Correlation analysis between continuous cropping obstacle of Gastrodia elata and Ilyonectria fungi and relieving strategy.

Jin-qiang Zhang; Xin Tang; Lan-ping Guo; Ye Yang; Yan-hong Wang; Yuan Wei; Da-peng SU; Hua HE; Liang-yuan LI; Zhen Ouyang; Tao Zhou

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Correlation analysis between continuous cropping obstacle of Gastrodia elata and Ilyonectria fungi and relieving strategy.

Author: Jin-Qiang ZHANG ¹ ; Xin TANG ¹ ; Lan-Ping GUO ² ; Ye YANG ³ ; Yan-Hong WANG ¹ ; Yuan WEI ⁴ ; Da-Peng SU ¹ ; Hua HE ¹ ; Liang-Yuan LI ¹ ; Zhen OUYANG ⁴ ; Tao ZHOU ¹
Author Information

1. Guizhou University of Traditional Chinese Medicine Guiyang 550025, China.
2. National Resource Center for Chinese Meteria Medica, China Academy of Chinese Medical Sciences Beijing 100700, China.
3. Kunming University of Science and Technology Kunming 650500, China.
4. Jiangsu University Zhenjiang 212013, China.
Publication Type:Journal Article
Keywords: Gastrodia elata; Ilyonectria; Ilyonectria cyclaminicola; continuous cropping obstacle; soil microbe; soil-borne disease
MeSH: Bacteria; Fungi; Gastrodia/microbiology*; Mycobiome; Soil; Soil Microbiology
From: China Journal of Chinese Materia Medica 2022;47(9):2296-2303
CountryChina
Language:Chinese
Abstract: The continuous cropping obstacle of Gastrodia elata is outstanding, but its mechanism is still unclear. In this study, microbial changes in soils after G. elata planting were investigated to explore the mechanism correlated with continuous cropping obstacle. The changes of species and abundance of fungi and bacteria in soils planted with G. elata after 1, 2, and 3 years were compared. The pathogenic fungi that might cause continuous cropping diseases of G. elata were isolated. Finally, the prevention and control measures of soil-borne fungal diseases of G. elata were investigated with the rotation planting pattern of "G. elata-Phallus impudicus". The results showed that G. elata planting resulted in the decrease in bacterial and fungal community stability and the increase in harmful fungus species and abundance in soils. This change was most obvious in the second year after G. elata planting, and the soil microbial community structure could not return to the normal level even if it was left idle for another two years. After G. elata planting in soils, the most significant change was observed in Ilyonectria cyclaminicola. The richness of the Ilyonectria fungus in soils was significantly positively correlated with the incidence of G. elata diseases. When I. cyclaminicola was inoculated in the sterile soil, the rot rate of G. elata was also significantly increased. After planting one crop of G. elata and one to three crops of P. impudicus, the fungus community structure in soils gradually recovered, and the abundance of I. cyclaminicola decreased year by year. Furthermore, the disease rate of G. elata decreased. The results showed that the cultivation of G. elata made the Ilyonectria fungi the dominant flora in soils, and I. cyclaminicola served as the main pathogen of continuous cropping diseases of G. elata, which could be reduced by rotation planting with P. impudicus.