Abstract
The rhizosphere microbiome plays crucial roles in different root-associated biological functions, especially regulating plant defense systems. Huanglongbing (HLB) disease, caused by Candidatus Liberibacter species, is a disaster threat to the global citrus industry. This study investigates changes in rhizosphere bacterial communities of Citrus sinensis trees infected by Candidatus Liberibacter asiaticus (CLas). We performed the high-throughput sequencing of the rhizosphere-associated bacterial metagenome and identified taxonomic profiles. Alpha diversity based on Shannon and Chao1 indices, and beta diversity based on Bray-Curtis dissimilarity and the UniFrac indices, revealed significant differences in the composition and structure of the rhizosphere microbiome between CLas-infected and CLas-free trees. We achieved significant relative abundance at the phylum and family, and genus levels. The abundance of Pseudomonas, Chryseobacterium, and an unknown genus belonging to Aurantimonadaceae was significantly suppressed in infected trees, while Planococcus and an unknown genus belonging to Caulobacteraceae were significantly enriched. These results confirm that CLas have dramatically altered the structure and composition of the rhizosphere microbiome. These changes discovered some valuable biomarkers related to this disease. These clues might be applied in microbial engineering of the rhizosphere to control HLB.