The ‘microbiome counterattack’: Insights on the soil and root‐associated microbiome in diverse chickpea and lentil genotypes after an erratic rainfall event

• Published in: Environmental microbiology reports Vol. 15; no. 6; pp. 459 - 483
• Main Authors: Brescia, Francesca, Sillo, Fabiano, Franchi, Elisabetta, Pietrini, Ilaria, Montesano, Vincenzo, Marino, Giovanni, Haworth, Matthew, Zampieri, Elisa, Fusini, Danilo, Schillaci, Martino, Papa, Roberto, Santamarina, Chiara, Vita, Federico, Chitarra, Walter, Nerva, Luca, Petruzzelli, Giannantonio, Mennone, Carmelo, Centritto, Mauro, Balestrini, Raffaella
• Format: Journal Article
• Language: English
• Published: Hoboken, USA John Wiley & Sons, Inc 01.12.2023
• Subjects: Bacteria - genetics; Chickpeas; Cicer; Climate change; Fungal diseases; Fungi; Genotype; Genotypes; Legumes; Lens Plant; Microbiomes; Microbiota; Microbiota - genetics; Microorganisms; Plant Roots - microbiology; Predation; Rainfall; Seeds; Soil; Soil bacteria; Soil fertility; Soil Microbiology; Soil microorganisms; Soils; Structure-function relationships; Water shortages
• ISSN: 1758-2229; 1758-2229
• DOI: 10.1111/1758-2229.13167

Legumes maintain soil fertility thanks to their associated microbiota but are threatened by climate change that causes soil microbial community structural and functional modifications. The core microbiome associated with different chickpea and lentil genotypes was described after an unexpected climatic event. Results showed that chickpea and lentil bulk soil microbiomes varied significantly between two sampling time points, the first immediately after the rainfall and the second 2 weeks later. Rhizobia were associated with the soil of the more productive chickpea genotypes in terms of flower and fruit number. The root‐associated bacteria and fungi were surveyed in lentil genotypes, considering that several parcels showed disease symptoms. The metabarcoding analysis revealed that reads related to fungal pathogens were significantly associated with one lentil genotype. A lentil core prokaryotic community common to all genotypes was identified as well as a genotype‐specific one. A higher number of specific bacterial taxa and an enhanced tolerance to fungal diseases characterized a lentil landrace compared to the commercial varieties. This outcome supported the hypothesis that locally adapted landraces might have a high recruiting efficiency of beneficial soil microbes.