4.7 Article

Declined symptoms in Myrica rubra: The influence of soil acidification and rhizosphere microbial communities

Journal

SCIENTIA HORTICULTURAE
Volume 313, Issue -, Pages -

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ELSEVIER
DOI: 10.1016/j.scienta.2023.111892

Keywords

Soil acidification; Rhizosphere microbial communities; Myrica rubra; Declined symptoms

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Declined symptoms seriously damaged the growth and development of Myrica rubra, but the mechanisms involved in this decline are largely unknown. This study compared various factors in the rhizospheric soil of healthy and declined trees and found that planting bayberry aggravated soil acidification and led to significant changes in nutrient-metal element correlation. Microbial communities and metabolites also showed differences between healthy and declined trees. The study provides new insights into the causes of decline in bayberry trees and can assist in prevention and treatment based on plant-soil-microbe interactions.
Declined symptoms seriously damaged the growth and development of Myrica rubra, a typical bayberry tree in southern of Zhejiang Province, China. However, knowledge on the mechanisms involved in this decline remains largely unknown. Here, we compared the physicochemical properties, microbial communities as well as metabolites in rhizospheric soil of healthy and declined Myrica rubra trees from four orchards. We found that planting bayberry aggravated soil acidification in all orchards. Surprisingly, compared with healthy trees, the pH decreased and the correlation between nutrients (N, P, K) and metal elements (Cu, Cr, Ni, As, Cd) changed significantly (p < 0.01) in the rhizospheric soil of declined trees. Moreover, bacteria affiliated with Acidobacteriota, Firmicutes, Rozellomycota and Mucoromycota showed considerable enrichment; whereas in genus level, the relative abundance of Acidothermus, Trichoderma, Geminibasidium decreased by 2.9%, 6.7%, and 33.9%, respectively. Besides, the connection in bacterial or fungal communities became more complicated but unstable. These discoveries along with the upregulation of myristic acid and cinnamic acid via metabolome analysis further indicated the aggravated soil acidification and the varied microbial communities and metabolites that resulted in the declined symptoms in Myrica rubra. This study provides new insights into the causes of declined in bayberry trees and can assist the prevention and treatment of declined trees basing on the plant-soil-microbe interactions.

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