PeerJ | |
Microbial communities in sediment from Zostera marina patches, but not the Z. marina leaf or root microbiomes, vary in relation to distance from patch edge | |
article | |
Cassandra L. Ettinger1  Sofie E. Voerman2  Jenna M. Lang1  John J. Stachowicz5  Jonathan A. Eisen1  | |
[1] Genome Center, University of California;Climate Change Cluster, University of Technology Sydney;School of Life Sciences, University of Technology Sydney;Trace Genomics;Department of Evolution and Ecology, University of California;Department of Medical Microbiology and Immunology, University of California | |
关键词: Seagrass; Eelgrass; Sulfur metabolism; Microbiome; Edge effect; Fragmentation; Rhizosphere; | |
DOI : 10.7717/peerj.3246 | |
学科分类:社会科学、人文和艺术(综合) | |
来源: Inra | |
【 摘 要 】
BackgroundZostera marina (also known as eelgrass) is a foundation species in coastal and marine ecosystems worldwide and is a model for studies of seagrasses (a paraphyletic group in the order Alismatales) that include all the known fully submerged marine angiosperms. In recent years, there has been a growing appreciation of the potential importance of the microbial communities (i.e., microbiomes) associated with various plant species. Here we report a study of variation in Z. marina microbiomes from a field site in Bodega Bay, CA.MethodsWe characterized and then compared the microbial communities of root, leaf and sediment samples (using 16S ribosomal RNA gene PCR and sequencing) and associated environmental parameters from the inside, edge and outside of a single subtidal Z. marina patch. Multiple comparative approaches were used to examine associations between microbiome features (e.g., diversity, taxonomic composition) and environmental parameters and to compare sample types and sites.ResultsMicrobial communities differed significantly between sample types (root, leaf and sediment) and in sediments from different sites (inside, edge, outside). Carbon:Nitrogen ratio and eelgrass density were both significantly correlated to sediment community composition. Enrichment of certain taxonomic groups in each sample type was detected and analyzed in regard to possible functional implications (especially regarding sulfur metabolism).DiscussionOur results are mostly consistent with prior work on seagrass associated microbiomes with a few differences and additional findings. From a functional point of view, the most significant finding is that many of the taxa that differ significantly between sample types and sites are closely related to ones commonly associated with various aspects of sulfur and nitrogen metabolism. Though not a traditional model organism, we believe that Z. marina can become a model for studies of marine plant-microbiome interactions.
【 授权许可】
CC BY
【 预 览 】
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RO202307100014089ZK.pdf | 747KB | download |