SEARCH

SEARCH BY CITATION

References

  • Alaoui-Sossé B, Parmentier C, Dizengremel P, Barnola P. 1994. Rhythmic growth and carbon allocation in Quercus-robur.1. Starch and sucrose. Plant Physiology and Biochemistry 32: 331339.
  • Baker NR. 2008. Chlorophyll fluorescence: a probe of photosynthesis in vivo. Annual Review of Plant Biology 59: 89113.
  • Borja I, De Wit HA, Steffenrem A, Majdi H. 2008. Stand age and fine root biomass, distribution and morphology in a Norway spruce chronosequence in southeast Norway. Tree Physiology 28: 773784.
  • Branzanti MB, Rocca E, Pisi A. 1999. Effect of ectomycorrhizal fungi on chestnut ink disease. Mycorrhiza 9: 103109.
  • Buscot F, Munch JC, Charcosset JY, Gardes M, Nehls U, Hampp R. 2000. Recent advances in exploring physiology and biodiversity of ectomycorrhizas highlight the functioning of these symbioses in ecosystems. FEMS Microbiology Reviews 24: 601614.
  • Cahill DM, McComb JA. 1992. A comparison of changes in phenylalanine ammonia-lyase activity, lignin and phenolic synthesis in the roots of Eucalyptus calophylla (field resistant) and E. marginata (susceptible) when infected with Phytophthora cinnamomi. Physiological and Molecular Plant Pathology 40: 315332.
  • Castrillo M. 1999. Sucrose metabolism at three leaf development stages in bean plants. Photosynthetica 36: 519524.
  • Champagnat P, Barnola P, Lavarenne S. 1986. Quelques modalités de la croissance rythmique endogène des tiges chez les végétaux ligneux. Colloque international sur l'arbre (09/09/1985): 279302.
  • Dickson RE. 1989. Carbon and nitrogen allocation in trees. Annales Des Sciences Forestieres 46: S631S647.
  • Dodd RS, Hüberli D, Mayer W, Harnik TY, Afzal-Rafii Z, Garbelotto M. 2008. Evidence for the role of synchronicity between host phenology and pathogen activity in the distribution of sudden oak death canker disease. New Phytologist 179: 505514.
  • Hansen EM, Reeser PW, Sutton W. 2012. Phytophthora beyond agriculture. Annual Review of Phytopathology 50: 359378.
  • Henkel A, Muller J, Potzsche C. 2012. Modeling the spread of Phytophthora. Journal of Mathematical Biology 65: 13591385.
  • Herms DA, Mattson WJ. 1992. The dilemma of plants – to grow or defend. Quarterly Review of Biology 67: 478478.
  • Herrmann S, Buscot F. 2008. Why and how using micropropagated trees rather than germinations for controlled synthesis of ectomycorrhizal associations. In: Varma A, ed. Mycorrhiza: state of the art, genetics and molecular biology, eco-function, biotechnology, eco-physiology, structure and systematics. Berlin, Germany: Springer, 439466.
  • Herrmann S, Munch JC, Buscot F. 1998. A gnotobiotic culture system with oak microcuttings to study specific effects of mycobionts on plant morphology before, and in the early phase of, ectomycorrhiza formation by Paxillus involutus and Piloderma croceum. New Phytologist 138: 203212.
  • Herrmann S, Oelmuller R, Buscot F. 2004. Manipulation of the, onset of ectomycorrhiza formation by indole-3-acetic acid, activated charcoal or relative humidity in the association between oak microcuttings and Piloderma croceum: influence on plant development and photosynthesis. Journal of Plant Physiology 161: 509517.
  • Itoo ZA, Reshi ZA. 2013. The multifunctional role of ectomycorrhizal associations in forest ecosystem processes. Botanical Review 79: 371400.
  • Jönsson U. 2004a. Phytophthora species and oak decline - can a weak competitor cause significant root damage in a nonsterilized acidic forest soil? New Phytologist 162: 211222.
  • Jönsson U. 2004b. Phytophthora and oak decline – impact on seedlings and mature trees in forest soils. PhD thesis, Lund University, Lund, Sweden.
  • Jönsson U. 2006. A conceptual model for the development of Phytophthora disease in Quercus robur. New Phytologist 171: 5567.
  • Jönsson U, Jung T, Rosengren U, Nihlgård B, Sonesson K. 2003a. Pathogenicity of Swedish isolates of Phytophthora quercina to Quercus robur in two different soils. New Phytologist 158: 355364.
  • Jönsson U, Lundberg L, Sonesson K, Jung T. 2003b. First records of soilborne Phytophthora species in Swedish oak forests. Forest Pathology 33: 175179.
  • Jung T, Blaschke H. 1996. Phytophthora root rot in declining forest trees. Phyton-Annales Rei Botanicae 36: 95101.
  • Jung T, Blaschke H, Osswald W. 2000. Involvement of soilborne Phytophthora species in Central European oak decline and the effect of site factors on the disease. Plant Pathology 49: 706718.
  • Jung T, Cooke DEL, Blaschke H, Duncan JM, Osswald W. 1999. Phytophthora quercina sp nov., causing root rot of European oaks. Mycological Research 103: 785798.
  • Kramer K, Leinonen I, Loustau D. 2000. The importance of phenology for the evaluation of impact of climate change on growth of boreal, temperate and Mediterranean forests ecosystems: an overview. International Journal of Biometeorology 44: 6775.
  • Marx DH. 1972. Ectomycorrhizae as biological deterrents to pathogenic root infections. Annual Review of Phytopathology 10: 429454.
  • Marx DH. 1973. Growth of ectomycorrhizal and nomycorrhizal shortleaf pine seedlings in soil with Phytophthora cinnamomi. Phytopathology 63: 1823.
  • Matyssek R, Koricheva J, Schnyder H, Ernst D, Munch JC, Oßwald W, Pretzsch H. 2012. The balance between resource sequestration and retention: a challenge in plant science. In: Matyssek R, Schnyder H, Oßwald W, Ernst D, Munch JC, Pretzsch H, eds. Growth and defence in plants. Berlin/ Heidelberg, Germany: Springer, 324.
  • Oßwald W, Fleischmann F, Rigling D, Coelho AC, Cravador A, Diez J, Dalio RJ, Horta Jung M, Pfanz H et al. 2014. Strategies of attack and defence in woody plant-Phytophthora interactions. Forest Pathology. doi:10.1111/efp.12096.
  • Quoreshi AM. 2003. The Role of mycorrhiza in forest ecosystems under CO2-enriched atmosphere. Eurasian Journal of Forest Research 6: 171176.
  • Reich PB, Teskey RO, Johnson PS, Hinckley TM. 1980. Periodic root and shoot growth in oak. Forest Science 26: 590598.
  • Rosenberg K, Bertaux J, Krome K, Hartmann A, Scheu S, Bonkowski M. 2009. Soil amoebae rapidly change bacterial community composition in the rhizosphere of Arabidopsis thaliana. Isme Journal 3: 675684.
  • Schena L, Hughes KJ, Cooke DE. 2006. Detection and quantification of Phytophthora ramorum, P. kernoviae, P. citricola and P. quercina in symptomatic leaves by multiplex real-time PCR. Molecular Plant Patholology 7: 365379.
  • Schlink K. 2010. Down-regulation of defense genes and resource allocation into infected roots as factors for compatibility between Fagus sylvatica and Phytophthora citricola. Functional & Integrative Genomics 10: 253264.
  • Schloter M, Winkler JB, Aneja M, Koch N, Fleischmann F, Pritsch K, Heller W, Stich S, Grams TEE, Göttlein A et al. 2005. Short term effects of ozone on the plant-rhizosphere-bulk soil system of young beech trees. Plant Biology 7: 728736.
  • Tarkka MT, Herrmann S, Wubet T, Feldhahn L, Recht S, Kurth F, Mailander S, Bonn M, Neef M, Angay O et al. 2013. OakContigDF159.1, a reference library for studying differential gene expression in Quercus robur during controlled biotic interactions: use for quantitative transcriptomic profiling of oak roots in ectomycorrhizal symbiosis. New Phytologist 199: 529540.