Microbial phyllosphere populations are more complex than previously realized.
about
Species composition of bacterial communities influences attraction of mosquitoes to experimental plant infusionsOviposition responses of the mosquitoes Aedes aegypti and Aedes albopictus to experimental plant infusions in laboratory bioassaysIdentification of bacteria and bacteria-associated chemical cues that mediate oviposition site preferences by Aedes aegyptiThe endophytic symbiont Epichloë festucae establishes an epiphyllous net on the surface of Lolium perenne leaves by development of an expressorium, an appressorium-like leaf exit structureCommunity structures of N2 -fixing bacteria associated with the phyllosphere of a Holm oak forest and their response to drought.Fate of Escherichia coli O157:H7 and Salmonella enterica in the manure-amended soil-plant ecosystem of fresh vegetable crops: a review.Phylloepiphytic interaction between bacteria and different plant species in a tropical agricultural system.Cultivation-dependent and -independent approaches for determining bacterial diversity in heavy-metal-contaminated soil.Distinctive phyllosphere bacterial communities in tropical trees.Culture-dependent and -independent approaches establish the complexity of a PAH-degrading microbial consortium.Individual microflora beget unique oral microcosms.Use of episcopic differential interference contrast microscopy to identify bacterial biofilms on salad leaves and track colonization by Salmonella Thompson.Attached bacterial populations shared by four species of aquatic angiospermsBacterial diversity analysis of Huanglongbing pathogen-infected citrus, using PhyloChip arrays and 16S rRNA gene clone library sequencingThe ecology of the phyllosphere: geographic and phylogenetic variability in the distribution of bacteria on tree leaves.Both leaf properties and microbe-microbe interactions influence within-species variation in bacterial population diversity and structure in the lettuce (Lactuca Species) phyllosphereResilience of the natural phyllosphere microbiota of the grapevine to chemical and biological pesticides.Culture-dependent and culture-independent assessment of bacteria in the apple phyllosphere.Changes in spinach phylloepiphytic bacteria communities following minimal processing and refrigerated storage described using pyrosequencing of 16S rRNA amplicons.Captured diversity in a culture collection: case study of the geographic and habitat distributions of environmental isolates held at the american type culture collection.Bacterial community diversity and variation in spray water sources and the tomato fruit surface.Geographical location determines the population structure in phyllosphere microbial communities of a salt-excreting desert treeComposition of epiphytic bacterial communities differs on petals and leaves.Sampling and Selection Factors that Enhance the Diversity of Microbial Collections: Application to Biopesticide Development.Mutualistic ants as an indirect defence against leaf pathogens.Variability of bacterial community composition on leaves between and within plant species.Bacterial communities associated with the leaves and the roots of Arabidopsis thaliana.Bacterial population dynamics during the ensiling of Medicago sativa (alfalfa) and subsequent exposure to air.Phyllosphere bacterial community of floating macrophytes in paddy soil environments as revealed by illumina high-throughput sequencing.Identification of the bacterial community responsible for traditional fermentation during sour cassava starch, cachaça and minas cheese production using culture-independent 16s rRNA gene sequence analysis.Microbiology of the phyllosphere.A synthetic community approach reveals plant genotypes affecting the phyllosphere microbiotaResponse of phyllosphere bacterial communities to elevated CO2 during rice growing season.Elucidation of the transmission patterns of an insect-borne bacterium.Contrasting diversity of epibiotic bacteria and surrounding bacterioplankton of a common submerged macrophyte, Potamogeton crispus, in freshwater lakes.Spatial structuring of bacterial communities within individual Ginkgo biloba trees.Bacterial communities in the phylloplane of Prunus species.Bacterial communities associated with surfaces of leafy greens: shift in composition and decrease in richness over time.Bacterial populations on the surfaces of organic and conventionally grown almond drupes.Molecular analysis of the subgingival microbiota in health and disease
P2860
Q28656124-6CC4DFD3-6D60-4302-8520-3F1AA88EF67EQ28656129-E05B290E-2639-4921-A6F3-EB32AA2939A0Q28656321-90217114-C063-400A-A7FE-D91A8D281540Q28821705-3278841E-5E71-4BBE-ABC6-549A27018C20Q30661935-8E3CACA4-CD96-469F-97E0-11AD3317D8DBQ30670946-92B76A2D-AB84-4EF4-8216-435179C00D85Q30853563-C6BA46B9-B9D4-4BC2-B802-CAAB2444B9E3Q30943901-CF1DDBD2-5086-433E-A7F5-E147098456C6Q31032034-9446AF36-1ED6-49F1-9C3A-2BEC32521190Q33228754-067D118E-6AB2-490F-BD5C-BABEBF747756Q33240645-FA5C7799-0454-4D40-BB3E-2EA914044E7EQ33313411-B48B25DC-0523-413A-BEF8-193225E4BE96Q33357281-6FE0C642-D640-4D91-A86C-14D513B26F39Q33400675-6B3E16CC-0BB7-4D9E-9814-3FCB28B8459FQ33603468-8FFDACFB-E8C1-435C-B5E6-983AD9D92127Q33720581-EAB0246A-39A5-40ED-AE82-A88CC5E425B0Q33743131-5DFFC62F-59CF-447A-8F9D-68DD35B124FBQ33824080-AAD19D65-AA5C-4F54-804E-E46C30BC906DQ33836288-685AF0DF-5C62-4010-BC44-1033C80CD8A6Q33855967-C0616637-8B9B-46E5-9C6A-89857FCFD203Q33878977-6F660EA0-1812-4EEC-9C45-345141DF9C4EQ34021590-243D8053-ADC8-40CD-BF68-724258538EB6Q34040353-7E0E94BF-8B28-4F86-AA63-ACA6821FE689Q34242132-09F9B450-3F2F-45FC-B70F-82EB763B8A5FQ34395963-1D873A1A-C0A1-4274-AD8C-6DDBCB876F8FQ34473408-2CAD33A9-FA0A-4027-BC19-D0184556A99BQ34606727-149122D5-02C0-46FA-BFBF-01D6DEE71A4AQ34632130-AE001C62-DBB0-446F-956F-FEFED946A6E7Q34777574-28BAECFA-EE72-4C42-9D8A-35ABEAA0F4BFQ34986338-BAAA18DE-2EEB-4431-8700-481911FC423CQ35099538-F67FCA1C-683B-4BFA-B9AB-FEDC206E21DEQ35151600-0E59A0AE-25B8-457E-8A47-9BBBC62EDF68Q35207326-1FEB5E22-6DD1-47B5-AADF-A91A385C47CDQ35210382-CBA009C1-97C7-4711-A3A9-52FF9D1270B7Q35223826-21E7D0D8-48E0-46B1-8929-175D55198166Q35390603-7C60DA3F-542B-4212-81BC-80187BB2C8BCQ35525572-9D20BF28-F4DA-4A60-ADF3-6D8D8C6DCD14Q35531371-2D8DFF2C-C15F-45C5-B8FE-91B30B9691A7Q35631619-CFEB0A20-8EB9-40D2-A8B7-A2274B0E6F7CQ35633463-BE716EA6-6E44-474F-ACBC-763DAB8AE829
P2860
Microbial phyllosphere populations are more complex than previously realized.
description
2001 nî lūn-bûn
@nan
2001 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի մարտին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
Microbial phyllosphere populations are more complex than previously realized.
@en
type
label
Microbial phyllosphere populations are more complex than previously realized.
@en
prefLabel
Microbial phyllosphere populations are more complex than previously realized.
@en
P2093
P2860
P356
P1476
Microbial phyllosphere populations are more complex than previously realized
@en
P2093
P2860
P304
P356
10.1073/PNAS.051633898
P407
P577
2001-03-01T00:00:00Z