04257nam 2200637Ia 450 991081015040332120230418104056.01-280-85797-897866108579751-84593-178-5(CKB)1000000000337506(EBL)295124(OCoLC)156845466(SSID)ssj0000202251(PQKBManifestationID)11216688(PQKBTitleCode)TC0000202251(PQKBWorkID)10250783(PQKB)10040364(MiAaPQ)EBC295124(Au-PeEL)EBL295124(CaPaEBR)ebr10176252(CaONFJC)MIL85797(EXLCZ)99100000000033750620051028d2006 uy 0engur|n|---|||||txtccrMicrobial ecology of aerial plant surfaces[electronic resource] /edited by M.J. Bailey ... [et al.]Wallingford CABI20061 online resource (347 p.)Conference proceedings.1-84593-061-4 Contents; Preface; Contributors; Section I: Biodiversity and Population Genetics of Phyllosphere Communities; 1. Phyllosphere Microbiology: A Perspective; 2. Microbial Diversity in the Phyllosphere and Rhizosphere of Field Grown Crop Plants: Microbial Specialisation at the Plant Surface; 3. Diversity, Scale and Variation of Endophytic Fungi in Leaves of Tropical Plants; 4. Microorganisms in the Phyllosphere of Temperate Forest Ecosystems in a Changing Environment; Section II: Spatial Distribution and Biofilms; 5. Bacterial Biofilm Formation, Adaptation and Fitness6. Bacterial Assemblages on Plant Surfaces7. The Role of Plant Genetics in Determining Above- and Below-ground Microbial Communities; 8. A Survey of A-L Biofilm Formation and Cellulose Expression Amongst Soil and Plant-Associated Pseudomonas Isolates; Section III: Biological Control and Pathogenicity; 9. Biological Control of Plant Diseases by Phyllosphere Applied Biological Control Agents; 10. Ecophysiology of Biocontrol Agents for Improved Competence in the Phyllosphere; 11. Compost Teas: Alternative Approaches to the Biological Control of Plant DiseasesSection IV: Gene Expression and Phyllosphere Genomics12. Molecular Interactions at the Leaf Surface: Xanthomonas and its Host; 13. Erwiniae: Genomics and the Secret Life of a Plant Pathogen; 14. Host-Pathogen Interactions of Relevance to the Phyllosphere; Section V: Leaf Colonisation and Dispersal; 15. Effects of Endophytes on Colonisation by Leaf Surface Microbiota; 16. Plant Control of Phyllosphere Diversity: Genotype Interactions with Ultraviolet-B Radiation; The colour plate; 17. Population Growth and the Landscape Ecology of Microbes on Leaf Surfaces18. What DNA Microarrays Can Tell Us About Bacterial Diversity: A New Light on an Old QuestionSection VI: Aerobiology and Plant Surface Microbiology; 19. Human Pathogens and the Health Threat of the Phyllosphere; 20. Post-harvest Spoilage of Wheat Grains: Malodour Formation and the Infection Process; 21. Atmospheric Composition and the Phyllosphere: The Role of Foliar Surfaces in Regulating Biogeochemical Cycles; Index; A; B; C; D; E; F; G; H; I; L; M; N; O; P; Q; R; S; T; U; V; W; X; Y; ZAll aerial plant surfaces are inhabited by diverse assemblages of microorganisms. These organisms have profound effects on plant health and thus impact on ecosystem and agricultural functions. Based on proceedidngs from the 8th International Symposium on the microbiology of aerial plant surfaces, held in Oxford 2005.Plant surfacesMicrobiologyCongressesLeavesMicrobiologyCongressesPhyllosphereMicrobiologyAriel plant surfacesPlant surfacesMicrobiologyLeavesMicrobiology579.17579/.17Bailey Mark J1609451MiAaPQMiAaPQMiAaPQBOOK9910810150403321Microbial ecology of aerial plant surfaces3936724UNINA