Development and Utilization of Medicinal Plant Atractylodes lancea

Epimedium brevicornu Maxim. rich in flavonoids is used as a medicinal plant. The purpose of this study was to predict the adaptive zones, and quality zones, provide experimental data support for the development and utilization of E. brevicornu. ArcGIS was used to extract environmental factors associated with E. brevicornu, SPSS was used to analyze the correlation between the icariin content and these environmental factors. In the end, the quality zoning was performed based on the icariin contents of collected samples. A significant negative correlation between the July vapor pressure and the icariin content was observed. Quality E. brevicornu was mainly distributed in parts of Shanxi, Shaanxi, Gansu. The icariin contents of plants in the southern region of Gansu Province were higher than others. In the present study, the quality zones were identified and the influence paths of environmental factors were analyzed. Bangladesh J. Bot. 50(3): 763-773, 2021 (September) Special

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The Medicinal Plant Atractylodes Lancea Recruits Specialized Plant Growth-Promoting Bacteria From The Soil

10.21203/rs.3.rs-787062/v1 ◽

2021 ◽

Author(s):

Wang Hongyang ◽

Daiquan Jiang ◽

Zengxu Xiang ◽

Sheng Wang ◽

Chuanzhi Kang ◽

...

Keyword(s):

High Temperature ◽

Plant Growth ◽

Medicinal Plant ◽

Secondary Metabolite ◽

Soil Microorganisms ◽

Plant Growth Promoting Bacteria ◽

Volatile Oils ◽

Atractylodes Lancea ◽

Plant Growth Promoting ◽

Growth Promoting

Abstract Purpose: Atractylodes lancea is a medicinal plant used to treat rheumatic diseases, digestive disorders, night blindness, and influenza. However, the microbiome associated with A. lancea remains unclear. In this study, we assess the role of microorganisms in the roots of A. lancea in regulating plant growth and secondary metabolites, and investigate the microbial composition of the root of A. lancea.Methods: The roots of A. lancea were inoculated with 10% soil suspension at different temperatures. Thereafter, the biological indices, major volatile oils, chemical properties of the rhizosphere soil, and the diversity of root endophytic and rhizosphere bacterial communities of A. lancea were assessed.Results: Soil microorganisms could attenuate the damage of high-temperature to A. lancea and significantly promote the growth and accumulation of volatile oil. A. lancea recruited endogenous plant growth-promoting bacteria (PGPBs) from soil, including Burkholderia-Caballeronia-paraburkholderia, Bradyrhizobium, Paenibacillus, Bacillus and Rhodococcus. These bacteria were positively correlated with four volatile oils. In the rhizosphere, PGPBs such as Novosphingobium are recruited.Conclusions: Soil microorganisms promote the growth and development of A. lancea, improve the plant’s ability to resist high temperature stress, and accelerate secondary metabolite accumulation. Most importantly, A. lancea could recruit and enrich specialized PGPBs from the soil. The PGPBs were significantly and positively correlated with A. lancea secondary metabolite and soil nutrient content, and can be used as ideal biological material in A. lancea cultivation and quality improvement.

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