Microbial Community Structure in Disease-Suppressive Soils as Revealed by Metabarcoding

Microbial Community Structure in Disease-Suppressive Soils as Revealed by Metabarcoding

Plant diseases caused by soil-borne bacterial pathogens result in significant yield losses and these pathogens are the most difficult to control due to their persistence in debris and soil. Enhancement of soil-natural disease suppression could be an effective option to control these diseases through...

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Hauptverfasser: López-Alvarez, Diana, Pardo, Juan M., Leiva, Ana M., Alvarez, Elizabeth, Ceballos, German, Cuellar, Wilmer
Format: Dataset
Sprache:eng
Schlagworte:
Agricultural Sciences
bacteria control
Biodiversity for Food and Agriculture
CGIAR Research Program on Roots, Tubers and Bananas
disease control
diseases
Latin America and the Caribbean
Plant Protection
soil
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Zusammenfassung:Plant diseases caused by soil-borne bacterial pathogens result in significant yield losses and these pathogens are the most difficult to control due to their persistence in debris and soil. Enhancement of soil-natural disease suppression could be an effective option to control these diseases through soil management practices. The suppression of soil-borne diseases of soil microbial bacteria and fungi communities was analyzed in soils suppressive and non-suppressive for Moko disease caused by Ralstonia solanacearum in Quindío, Colombia, using bacterial tag-encoded FLX titanium amplicon pyrosequencing (bTEFAP) targeting 16Sr RNA and ITS genes.
DOI:10.7910/dvn/1jqxye