Novel insights into the rhizosphere and seawater microbiome of Zostera marina in diverse mariculture zones

Hao Sun; Tianyu Wang; Shuai Liu; Xiaoyu Tang; Jie Sun; Xuerui Liu; Ye Zhao; Pingping Shen; Yanying Zhang

doi:10.1186/s40168-024-01759-3

Microbiome (Feb 2024)

Novel insights into the rhizosphere and seawater microbiome of Zostera marina in diverse mariculture zones

Hao Sun,
Tianyu Wang,
Shuai Liu,
Xiaoyu Tang,
Jie Sun,
Xuerui Liu,
Ye Zhao,
Pingping Shen,
Yanying Zhang

Affiliations

Hao Sun: School of Ocean, Yantai University
Tianyu Wang: School of Ocean, Yantai University
Shuai Liu: School of Ocean, Yantai University
Xiaoyu Tang: CAS Key Laboratory of Tropical Marine Bio-resources and Ecology, South China Sea Institute of Oceanology
Jie Sun: Fisheries College, Ocean University of China
Xuerui Liu: School of Ocean, Yantai University
Ye Zhao: School of Ocean, Yantai University
Pingping Shen: School of Ocean, Yantai University
Yanying Zhang: School of Ocean, Yantai University

DOI: https://doi.org/10.1186/s40168-024-01759-3
Journal volume & issue: Vol. 12, no. 1
pp. 1 – 21

Abstract

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Abstract Background Seagrasses offer various ecosystem services and possess high levels of primary productivity. However, the development of mariculture has affected the homeostasis of seagrass meadow ecosystems. Plant-microbiome associations are essential for seagrasses health, but little is known about the role of environmental microbiomes and how they affect seagrass in a mariculture environment. In this study, we investigated the influence of mariculture on the rhizosphere and seawater microbiome surrounding Zostera marina and focused on the bacterial, eukaryotic, and fungal components in the composition, diversity, metabolism, and responses to mariculture-related environmental factors. Results Significant differences in the composition, richness, diversity, and internal relations of the bacterial community between the seawater and rhizosphere sediment surrounding Z. marina were observed, while differences in the eukaryotic and fungal communities were less significant. More complex bacterial and fungal co-occurrence networks were found in the seawater and rhizosphere sediment of the Saccharina japonica (SJ) and sea cucumber (SC) culture zones. The seawater in the SJ zone had higher levels of dissimilatory and assimilatory nitrate reduction, denitrification, and nitrogen fixation processes than the other three zones. The assimilatory sulfate reduction enzymes were higher in the rhizosphere sediments of the SJ zone than in the other three zones. Tetracycline, sulfonamide, and diaminopyrimidine resistance genes were enriched in the mariculture SJ and SC zones. Conclusions Our findings might contribute to a better understanding of the effects of mariculture on the seagrass and the meadow ecosystems and thus revealing their potential operating mechanisms. These insights may serve to raise awareness of the effects of human activities on natural ecosystems, regulation of antibiotic usage, and environmental restoration. Video Abstract

Published in Microbiome

ISSN: 2049-2618 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Science: Microbiology: Microbial ecology
Website: https://microbiomejournal.biomedcentral.com

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Abstract

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