Management‐induced shifts in rhizosphere bacterial communities contribute to the control of pathogen causing citrus greening disease
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J. Leach | M. Delgado‐Baquerizo | R. Adair | T. Borch | P. Trivedi | A. Thompson | K. Otto | Kathryn E. Bazany | Jun‐Tao Wang | Juntao Wang
[1] Xingyu Li,et al. Defeating Huanglongbing Pathogen Candidatus Liberibacter asiaticus With Indigenous Citrus Endophyte Bacillus subtilis L1-21 , 2022, Frontiers in Plant Science.
[2] U. Albrecht,et al. Effect of plant biostimulants on root and plant health and the rhizosphere microbiome of citrus trees in huanglongbing-endemic conditions , 2021, Trees.
[3] K. Eversole,et al. Enabling sustainable agriculture through understanding and enhancement of microbiomes. , 2021, The New phytologist.
[4] L. Cai,et al. Disease-induced changes in plant microbiome assembly and functional adaptation , 2020, Microbiome.
[5] J. Sharp,et al. Quantification of insecticide spatial distribution within individual citrus trees and efficacy through Asian citrus psyllid reductions under different application methods. , 2020, Pest management science.
[6] C. Ryu,et al. Disruption of Firmicutes and Actinobacteria abundance in tomato rhizosphere causes the incidence of bacterial wilt disease , 2020, The ISME journal.
[7] T. M. Bezemer,et al. Structure and ecological function of the soil microbiome affecting plant–soil feedbacks in the presence of a soil‐borne pathogen , 2019, Environmental microbiology.
[8] Q. Shen,et al. Deciphering Underlying Drivers of Disease Suppressiveness Against Pathogenic Fusarium oxysporum , 2019, Front. Microbiol..
[9] J. Graham,et al. Nutrient Status and Root Density of Huanglongbing-Affected Trees: Consequences of Irrigation Water Bicarbonate and Soil pH Mitigation with Acidification , 2019, Agronomy.
[10] D. Coleman-Derr,et al. A Plant Growth-Promoting Microbial Soil Amendment Dynamically Alters the Strawberry Root Bacterial Microbiome , 2019, Scientific Reports.
[11] Joseph N. Paulson,et al. Pathogen-induced activation of disease-suppressive functions in the endophytic root microbiome , 2019, Science.
[12] Ji Luo,et al. Evaluation of physicochemical properties and volatile compounds of Chinese dried pork loin curing with plasma-treated water brine , 2019, Scientific Reports.
[13] G. Kowalchuk,et al. Initial soil microbiome composition and functioning predetermine future plant health , 2019, Science Advances.
[14] Da-cheng Wang,et al. Consortium of Plant Growth-Promoting Rhizobacteria Strains Suppresses Sweet Pepper Disease by Altering the Rhizosphere Microbiota , 2019, Front. Microbiol..
[15] S. Hacquard,et al. Microbiota-mediated disease resistance in plants , 2019, PLoS pathogens.
[16] H. Mou,et al. Effects of different long-term farmland mulching practices on the loessial soil fungal community in a semiarid region of China , 2019, Applied Soil Ecology.
[17] Forest Isbell,et al. Diversifying livestock promotes multidiversity and multifunctionality in managed grasslands , 2019, Proceedings of the National Academy of Sciences.
[18] Maria-Dimitra Tsolakidou,et al. Rhizosphere-enriched microbes as a pool to design synthetic communities for reproducible beneficial outputs , 2018, bioRxiv.
[19] M. V. D. van der Heijden,et al. Agricultural intensification reduces microbial network complexity and the abundance of keystone taxa in roots , 2018, The ISME Journal.
[20] J. Prosser,et al. Soil bacterial networks are less stable under drought than fungal networks , 2018, Nature Communications.
[21] Jay T. Lennon,et al. Crop rotational diversity increases disease suppressive capacity of soil microbiomes , 2018 .
[22] K. Yu,et al. Disease-induced assemblage of a plant-beneficial bacterial consortium , 2018, The ISME Journal.
[23] Jiang Liu,et al. Manipulation of the rhizosphere microbial community through application of a new bio-organic fertilizer improves watermelon quality and health , 2018, PloS one.
[24] Yunzeng Zhang,et al. Characterization of Antimicrobial-Producing Beneficial Bacteria Isolated from Huanglongbing Escape Citrus Trees , 2017, Front. Microbiol..
[25] Ioannis A Stringlis,et al. Rhizosphere Microbiome Recruited from a Suppressive Compost Improves Plant Fitness and Increases Protection against Vascular Wilt Pathogens of Tomato , 2017, Front. Plant Sci..
[26] R. A. Bhat,et al. Actinomycetes benefaction role in soil and plant health. , 2017, Microbial pathogenesis.
[27] Zhe Zhang,et al. Influence of film mulching on soil microbial community in a rainfed region of northeastern China , 2017, Scientific Reports.
[28] B. Singh,et al. Keystone microbial taxa regulate the invasion of a fungal pathogen in agro-ecosystems , 2017 .
[29] Y. Elad,et al. Linking the Belowground Microbial Composition, Diversity and Activity to Soilborne Disease Suppression and Growth Promotion of Tomato Amended with Biochar , 2017, Scientific Reports.
[30] B. Singh,et al. Harnessing Host-Vector Microbiome for Sustainable Plant Disease Management of Phloem-Limited Bacteria , 2016, Front. Plant Sci..
[31] E. Baldwin,et al. Huanglongbing: Devastating Disease of Citrus , 2016 .
[32] J. Kirkegaard,et al. Network analysis reveals functional redundancy and keystone taxa amongst bacterial and fungal communities during organic matter decomposition in an arable soil , 2016 .
[33] J. Kalinowski,et al. Soil suppressiveness and its relations with the microbial community in a Brazilian subtropical agroecosystem under different management systems , 2016 .
[34] Peter B Reich,et al. Microbial diversity drives multifunctionality in terrestrial ecosystems , 2016, Nature Communications.
[35] Roland Mumm,et al. Diversity and functions of volatile organic compounds produced by Streptomyces from a disease-suppressive soil , 2015, Front. Microbiol..
[36] Alexandre Jousset,et al. Trophic network architecture of root-associated bacterial communities determines pathogen invasion and plant health , 2015, Nature Communications.
[37] Q. Shen,et al. Manipulating the banana rhizosphere microbiome for biological control of Panama disease , 2015, Scientific Reports.
[38] Sangjo Han,et al. Microbial and biochemical basis of a Fusarium wilt-suppressive soil , 2015, The ISME Journal.
[39] C. Kammann,et al. Biochar and biochar-compost as soil amendments to a vineyard soil: Influences on plant growth, nutrient uptake, plant health and grape quality , 2014 .
[40] J. Graham,et al. Association of ‘Candidatus Liberibacter asiaticus’ root infection, but not phloem plugging with root loss on huanglongbing-affected trees prior to appearance of foliar symptoms , 2014 .
[41] Colin W. Bell,et al. High-throughput Fluorometric Measurement of Potential Soil Extracellular Enzyme Activities , 2013, Journal of visualized experiments : JoVE.
[42] Robert C. Edgar,et al. UPARSE: highly accurate OTU sequences from microbial amplicon reads , 2013, Nature Methods.
[43] Xiaoling Deng,et al. Preliminary research on soil conditioner mediated citrus Huanglongbing mitigation in the field in Guangdong, China , 2013, European Journal of Plant Pathology.
[44] Pelin Yilmaz,et al. The SILVA ribosomal RNA gene database project: improved data processing and web-based tools , 2012, Nucleic Acids Res..
[45] Jonathan Friedman,et al. Inferring Correlation Networks from Genomic Survey Data , 2012, PLoS Comput. Biol..
[46] William A. Walters,et al. Ultra-high-throughput microbial community analysis on the Illumina HiSeq and MiSeq platforms , 2012, The ISME Journal.
[47] Jizhong Zhou,et al. Huanglongbing alters the structure and functional diversity of microbial communities associated with citrus rhizosphere , 2011, The ISME Journal.
[48] P. Bakker,et al. Deciphering the Rhizosphere Microbiome for Disease-Suppressive Bacteria , 2011, Science.
[49] T. Spann,et al. Isolation and Characterization of Beneficial Bacteria Associated with Citrus Roots in Florida , 2011, Microbial Ecology.
[50] Sequence analysis Advance Access publication June 23, 2011 , 2011 .
[51] S. Salzberg,et al. FLASH: fast length adjustment of short reads to improve genome assemblies , 2011, Bioinform..
[52] J. Bové,et al. Huanglongbing: a destructive, newly-emerging, century-old disease of citrus [Asia; South Africa; Brazil; Florida] , 2006 .
[53] T. R. Ellsworth,et al. Microscale determination of inorganic nitrogen in water and soil extracts , 1995 .