Stem rot affects the structure of rhizosphere microbiome in Berseem Clover (Trifolium alexandrinum)

Author:

Mukhtar Salma,Ahmad Zain,Khan Noor,John Michael,Aiysha DalaqORCID

Abstract

AbstractRhizosphere microbiome plays an essential role in maintaining plant health and productivity. Fungal and bacterial diseases may affect the rhizosphere-associated microbial communities and overall structure of plant microbiome. Here, we studied the effect of stem rot of berseem clover on the bacterial and fungal communities associated with the rhizosphere. We analyzed the rhizosphere-associated bacterial and fungal microbiome from healthy and infected berseem clover collected from three sampling sites by using 16S rRNA and ITS based Illumina sequencing metabarcoding approach. Microbiome analysis showed that healthy plants had higher bacterial and fungal diversity as compared to stem rot infected plants. At the genus level, bacterial generaRhizobiumandComamonaswere more abundant in healthy plants whilePantoeawas more abundant in infected plants and fungal generaSclerotinia,FusariumandCladorrhinumwere more abundant in infected plants whileMicrodochiumandCladosporiumwere distinctively abundant in healthy Berseem. Functional characterization of bacterial and fungal microbiomes revealed that bacterial communities from infected plants showed more abundance of bacteria with functions replication and repair, enzyme families and biosynthesis of other secondary metabolites as compared to healthy plant microbiome and decreased in fungal groups including arbuscular mycorrhiza and soil saprotrophs and an increase in plant saprotrophs and fungal parasite-plant pathogens. This study provides comprehensive information about the structure and composition of bacterial and fungal communities associated with the berseem clover rhizosphere that could be utilized for future research on the control of stem rot of berseem clover.

Publisher

Cold Spring Harbor Laboratory

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