SEARCH

SEARCH BY CITATION

References

  • Austin CN, Grove GG, Meyers JM, Wilcox WF, 2011. Powdery mildew severity as a function of canopy density: associated impacts on sunlight penetration and spray coverage. American Journal of Enology and Viticulture 62, 2331.
  • Berger JO, 1993. Statistical Decision Theory and Bayesian Analysis. New York, USA: Springer-Verlag.
  • Brooks SP, 1998. Markov chain Monte Carlo method and its application. Journal of the Royal Statistical Society: Series D (The Statistician) 47, 69100.
  • Brooks SP, Roberts GO, 1998. Convergence assessment techniques for Markov chain Monte Carlo. Statistics and Computing 8, 31935.
  • Calonnec A, Cartolaro P, Deliere L, Chadoeuf J, 2006. Powdery mildew on grapevine: the date of primary contamination affects disease development on leaves and damage on grape. Bulletin OILB/SROP 29, 6773.
  • Calonnec A, Cartolaro P, Naulin JM, Bailey D, Langlais M, 2008. A host–pathogen simulation model: powdery mildew of grapevine. Plant Pathology 57, 493508.
  • Chib S, Greenberg E, 1995. Understanding the Metropolis–Hastings algorithm. The American Statistician 49, 32735.
  • Chou HM, Bundock N, Rolfe SA, Scholes JD, 2000. Infection of Arabidopsis thaliana leaves with Albugo candida (white blister rust) causes a reprogramming of host metabolism. Molecular Plant Pathology 1, 99113.
  • Cole JS, 1966. Powdery mildew of tobacco (Erysiphe chichoracearum DC.): susceptibility of proximal and distal parts of leaves from different stalk positions on intact and topped field plants in relation to free amino nitrogen and carbohydrate content. Annals of Applied Biology 58, 619.
  • Coleman JS, 1986. Leaf development and leaf stress: increased susceptibility associated with sink–source transition. Tree Physiology 2, 28999.
  • Doster MA, Schnathorst WC, 1985. Effects of leaf maturity and cultivar resistance on development of the powdery mildew fungus on grapevines. Phytopathology 75, 31821.
  • Efron B, Tibshirani RJ, 1993 An Introduction to the Bootstrap. Monographs on Statistics and Applied Probability. Washington, USA: Chapman and Hall.
  • Erickson RO, Michelini FJ, 1957. The plastochron index. American Journal of Botany 44, 297305.
  • Evans KJ, Whisson DL, Scott ES, 1996. An experimental system for characterizing isolates of Uncinula necator. Mycological Research 100, 67580.
  • Ficke A, Gadoury DM, Seem RC, Dry IB, 2003. Effects of ontogenic resistance upon establishment and growth of Uncinula necator on grape berries. Phytopathology 93, 55663.
  • Gadoury DM, Cadle-Davidson L, Wilcox WF, Dry IB, Seem RC, Milgroom MG, 2012. Grapevine powdery mildew (Erysiphe necator): a fascinating system for the study of the biology, ecology and epidemiology of an obligate biotroph. Molecular Plant Pathology 13, 116.
  • Gamm M, Heloir MC, Bligny R et al., 2011. Changes in carbohydrate metabolism in Plasmopara viticola infected grapevine leaves. Molecular Plant–Microbe Interactions 24, 106173.
  • Godt DE, Roitsch T, 1997. Regulation and tissue-specific distribution of mRNAs for three extracellular invertase isoenzymes of tomato suggests an important function in establishing and maintaining sink metabolism. Plant Physiology 115, 27382.
  • Green PJ, Silverman BW, 1994. Nonparametric Regression and Generalized Linear Models: A Roughness Penalty Approach. New York, USA: Chapman and Hall.
  • Hale CR, Weaver RJ, 1962. The effect of developmental stage on direction of translocation of photosynthate in Vitis vinifera. Hilgardia 33, 89131.
  • Ho LC, 1988. Metabolism and compartmentation of imported sugars in sink organs in relation to sink strength. Annual Review of Plant Physiology and Plant Molecular Biology 39, 35578.
  • Hunter JJ, Visser JH, 1988. Distribution of 14C-photosynthates in the shoot of Vitis vinifera L. cv. Cabernet Sauvignon. I. The effect of leaf position and developmental stage of the vine. South African Journal of Enology and Viticulture 9, 39.
  • Lee G, Evans KJ, Merry AM, 2012. Leaf growth characteristics of Vitis vinifera and prediction of final lamina length for studies of powdery mildew. Annals of Applied Biology 161, 1329.
  • Li B, Xu X, 2002. Infection and development of apple scab (Venturia inaequalis) on old leaves. Journal of Phytopathology 150, 68791.
  • Merry AM, 2011. Ontogenic Resistance in Grapevine Leaves to Powdery Mildew. Hobart, Australia: University of Tasmania, PhD thesis.
  • Mila AL, Carriquiry AL, 2004. Bayesian analysis in plant pathology. Phytopathology 94, 102730.
  • Pate JS, Atkins CA, 1983. Xylem and phloem transport and the functional economy of carbon and nitrogen of a legume leaf. Plant Physiology 71, 83540.
  • Rubio-Covarrubias OA, Douches DS, Hammerschmidt R, daRocha A, Kirk WW, 2006. Effect of photoperiod and temperature on resistance against Phytophthora infestans in susceptible and resistant potato cultivars: effect on deposition of structural phenolics on the cell wall and resistance to penetration. American Journal of Potato Research 83, 32534.
  • Sharma JK, Heather WA, Winer P, 1980. Effect of leaf maturity and shoot age of clones of Populus species on susceptibility to Melampsora larici-populina. Phytopathology 70, 54854.
  • Singh T, Munshi GD, 1993. Development of grape powdery mildew fungus as affected by leaf maturity and cultivar resistance. Plant Disease Research 8, 1215.
  • Sturm A, Sebkova V, Lorenz K, Hardegger M, Lienhard S, Unger C, 1995. Development-specific and organ-specific expression of the genes for sucrose synthase and 3 isoenzymes of acid beta-fructofuranosidase in carrot. Planta 195, 60110.
  • Sutton PN, Henry MJ, Hall JL, 1999. Glucose, and not sucrose, is transported from wheat to wheat powdery mildew. Planta 208, 42630.
  • Szkolnik M, 1983. Unique vapor activity by CGA64251 (Vangard) in the control of powdery mildews roomwide in the greenhouse. Plant Disease 67, 3606.
  • Turgeon R, 1989. The sink–source transition in leaves. Annual Review of Plant Physiology and Plant Molecular Biology 40, 11938.
  • Turgeon R, Webb JA, 1973. Leaf development and phloem transport in Cucurbita pepo: transition from import to export. Planta 113, 17991.
  • Valdés-Gómez H, Gary C, Cartolaro P, Lolas-Caneo M, Calonnec A, 2011. Powdery mildew development is positively influenced by grapevine vegetative growth induced by different soil management strategies. Crop Protection 30, 116877.
  • Whalen MC, 2005. Host defence in a developmental context. Molecular Plant Pathology 6, 34760.
  • Winkler AJ, 1970. General Viticulture. Berkeley, CA, USA: University of California Press.