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Species Identity Dominates over Environment in Driving Bacterial Community Assembly in Wild Invasive Leaf Miners

The microbiota of invasive animal species may be pivotal to their adaptation and spread, yet the processes driving the assembly and potential sources of host-microbiota remain poorly understood. Here, we characterized microbiota of four Liriomyza leaf miner fly species totaling 310 individuals acros...

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Autores principales: Zhu, Yu-Xi, Chang, Ya-Wen, Wen, Tao, Yang, Run, Wang, Yu-Cheng, Wang, Xin-Yu, Lu, Ming-Xing, Du, Yu-Zhou
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Microbiology 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9045101/
https://www.ncbi.nlm.nih.gov/pubmed/35343791
http://dx.doi.org/10.1128/spectrum.00266-22
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author Zhu, Yu-Xi
Chang, Ya-Wen
Wen, Tao
Yang, Run
Wang, Yu-Cheng
Wang, Xin-Yu
Lu, Ming-Xing
Du, Yu-Zhou
author_facet Zhu, Yu-Xi
Chang, Ya-Wen
Wen, Tao
Yang, Run
Wang, Yu-Cheng
Wang, Xin-Yu
Lu, Ming-Xing
Du, Yu-Zhou
author_sort Zhu, Yu-Xi
collection PubMed
description The microbiota of invasive animal species may be pivotal to their adaptation and spread, yet the processes driving the assembly and potential sources of host-microbiota remain poorly understood. Here, we characterized microbiota of four Liriomyza leaf miner fly species totaling 310 individuals across 43 geographical populations in China and assessed whether the microbiota of the wild leaf miner was acquired from the soil microbiota or the host plant microbiota, using high-throughput 16S rRNA sequencing. Bacterial communities differed significantly among four leaf miner species but did not mirror host phylogeny. Microbiota diversity in the native L. chinensis was significantly higher than in three invasive leaf miners (i.e., L. trifolii, L. huidobrensis, and L. sativae), yet the microbial community of the invasive species exhibited a more connected and complex network structure. Structural equation models revealed that host species identity was more important than environmental factors (e.g., geography, climate, or plants) in shaping microbiota composition. Using neutral and null model analyses, we found that deterministic processes like variable selection played a primary role in driving microbial community assembly, with some influence by stochastic processes like drift. The relative degree of these processes governing microbiota was likely correlated with host species but independent of either geographical or climatic factors. Finally, source tracking analysis showed that leaf miners might acquire microbes from their host plant rather than the soil. Our results provide a robust assessment of the ecological processes governing bacterial community assembly and potential sources of microbes in invasive leaf miners. IMPORTANCE The invasion of foreign species, including leaf miners, is a major threat to world biota. Host-associated microbiota may facilitate host adaption and expansion in a variety of ways. Thus, understanding the processes that drive leaf miner microbiota assembly is imperative for better management of invasive species. However, how microbial communities assemble during the leaf miner invasions and how predictable the processes remain unexplored. This work quantitatively deciphers the relative importance of deterministic process and stochastic process in governing the assembly of four leaf miner microbiotas and identifies potential sources of leaf miner-colonizing microbes from the soil-plant-leaf miner continuum. Our study provides new insights into the mechanisms underlying the drive of leaf miner microbiota assembly.
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spelling pubmed-90451012022-04-28 Species Identity Dominates over Environment in Driving Bacterial Community Assembly in Wild Invasive Leaf Miners Zhu, Yu-Xi Chang, Ya-Wen Wen, Tao Yang, Run Wang, Yu-Cheng Wang, Xin-Yu Lu, Ming-Xing Du, Yu-Zhou Microbiol Spectr Research Article The microbiota of invasive animal species may be pivotal to their adaptation and spread, yet the processes driving the assembly and potential sources of host-microbiota remain poorly understood. Here, we characterized microbiota of four Liriomyza leaf miner fly species totaling 310 individuals across 43 geographical populations in China and assessed whether the microbiota of the wild leaf miner was acquired from the soil microbiota or the host plant microbiota, using high-throughput 16S rRNA sequencing. Bacterial communities differed significantly among four leaf miner species but did not mirror host phylogeny. Microbiota diversity in the native L. chinensis was significantly higher than in three invasive leaf miners (i.e., L. trifolii, L. huidobrensis, and L. sativae), yet the microbial community of the invasive species exhibited a more connected and complex network structure. Structural equation models revealed that host species identity was more important than environmental factors (e.g., geography, climate, or plants) in shaping microbiota composition. Using neutral and null model analyses, we found that deterministic processes like variable selection played a primary role in driving microbial community assembly, with some influence by stochastic processes like drift. The relative degree of these processes governing microbiota was likely correlated with host species but independent of either geographical or climatic factors. Finally, source tracking analysis showed that leaf miners might acquire microbes from their host plant rather than the soil. Our results provide a robust assessment of the ecological processes governing bacterial community assembly and potential sources of microbes in invasive leaf miners. IMPORTANCE The invasion of foreign species, including leaf miners, is a major threat to world biota. Host-associated microbiota may facilitate host adaption and expansion in a variety of ways. Thus, understanding the processes that drive leaf miner microbiota assembly is imperative for better management of invasive species. However, how microbial communities assemble during the leaf miner invasions and how predictable the processes remain unexplored. This work quantitatively deciphers the relative importance of deterministic process and stochastic process in governing the assembly of four leaf miner microbiotas and identifies potential sources of leaf miner-colonizing microbes from the soil-plant-leaf miner continuum. Our study provides new insights into the mechanisms underlying the drive of leaf miner microbiota assembly. American Society for Microbiology 2022-03-28 /pmc/articles/PMC9045101/ /pubmed/35343791 http://dx.doi.org/10.1128/spectrum.00266-22 Text en Copyright © 2022 Zhu et al. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Research Article
Zhu, Yu-Xi
Chang, Ya-Wen
Wen, Tao
Yang, Run
Wang, Yu-Cheng
Wang, Xin-Yu
Lu, Ming-Xing
Du, Yu-Zhou
Species Identity Dominates over Environment in Driving Bacterial Community Assembly in Wild Invasive Leaf Miners
title Species Identity Dominates over Environment in Driving Bacterial Community Assembly in Wild Invasive Leaf Miners
title_full Species Identity Dominates over Environment in Driving Bacterial Community Assembly in Wild Invasive Leaf Miners
title_fullStr Species Identity Dominates over Environment in Driving Bacterial Community Assembly in Wild Invasive Leaf Miners
title_full_unstemmed Species Identity Dominates over Environment in Driving Bacterial Community Assembly in Wild Invasive Leaf Miners
title_short Species Identity Dominates over Environment in Driving Bacterial Community Assembly in Wild Invasive Leaf Miners
title_sort species identity dominates over environment in driving bacterial community assembly in wild invasive leaf miners
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9045101/
https://www.ncbi.nlm.nih.gov/pubmed/35343791
http://dx.doi.org/10.1128/spectrum.00266-22
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