SEARCH

SEARCH BY CITATION

References

  • Andrews J.H., Harris R.F. (2000) The ecology and biogeography of micro-organisms on plant surfaces. Annual Review of Phytopathology, 38, 145180.
  • Annapurna Y., Rao P.R. (1982) Influences of foliar applications of pesticide on leaf extracts and phylloplane microflora of corn. Folia Microbiologica, 27, 250255.
  • Atkins S.D., Fitt B.D.L., Fraaije B., Lucas J.A., Stonard J.F., Lynott J., Newton A.C. (2010) The epidemiological importance of asymptomatic infection of winter barley by Rhynchosporium secalis and its consequences for crop protection and breeding. Proceedings Crop Protection in Northern Britain 2010, 8186.
  • Balstruschat H., Fodor J., Harrach B., Niemczyk E., Barna B., Gullner G., Janeczko A., Kogel K.-H., Schaefer P., Schwarczinger I., Zuccaro A. Skoczowski A. (2008) Salt tolerance of barley induced by the root endophyte Piriformospora indica is associated with a strong increase in antioxidants. New Phytologist, 180, 501510.
  • Bari R., Jones J.D. (2009) Role of plant hormones in plant defence responses. Plant Molecular Biology, 69, 473488.
  • Beattie G.A., Lindow S.E. (1995) The secret life of foliar bacteria pathogens on leaves. Annual Review of Phytopathology, 33, 145172.
  • Beattie G.A., Lindow S.E. (1999) Bacterial colonization of leaves: a spectrum of strategies. Phytopathology, 89, 353359.
  • Beckers G.J.M., Spoel S.H. (2006) Fine-tuning plant defence signalling: salicylate versus jasmonate. Plant Biology, 8, 110.
  • Berg G., Krechel A., Ditz M., Sikora R.A., Ulrich A., Hallmann J. (2005) Endophytic and ectophytic potato-associated bacterial communities differ in structure and antagonistic function against plant pathogenic fungi. FEMS Microbiology Ecology, 51, 215229.
  • Bingham I.J., Newton A.C. (2009) Crop tolerance of foliar pathogens: possible mechanisms and potential for exploitation. In Disease Control in Crops – Biological and Environmentally Friendly Approaches, pp. 142161. Ed. D.Walters. Chichester, UK: Wiley-Blackwell.
  • Blakeman J.P. (1993) Pathogens in the foliar environment. Plant Pathology, 42, 479493.
  • Bolton M.D. (2009) Primary metabolism and plant defence – fuel for the fire. Molecular Plant–Microbe Interactions, 22, 487497.
  • Brandl M. (2006) Fitness of human enteric pathogens on plants and implication for food safety. Annual Review of Phytopathology, 44, 367392.
  • Breeze E.M., Dix N.J. (1981) Seasonal analysis of the fungal community of Acer platanoides leaves. Transactions of the British Mycological Society, 77, 321328.
  • Brooks D.H., Dawson M.G. (1968) Influence of direct-drilling of winter wheat on incidence of take-all and eyespot. Annals of Applied Biology, 61, 5764.
  • Burnett F.J., Hughes G. (2004) The development of a risk assessment method to identify wheat crops at risk from eyespot. HGCA Project Report Number 347. London: Home-Grown Cereals Authority, 91 pp.
  • Carver T.L.W., Thomas B.J. (1990) Normal germling development by Erysiphe graminis on cereal leaves freed of epicuticular wax. Plant Pathology, 39, 367375.
  • Carver T.L.W., Thomas B.J., Ingerson-Morris S.M., Roderick H.W. (1990) The role of the abaxial leaf surface waxes of Lolium spp. in resistance to Erysiphe graminis. Plant Pathology, 39, 573583.
  • Cheplick G.P., Faeth S. (2009) Ecology and evolution of the grass-endophyte symbiosis. Oxford Scholarship Online, DOI: 10.1093/acprof:oso/9780195308082.003.0004..
  • Chi F., Shen S.-H., Cheng H.-P., Jing Y.-X., Yanni Y.G., Dazzo F.B. (2005) Ascending migration of endophytic rhizobia, from roots to leaves, inside rice plants and assessment of benefits to rice growth physiology. Applied and Environmental Micriobiology, 71, 72717278.
  • Cooley M.B., Miller W.G., Mandrell R.E. (2003) Colonization of Arabidopsis thaliana with Salmonella enterica and enterohemorrhagic Escherichia coli O157:H7 and competition by Enterobacter asburiae. Applied and Environmental Microbiology, 69, 49154926.
  • Delmotte N., Knief C., Chaffron S., Innerebner G., Roschitzki B., Schlapbach R., Von Mering C., Vorholt J.A. (2009) Community proteogenomics reveals insights into the physiology of phyllosphere bacteria. Proceedings of the National Academy of Sciences of the United States of America, 109, 1642816433.
  • Dewey F.M., Wong Y., Seery R., Hollins T.W., Gurr S.J. (1999) Bacteria associated with Stagonospora (Septoria) nodorum increase pathogenicity of the fungus. New Phytologist, 144, 489497.
  • Dickinson C.H. (1967) Fungal colonization of Pisum leaves. Transactions of the British Mycological Society, 45, 915927.
  • Duncan J.M., Kennedy D.M., Seemüller E. (1987) Identities and pathogenicities of Phytophthora spp. causing root rot of red raspberry. Plant Pathology, 36, 276289.
  • Ellis S.A., Gooding M.J., Thompson A.J. (1996) Factors influencing the relative susceptibility of wheat cultivars (Triticum aestivum L.) to blackpoint. Crop Protection, 15, 6976.
  • Engelen B., Meinken K., Von Wintzintgerode F., Heuer H., Malkomes H.P., Backhaus H. (1998) Monitoring impact of a pesticide treatment on bacterial soil communities by metabolic and genetic fingerprinting in addition to conventional testing procedures. Applied and Environmental Microbiology, 64, 28142821.
  • Enya J., Shinohara H., Yoshida S., Tsukiboshi T., Negishi H., Suyama K., Tsushima S. (2007) Culturable leaf-associated bacteria on tomato plants and their potential as biological control agent. Microbial Ecology, 53, 524536.
  • Ercolani G.L. (1991) Distribution of epiphytic bacteria on olive leaves and the influence of leaf age and sampling time. Microbial Ecology, 21, 3548.
  • Fountaine J.M., Gravouil C., Daniel T., Harling R., Shepherd T., Taylor J., Dickinson M., Newton A.C. (2009) Leaf wax and cultivar effects on phylloplane organisms and disease in barley. Aspects of Applied Biology, 98, 207212.
  • Fountaine J.M., Shaw M.W., Ward E., Fraaije B.A. (2010) The role of seeds and airborne inoculum in the initiation of leaf blotch (Rhynchosporium secalis) epidemics in winter barley. Plant Pathology, 59, 330337.
  • Fujita K., Suzuki T., Kunoh H., Carver T.L.W., Thomas B.J., Gurr S., Shiraishi T. (2004) Induced inaccessibility in barley cells exposed to extracellular material released by non-pathogenic powdery mildew conidia. Physiological and Molecular Plant Pathology, 64, 169178.
  • Fukui R., Fukui H., Alvarez A.M. (1999) Suppression of bacterial blight by a bacterial community isolated from the guttation fluids of anthuriums. Applied and Environmental Microbiology, 65, 10201028.
  • Gildermacher P.R., Heijne B., Houbraken J., Vromans T., Hoekstra E.S., Boekhout T. (2004) Can phyllosphere yeasts explain the effects of scab fungicides on russeting of Elstar apples? European Journal of Plant Pathology, 110, 929937.
  • Glazebrook J. (2005) Contrasting mechanisms of defense against biotrophic and necrotrophic pathogens. Annual Review of Phytopathology, 43, 205227.
  • Gu L., Bai Z., Jin B., Hu Q., Wang H., Zhuang G., Zhang H. (2010) Assessing the impact of fungicide enostroburin application on bacterial community in wheat phyllosphere. Journal of Environmental Sciences, 22, 134141.
  • Hardwick N., Slough J.E., Gladders P. (2002) Winter Barley: A Survey of Disease 2002. York, UK: Defra, CSL.
  • Harrison J.G. (1983) Growth of lesions caused by Botrytis fabae on field bean leaves in relation to non-enzymic phytotoxins, pectic enzymes and osmotica. Annals of Botany, 52, 823838.
  • Harrison J.G. (1985) Develop control measures by studying the biology of the chocolate spot disease. Scottish Crop Research Institute Annual Report for 1984, p. 102.
  • Harrison J.G. (1988) The biology of Botrytis spp. on Vicia beans and chocolate spot disease – a review. Plant Pathology, 37, 168201.
  • Hause B., Fester T. (2005) Molecular and cell biology of arbuscular mycorrhizal symbiosis. Planta, 221, 184196.
  • Heaney S.P., Hall A.A., Davies S.A., Olaya G. (2000) Resistance to fungicides in the QoI-STAR cross-resistance group: current perspectives. Proceedings of the BCPC Conference– Pest & Disease, 2, 755762.
  • Hofstein R., Daoust R.A., Aeschlimann J.P. (1996) Constraints to the development of biofungicides: the example of ‘AQ-10’, a new product for controlling powdery mildews. Entomophaga, 41, 455460.
  • Holden N., Pritchard L., Toth I. (2009) Colonization outwith the colon: plants as alternative environmental reservoir for human pathogenic enterobacteria. FEMS Microbiology Reviews, 33, 689703.
  • Humphry D., Andrews M., Santos S., James E., Vinogradova L., Perin L., Reis V., Cummings S. (2007) Phylogenetic assignment and mechanism of action of a crop growth promoting Rhizobium radiobacter strain used as a biofertiliser on graminaceous crops in Russia. Antonie van Leeuwenhoek, 91, 105113.
  • Ishii H., Fraaije B.A., Sugiyama T., Noguchi K., Nishimura K., Takeda T., Amano T., Hollomon D.W. (2001) Occurrence and molecular characterization of strobilurin resistance in cucumber powdery mildew. Phytopathology, 91, 11661171.
  • Jacques M.-A., Kinkel L.L., Morris C.E. (1995) Population sizes, immigration and growth of epiphytic bacteria on leaves of different ages and positions of field-grown endive (Cichorium endivia var. latifolia). Applied Environmental Microbiology, 61, 636644.
  • Jalaluddin M., Jenkyn J.F. (1996) Effects of wheat crop debris on the sporulation and survival of Pseudocercosporella herpotrichoides. Plant Pathology, 45, 10521064.
  • Jarosch B., Kogel K.-H., Schaffrath U. (1999) The ambivalence of the barley Mlo locus: mutations conferring resistance against powdery mildew (Blumeria graminis f. sp. hordei) enhance susceptibility to the rice blast fungus Magnaporthe grisea. Molecular Plant–Microbe Interactions, 12, 508514.
  • Johnson K.H., Stockwell V.O. (1998) Management of fire blight: a case study in microbial ecology. Annual Review of Phytopathology, 36, 227248.
  • Jumpponen A., Jones K.L. (2009) Massively parallel 454 sequencing indicates hyperdiverse fungal communities in temperate Quercus macrocarpa phyllosphere. New Phytologist, 184, 438448.
  • Jumpponen A., Jones K.L. (2010) Seasonally dynamic fungal communities in the Quescus macrocarpa phyllosphere differ between urban and nonurban environments. New Phytologist, 186, 496513.
  • Jung C., Yeu S.Y., Koo Y.J., Kim M., Choi Y.D., Cheong J.-J. (2007a) Transcript profile of transgenic Arabidopsis constitutively producing methyljasmonate. Journal of Plant Biology, 50, 1217.
  • Jung C., Lyou S.H., Yeu S.Y., Kim M.A., Rhee S., Kim M., Lee J.S., Choi Y.D., Cheong J.-J. (2007b) Microarray based screening of jasmonate-responsive genes in Arabidopsis thaliana. Genetics and Genomics, 26, 10531063.
  • Kildea S., Ranbotyn V., Khan M.R., Fagan B., Leonard G., Mullins E., Doohan F.M. (2008) Bacillus megaterium shows potential for the biocontrol of septoria tritici blotch. Biological Control, 47, 3745.
  • Kinkel L.L. (1997) Microbial population dynamics on leaves. Annual Review of Phytopathology, 35, 327347.
  • Kiss L. (2003) A review of fungal antagonists of powdery mildews and their potential as biocontrol agents. Pest Management Science, 59, 475483.
  • Kniskern J.M., Traw M.B., Bergelson J. (2007) Salicylic acid and jasmonic acid signaling defense pathways reduce natural bacterial diversity on Arabidopsis thaliana. Molecular Plant–Microbe Interactions, 20, 15121522.
  • Kraiczy P., Haase U., Gencic S., Flindt S., Anke T., Brandt U., Von Jagow G. (1996) The molecular basis for the natural resistance of the cytochrome bc1 complex from strobilurin-producing basidiomycetes to center Qp inhibitors. European Journal of Biochemistry, 235, 5463.
  • Kuntzsch E. (1990) Yield, yield components and infection with Pseudocercosporella herpotrichoides during long-term winter wheat monoculture in the Etzdorf teaching and research station 1972–1987. Wissenschaftliche Zeitschrift Martin-Luther-Universitaet Halle-Wittenberg Mathematisch- Naturwissenschaftliche Reihe, 39, 107113.
  • Kutter S., Hartmann A., Schmid M. (2006) Colonization of barley (Hordeum vulgare) with Salmonella enterica and Listeria spp. FEMS Microbiological Ecology, 56, 262271.
  • Leveau J. (2009) Life on leaves. Nature, 461, 741.
  • Linde C.C., Zala M., Ceccarelli S., McDonald B.A. (2003) Further evidence for sexual reproduction in Rhynchosporium secalis based on distribution and frequency of mating-type alleles. Fungal Genetics and Biology, 40, 115125.
  • Lindow S.E., Brandl M.T. (2003) Microbiology of the phyllosphere. Applied and Environmental Microbiology, 69, 18751883.
  • Liu W., Thynne B. (2009) The ability of Rhizobium radiobacter strain 204 to inhibit the growth of Fusarium culmorum. Aspects of Applied Biology, 98, 217220.
  • Makepeace J.C., Oxley S.J.P., Havis N.D., Hackett R., Burke J.I., Brown J.K.M. (2007) Association between fungal and abiotic leaf spotting and the presence of mlo alleles in barley. Plant Pathology, 56, 934942.
  • Maleck K., Levine A., Eulgem T., Morgan A., Schmid J., Lawton K.A., Dangl J.L., Dietrich R.A. (2001) The transcriptome of Arabidopsis thaliana during systemic acquired resistance. Nature Genetics, 26, 403410.
  • Meakin H., Dickinson M.J. (2006) Microbial contamination of ready-to-eat salad vegetables. Outlooks on Pest Management, 17, 225227.
  • Mercier J., Lindow S.E. (2000) Role of leaf surface sugars in colonisation of plants by bacterial epiphytes. Applied Environmental Microbiology, 66, 369374.
  • Montanari M., Innocenti G., Toderi G. (2006) Effects of cultural management on the foot and root disease complex of durum wheat. Journal of Plant Pathology, 88, 149156.
  • Murphy S.K., Rizzo D.M. (2005) Incidence of Phytophthora ramorum, P. nemorosa and P. pseudosyringae in three coastal California forest communities. Sudden Oak Death Second Science Symposium: The state of our knowledge, January 18-251, Monterey, California.
  • Nandi A.S., Sen P.S. (1981) Utility of some nitrogen-fixing microorganisms in the phyllosphere of crop plants. Plant and Soil, 63, 465476.
  • Newton A.C., Hackett C.A. (1994) Subjective components of mildew assessment on spring barley. European Journal of Plant Pathology, 100, 395412.
  • Newton A.C., Guy D.C. (1998) Exploration and exploitation strategies of powdery mildew on barley cultivars with different levels of nutrients. European Journal of Plant Pathology, 104, 829833.
  • Newton A.C., Toth I.K. (1999) Helper bacteria and pathogenicity assessments. New Phytologist, 144, 385386.
  • Newton A.C., Caten C.E., Johnson R. (1985) Variation for isozymes and double-stranded RNA among isolates of Puccinia striiformis and two other cereal rusts. Plant Pathology, 34, 235247.
  • Newton A.C., Guy D.C., Gaunt R.E., Thomas W.T.B. (2000) The effect of powdery mildew inoculum pressure and fertiliser level on disease tolerance in spring barley. Journal of Plant Diseases and Protection, 107, 6773.
  • Newton A.C., Guy D.C., Nadziak J., Gacek E. (2002) The effect of inoculum pressure, germplasm selection and environment on spring barley cultivar mixtures efficacy. Euphytica, 125, 325335.
  • Newton A.C., Searle J., Hackett C.A., Cooke D.E.L. (2001) Variability in pathotype, aggressiveness, RAPD profile, and rDNA ITS1 sequences of UK isolates of Rhynchosporium secalis. Journal of Plant Disease and Protection, 108, 446458.
  • Newton A.C., Lees A., Hilton A., Thomas W.T.B. (2003) Susceptibility of oat cultivars to blackened groats: causes and remedies. Plant Breeding, 122, 125130.
  • Newton A.C., Toth I.K., Neave P., Hyman L. (2004) Bacterial inoculum from a previous crop affects fungal disease development on subsequent non-host crops. New Phytologist, 163, 133138.
  • Newton A.C., Begg G., Swanston J.S. (2009) Deployment of diversity for enhanced crop function. Annals of Applied Biology, 154, 309322.
  • Newton A.C., Aker T., Baresel J.P., Bebeli P., Bettencourt E., Bladenopoulos K.V., Czembor J.H., Fasoula D.A., Katsiotis A., Koutis K., Koutsika-Sotiriou M., Kovacs G., Larsson H., Pinheiro de Carvalho M.A.A., Rubiales D., Russell J., Dos Santos T.M.M., Vaz Patto M.C. (2010a) Cereal landraces for sustainable agriculture: a review. Agronomy for Sustainable Development, 30, 237269.
  • Newton A.C., Fitt B.D.L., Atkins S.D., Walters D.R., Daniell T.J. (2010b) Pathogenesis, mutualism and parasitism, in the trophic space of microbial–plant interactions. Trends in Microbiology, 18, 365373.
  • O’Donnell P.J., Schmelz E., Block A., Miersch O., Wasternack C., Jones J.B., Klee H.J. (2003) Multiple hormones act sequentially to mediate a susceptible tomato pathogen defence response. Plant Pathology, 133, 11811189.
  • Parker S.R., Welham S., Paveley N.D., Foulkes J., Scott R.K. (2004) Tolerance of septoria leaf blotch in winter wheat. Plant Pathology, 53, 110.
  • Paulitz T.C., Bélanger R.R. (2001) Biological control in greenhouse systems. Annual Review of Phytopathology, 39, 103133.
  • Perelló A.E., Moreno M.V., Mónaco C., Simón M.R., Cordo C. (2009) Biological control of Septoria tritici blotch on wheat by Trichoderma spp. under field conditions in Argentina. Biocontrol, 54, 113122.
  • Perombelon M.C.M., Hyman L.J. (1989) Survival of soft rot coliforms, Erwinia carotovora subsp. carotovora and E. carotovora subsp. atroseptica in soil in Scotland. Journal of Applied Bacteriology, 66, 95106.
  • Pham G., Singh A., Malla R., Kumari R., Prasad R., Sachdev M., Rexer K.-H., Kost G., Luis P., Kaldorf M., Buscot F., Herrmann S., Peskan T., Oelmueller R., Saxena A., Declerck S., Mittag M., Stabentheiner E., Hehl S., Varma A. (2004) Interaction of Piriformospora indica with diverse micro-organisms and plants. In Plant Surface Microbiology, pp. 237265. Eds A.Varma, L.Abbott, D.Werner and R.Hampp. Berlin, Heidelberg, New York: Springer.
  • Preece T.F., Dickinson C.H. (1971) Ecology of Leaf Surface Micro-organisms. London: Academic Press.
  • Pu X.-A., Goodman R. (1993) Tumor formation by Agrobacterium tumefaciens is suppressed by Agrobacterium radiobacter HLB-2 on grape plants. American Journal of Enology and Viticulture, 44, 249254.
  • Roden L.C., Ingle R.A. (2009) Lights, rhythms, infection: the role of light and the circadian clock in determining the outcome of plant–pathogen interactions. The Plant Cell, 21, 25462552.
  • Ruinen J. (1956) Occurrence of the Beijerinckia species in the phyllosphere. Nature, 177, 220221.
  • Saikkonen K., Faeth S.H., Helander M., Sullivan T.J. (1998) Fungal endophytes: a continuum of interactions with host plants. Annual Review of Ecology and Systematics, 29, 319343.
  • Sandhu A., Halverson L.J., Beattie G.A. (2007) Bacterial degradation of airborne phenol in the phyllosphere. Environmental Microbiology, 9, 383392.
  • Schaefer P., Pfiffi S., Voll L.M., Zajic D., Chandler P.M., Waller F., Scholz U., Pons-Kuehnemann J., Sonnewald S., Sonnewald U., Kogel K.-H. (2009) Manipulation of the plant innate immunity and gibberellin as factor of compatibility in the mutualistic association of barley roots with Piriformospora indica. The Plant Journal, 59, 461474.
  • Serfling A., Wirsel S., Lind V., Deising H. (2007) Performance of the biocontrol fungus Piriformospora indica on wheat under greenhouse and field conditions. Phytopathology, 97, 523531.
  • Sharma M., Schmid M., Rothballer M., Hause G., Zuccaro A., Imani J., Kaempfer P., Domann E., Schaefer P., Hartmann A., Kogel K.-H. (2008) Detection and identification of bacteria intimately associated with fungi of the order Sebacinales. Cellular Microbiology, 10, 22352246.
  • Smedegård-Petersen V., Stølon O. (1981) Effect of energy-requiring defense reactions on yield and grain quality in a powdery mildew-resistant barley cultivar. Phytopathology, 71, 396399.
  • Smedegård-Petersen V., Tolstrup K. (1985) The limiting effect of disease resistance on yield. Annual Review of Phytopathology, 23, 475490.
  • Smedegård-Petersen V., Tolstrup K. (1987) Yield-reducing effects of saprophytic leaf fungi in barley crops. In Microbiology of the Phylosphere, pp. 160171. Eds N.J.Fokkema and J.Van Heuval. Cambridge: Cambridge University Press.
  • Suda W., Nagasaki A., Shishido M. (2009) Powdery mildew-infection changes bacterial community composition in the phyllosphere. Microbes and Environment, 24, 217223.
  • Tao Y., Xie Z., Chen W., Glazebrook J., Chang H.-S., Han B., Zhu T., Zou G., Katagiri F. (2003) Quantitative response of Arabidopsis responses during compatible and incompatible interactions with the bacterial pathogen Pseudomonas syringae. The Plant Cell, 15, 317330.
  • Thompson I.P., Bailey M.J., Fenlon J.S., Fermor T.R., Lilley A.K., Lynch J.M., McCormack P.J., McQuilken M.P., Purdy K.J., Rainey P.B., Whipps J.M. (1993) Quantitative and qualitative seasonal changes in the microbial community from the phyllosphere of sugar beet (Beta vulgaris). Plant and Soil, 150, 177191.
  • Torsvik V., Goksøyr J., Daae F.L. (1990) High diversity in DNA in soil bacteria. Applied and Environmental Microbiology, 56, 782787.
  • Toth I.K., Pritchard L., Birch P.R.J. (2006) Comparative genomics reveals what makes an enterobacterial plant pathogen. Annual Review of Phytopathology, 44, 305336.
  • Traw M.B., Kniskern J.M., Bergelson J. (2007) SAR increases fitness of Arabidopsis thaliana in the presence of natural bacterial pathogens. Evolution, 61, 24442449.
  • Tukey H.B. (1970) The leaching of substances from plants. Annual Review of Plant Physiology, 21, 305324.
  • Von Bodman S.B., Bauer W.D., Copin D.L. (2003) Quorum sensing in plant-pathogenic bacteria. Annual Review of Phytopathology, 41, 455482.
  • Walker T.S., Pal Bais H., Grotewold E., Vivanco J.M. (2003) Root exudation and rhizosphere biology. Plant Physiology, 132, 4451.
  • Waller F., Achatz B., Baltruschat H., Fodor J., Becker K., Fischer M., Heier T., Hueckelhoven R., Neumann C., Von Wettstein D., Franken P., Kogel K.-H. (2005) The endophytic fungus Piriformospora indica reprograms barley to salt-tolerance, disease resistance and higher yield. Proceedings of the National Academy of Sciences of the United States of America, 102, 1338613391.
  • Waller F., Mukherjee K., Deshmukh S., Achatz B., Sharma M., Schaefer P., Kogel K.-H. (2008) Systemic and local modulation of plant responses by Piriformospora indica and related Sebacinales species. Journal of Plant Physiology, 165, 6070.
  • Walters D., Newton A.C., Lyon G.D. (2005) Induced resistance: helping plants to help themselves in the fight against disease. The Biologist, 52, 2833.
  • Walters D., Lyon G.D., Newton A.C. (2007) Induced Resistance for Plant Defence: A Sustainable Approach to Crop Protection, 258 pp. Eds D.Walters, G.Lyon and A.Newton. Oxford, UK: Blackwell Publishing.
  • Wilson M., Lindow S.E. (1994) Inoculum density-dependent mortality and colonisation of the phyllosphere by Pseudomonas syringae. Applied and Environmental Microbiology, 60, 22322237.
  • Yang C.-H., Crowley D.E., Borneman J., Keen N.T. (2001) Microbial phyllosphere populations are more complex than previously realized. Proceedings of the National Academy of Sciences of the United States of America, 98, 38893894.
  • Yarham D.J. (1975) The effect of non-ploughing on cereal diseases. Outlook on Agriculture, 8, 245247.
  • Yarham D.J., Norton J. (1981) Effects of cultivation methods on disease. In Strategies for the Control of Cereal Disease, pp. 157166. Eds J.F.Jenkyn and R.T.Plumb. Oxford, UK: Blackwell Scientific Publications.
  • Zhang B., Bai Z., Hoefel D., Tang L., Wang L., Li B., Li Z., Zhuang G. (2009) The impact of cypermethrin pesticide application on the non-target microbial community of the pepper plant phyllosphere. Science of the Total Environment, 407, 19151922.