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Autores principales: Li, Mei-Xiang, Lian, Wen-Hui, Lian, Zheng-Han, Luo, Xiao-Qing, Yue, Ling-Xiang, Han, Jia-Rui, Hu, Chao-Jian, Li, Shuai, Li, Wen-Jun, Dong, Lei
Formato: Artículo científico
Lenguaje:en
Publicado: Advanced biotechnology 2025
Acceso en línea:https://pubmed.ncbi.nlm.nih.gov/40608163/
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author Li, Mei-Xiang
Lian, Wen-Hui
Lian, Zheng-Han
Luo, Xiao-Qing
Yue, Ling-Xiang
Han, Jia-Rui
Hu, Chao-Jian
Li, Shuai
Li, Wen-Jun
Dong, Lei
author_facet Li, Mei-Xiang
Lian, Wen-Hui
Lian, Zheng-Han
Luo, Xiao-Qing
Yue, Ling-Xiang
Han, Jia-Rui
Hu, Chao-Jian
Li, Shuai
Li, Wen-Jun
Dong, Lei
Li, Mei-Xiang
Lian, Wen-Hui
Lian, Zheng-Han
Luo, Xiao-Qing
Yue, Ling-Xiang
Han, Jia-Rui
Hu, Chao-Jian
Li, Shuai
Li, Wen-Jun
Dong, Lei
collection PubMed - marine biology
contents Rare and abundant taxa in Artemisia desertorum rhizosphere soils demonstrate disparate responses to drought stress. Li, Mei-Xiang Lian, Wen-Hui Lian, Zheng-Han Luo, Xiao-Qing Yue, Ling-Xiang Han, Jia-Rui Hu, Chao-Jian Li, Shuai Li, Wen-Jun Dong, Lei The growth and adaptability of desert plants depend on their rhizosphere microbes, which consist of a few abundant taxa and numerically dominant rare taxa. However, the differences in diversity, community structure, and functions of abundant and rare taxa in the rhizosphere microbiome of the same plant in different environments remain unclear. This study focuses on the rhizosphere microbial communities of Artemisia desertorum, a quintessential desert sand-stabilizing plant, investigating the diversity patterns and assembly processes of rare and abundant taxa across four Chinese deserts: Mu Us, Kubuqi, Tengger, and Ulan Buh. The results show that climatic factors, especially aridity and mean annual precipitation (MAP), significantly influence bacterial community composition and microbial network complexity. The interactions between rare and non-rare taxa are non-random, forming a modular network in which rare taxa serve as central nodes, and their loss could destabilize the network. Rare taxa are primarily shaped by heterogeneous selection, whereas abundant taxa are mainly influenced by dispersal limitation. Functionally, abundant taxa exhibit higher metabolic potential, whereas rare taxa are more involved in processes such as cell motility, indicating distinct ecological roles. These results provide new insights into the ecological functions of rare and abundant taxa in desert rhizosphere communities and highlight the importance of microbial management for desert plant health.
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language en
publishDate 2025
publisher Advanced biotechnology
record_format pubmed
spellingShingle Rare and abundant taxa in Artemisia desertorum rhizosphere soils demonstrate disparate responses to drought stress.
Li, Mei-Xiang
Lian, Wen-Hui
Lian, Zheng-Han
Luo, Xiao-Qing
Yue, Ling-Xiang
Han, Jia-Rui
Hu, Chao-Jian
Li, Shuai
Li, Wen-Jun
Dong, Lei
Rare and abundant taxa in Artemisia desertorum rhizosphere soils demonstrate disparate responses to drought stress. Li, Mei-Xiang Lian, Wen-Hui Lian, Zheng-Han Luo, Xiao-Qing Yue, Ling-Xiang Han, Jia-Rui Hu, Chao-Jian Li, Shuai Li, Wen-Jun Dong, Lei The growth and adaptability of desert plants depend on their rhizosphere microbes, which consist of a few abundant taxa and numerically dominant rare taxa. However, the differences in diversity, community structure, and functions of abundant and rare taxa in the rhizosphere microbiome of the same plant in different environments remain unclear. This study focuses on the rhizosphere microbial communities of Artemisia desertorum, a quintessential desert sand-stabilizing plant, investigating the diversity patterns and assembly processes of rare and abundant taxa across four Chinese deserts: Mu Us, Kubuqi, Tengger, and Ulan Buh. The results show that climatic factors, especially aridity and mean annual precipitation (MAP), significantly influence bacterial community composition and microbial network complexity. The interactions between rare and non-rare taxa are non-random, forming a modular network in which rare taxa serve as central nodes, and their loss could destabilize the network. Rare taxa are primarily shaped by heterogeneous selection, whereas abundant taxa are mainly influenced by dispersal limitation. Functionally, abundant taxa exhibit higher metabolic potential, whereas rare taxa are more involved in processes such as cell motility, indicating distinct ecological roles. These results provide new insights into the ecological functions of rare and abundant taxa in desert rhizosphere communities and highlight the importance of microbial management for desert plant health.
title Rare and abundant taxa in Artemisia desertorum rhizosphere soils demonstrate disparate responses to drought stress.
url https://pubmed.ncbi.nlm.nih.gov/40608163/