianinazzi-PearsonV, GianinazziS, eds. Proceedings of first European symposium on mycorrhizae, physiological and genetical aspects of mycorrhizae. Dijon, France: INRA, pp. 301306.
  • Fitter AH, Graves JD, Watkins NK, Robinson D, Scrimgeour C. 1998. Carbon transfer between plants and its control in networks of arbuscular mycorrhizas. Functional Ecology 12: 406412.
  • Fontaine J, Grandmougin-Ferjani A, Sancholle M. 2001. Metabolisme lipidique du champignon endomycohizien: Glomus intraradices. Comptes Rendus Academie Sciences Series III Life Sciences 324: 847853.
  • Francis R, Read DJ. 1984. Direct transfer of carbon between plants connected by vesicular-arbuscular mycorrhizal mycelium. Nature 307: 5356.
  • Gaspar ML, Pollero R, Cabello M. 2001. Biosynthesis and degradation of glycerides in external mycelium of Glomus mosseae. Mycorrhiza 11: 257261.
  • Graves JD, Watkins NK, Fitter AH, Robinson D, Scrimgeour C. 1997. Intraspecific transfer of carbon between plants linked by a common mycorrhizal network. Plant and Soil 192: 153159.
  • Grime JP, Mackey JML, Hillier SH, Read DJ. 1987. Floristic diversity in a model system using experimental microcosms. Nature 328: 420422.
  • Jakobsen I. 1995. Transport of phosphorus and carbon in VA mycorrhizas. In: Varma, A, Hock, B, eds. Mycorrhiza: structure, function, molecular biology and biotechnology. Berlin, Germany: Springer-Verlag, 297323.
  • Lammers PJ, Jun J, Abubaker J, Arreola R, Gopalan A, Bago B, Sebastia C-H, Allen JW, Douds DD, Pfeffer PE, Shachar-Hill Y. 2001. The glyoxylate cycle in an arbuscular mycorrhizal fungus. Carbon flux and gene expression. Plant Physiology 127: 12871298.
  • Lerat S, Gauci R, Catford JG, Vierheilig H, Piché Y, Lapointe L. 2002. 14C transfer between the spring ephemeral Erthronium americanium and sugar maple saplings via arbuscular mycorrhizal fungi in natural stands. Oecologia 132: 181187.
  • Lerat S, Lapointe L, Gutjahr S, Piché Y, Vierheilig H. 2003a. Carbon partitioning in a split-root system of arbuscular mycorrhizal plants is fungal and plant species dependent. New Phytologist 157: 589595.
  • Lerat S, Lapointe L, Piché Y, Vierheilig H. 2003b. Variable carbon-sink strength of different Glomus mosseae strains colonizing barley roots. Canadian Journal of Botany 81: 886889.
  • Mugnier J, Mosse B. 1987. Vesicular-arbuscular mycorrhizal infection in transformed root-inducing T-DNA roots grown axenically. Phytopathology 77: 10451050.
  • Müller J, Dulieu H. 1998. Enhanced growth of non-photosynthesizing tobacco mutants in the presence of a mycorrhizal inoculum. Journal of Experimental Botany 49: 707711.
  • Newman EI. 1988. Mycorrhizal links between plants: their functioning and ecological significance. Advances in Ecological Research 18: 243270.
  • Nielsen JS, Joner EJ, Declerck S, Olsseon S, Jakobsen I. 2002. Phospho-imaging as a tool for visualization and noninvasive measurement of P transport dynamics in arbuscular mycorhizas. New Phytologist 154: 809818.
  • Pfeffer PE, Douds DD, Bécard G, Shachar-Hill Y. 1999. Carbon uptake and the metabolism and transport of lipids in an arbuscular mycorrhiza. Plant Physiology 120: 587598.
  • Redecker D, Morton JB, Bruns TD. 2000. Ancestral lineages of arbuscular mycorrhizal fungi (Glomales). Molecular Phylogenetics and Evolution 14: 276284.
  • Robinson D, Fitter A. 1999. The magnitude and control of carbon transfer between plants linked by a common mycorrhizal network. Journal of Experimental Botany 50: 913.
  • Shachar-Hill Y, Pfeffer PE, Douds DD, Osman SF, Doner LW, Ratcliffe RG. 1995. Partitioning of intermediate carbon metabolism in VAM colonized leek. Plant Physiology 108: 715.
  • Simon L, Bousquet J, Lévesque RC, Lalonde M. 1993. Origin and diversification of endomycorrhizal fungi and coincidence with vascular land plants. Nature 363: 6769.
  • Smith SE, Read DJ. 1997. Mycorrhizal symbiosis. London, UK: Academic Press.
  • St-Arnaud M, Hamel C, Vimard B, Caron M, Fortin JA. 1996. Enhanced hyphal growth and spore production of the arbuscular mycorrhizal fungus Glomus intraradices in an in vitro system in the absence of host roots. Mycological Research 100: 328332.
  • Taylor TN, Remy W, Hass H, Kerp H. 1995. Fossil arbuscular mycorrhizae from the Early Devonian. Mycologia 87: 560573.
  • Wright DP, Read DJ, Scholes JD. 1998. Mycorrhizal sink strength influences whole plant carbon balance of Trifolium repens L. Plant, Cell & Environment 21: 881891.
  • Zabinski CA, Quinn L, Callaway RM. 2002. Phosphorus uptake, not carbon transfer, explains arbuscular mycorrhizal enhancement of Centaurea maculosa in the presence of native grassland species. Functional Ecology 16: 758765.