Adapt to local environment: Quality variation and the microbiota-root-stem-metabolome interaction mechanism of Cistanche sinensis

根际 生态型 生物肥料 生物 荒漠化 镰刀菌 尖孢镰刀菌 作物 土壤质量 植物 有益生物体 农学 微生物菌剂 植物修复 蛋白质细菌 微生物种群生物学 土壤微生物学 微生物 土壤肥力 保健品 生物技术
作者
Q. Robert Yan,Min Zhang,Xinke Zhang,Guoshuai Zhang,Di Lei,Linfang Huang
出处
期刊:Industrial Crops and Products [Elsevier BV]
卷期号:240: 122606-122606
标识
DOI:10.1016/j.indcrop.2025.122606
摘要

Soil desertification and sustainable cash crop cultivation in arid regions are pressing global challenges. This study aims to investigate two ecotypes of the drought-tolerant medicinal plant Cistanche sinensis , sourced from loamy (HCS) and sandy (GCS) soil habitats, to elucidate their rhizosphere and endophytic microbial communities and metabolic profiles, uncovering the mechanisms underlying their ecological adaptation and quality variation. Using multi-omics, machine learning, antioxidant assays, and soil analyses, we characterized the microbial communities and metabolomes of both ecotypes. The GCS ecotype showed potential for environmental remediation and medicinal applications, while the HCS ecotype enhanced soil quality and yielded consumable products. A regulatory network analysis identified key microbial genera ( Mycobacterium , Phyllobacterium , Pseudogymnoascus , Fusarium ) that differentiate the ecotypes. Phenylpropanoid compounds, crucial for medicinal properties, were more abundant in GCS. Machine learning identified 13 bioactive compounds, with 10 associated with GCS and 3 with HCS. HCS exhibited superior antioxidant capacity. The influence of microbial communities was ranked as follows: rhizosphere bacteria > rhizosphere fungi > endophytic fungi > endophytic bacteria, with bacteria promoting and fungi inhibiting medicinal metabolism. The GCS ecotype is a promising candidate for biofertilizer development, leveraging Mycobacterium , Anseongella ginsenosidimutans , and Fusarium equiseti , while also requiring strategies to mitigate root-associated pests and diseases. For the HCS ecotype, Mortierella alpina emerged as a potential biofertilizer candidate. These findings offer insights into desertification adaptation, a framework for studying ecotype quality variations, and strategies to enhance the ecological and nutraceutical value of C. sinensis through microbial and fertilizer management. • Sandy soils foster Mycobacterium/Fusarium in GCS (bioremediation); loamy soils boost Mortierella (fertility). • GCS rich in medicinal phenylpropanoids; HCS high in antioxidants for food use. • Catalase/urease and rhizobiota regulate quality. Biofertilizers ( Anseongella/Mortierella ) enable sustainable cultivation.
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