Regulatory Effects of Companion Plants (Maize (<i>Zea mays</i>) and <i>Perilla frutescens</i>) on American Ginseng Growth and Microbiome in Root Rot-Infested Field

Regulatory Effects of Companion Plants (Maize (<i>Zea mays</i>) and <i>Perilla frutescens</i>) on American Ginseng Growth and Microbiome in Root Rot-Infested Field

American ginseng (AG) cultivation suffers from severe diseases, requiring heavy pesticide use. This study aimed to explore whether companion planting with maize (AG-maize) or <i>Perilla frutescens</i> (AG-perilla) could enhance AG growth and alter rhizosphere/root microbiomes in a root r...

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Bibliographic Details
Main Authors: Dan Luo, Dengqun Liao, Tingting Han, Changhao Ji, Chao He, Xianen Li
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Plants
Subjects:
American ginseng (<i>Panax quinquefolius</i>)
companion planting
maize (<i>Zea mays</i>)
<i>Perilla frutescens</i>
rhizospheric soil microbiome
root endophytic microbiome
Online Access:https://www.mdpi.com/2223-7747/14/12/1871
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Summary:American ginseng (AG) cultivation suffers from severe diseases, requiring heavy pesticide use. This study aimed to explore whether companion planting with maize (AG-maize) or <i>Perilla frutescens</i> (AG-perilla) could enhance AG growth and alter rhizosphere/root microbiomes in a root rot-infested field. Compared to monoculture (CK), companion planting significantly improved AG growth and survival rate at wither stage, with AG-maize showing the superior efficacy- increasing root length and fresh weight, and plant height by 39.04%, 46.10%, and 48.69%, respectively, while raising survival rate from 1.51% to 14.54%. Microbial analysis revealed that companion planting increased microbiome diversity and network complexity. At green fruit stage, AG-perilla increased rhizosphere fungal Chao1 index by 42.6%, while AG-maize and AG-perilla elevated endophytic fungal Shannon indices by 46.68% and 74.84%, respectively. At wither stage, AG-maize notably enriched beneficial microbes (e.g., soil <i>Pseudomonas</i> +108.49%, <i>Bacillus</i> +200.73%) while reducing pathogens (soil <i>Fusarium</i> −20.04%, root endophytic <i>Alternaria</i> −54.55%). Structural equation model indicated AG-maize improved AG survival via core species-driven antibiosis and nutrient regulation, with keystone species <i>Lysobacter</i> sp. RHLT3-4 and <i>Verrucomicrobium</i> sp. IMCC25902 significantly correlating with AG health. The AG-maize system fostered synergistic microbial networks, enriching beneficial taxa and suppressing pathogens. These findings provide a foundation for developing eco-friendly disease management and high-yield AG cultivation strategies.
ISSN:2223-7747

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