Patterns of transcript abundance of eukaryotic biogeochemically-relevant genes in the Amazon river plume
Funding Number
0934095
Funding Sponsor
National Science Foundation
Author's Department
Biology Department
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https://doi.org/10.1371/journal.pone.0160929
Document Type
Research Article
Publication Title
PLoS ONE
Publication Date
9-1-2016
doi
10.1371/journal.pone.0160929
Abstract
© 2016 Zielinski et al.This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. The Amazon River has the largest discharge of all rivers on Earth, and its complex plume system fuels a wide array of biogeochemical processes, across a large area of the western tropical North Atlantic. The plume thus stimulates microbial processes affecting carbon sequestration and nutrient cycles at a global scale. Chromosomal gene expression patterns of the 2.0 to 156 μm size-fraction eukaryotic microbial community were investigated in the Amazon River Plume, generating a robust dataset (more than 100 million mRNA sequences) that depicts the metabolic capabilities and interactions among the eukaryotic microbes. Combining classical oceanographic field measurements with metatranscriptomics yielded characterization of the hydrographic conditions simultaneous with a quantification of transcriptional activity and identity of the community. We highlight the patterns of eukaryotic gene expression for 31 biogeochemically significant gene targets hypothesized to be valuable within forecasting models. An advantage to this targeted approach is that the database of reference sequences used to identify the target genes was selectively constructed and highly curated optimizing taxonomic coverage, throughput, and the accuracy of annotations. A coastal diatom bloom highly expressed nitrate transporters and carbonic anhydrase presumably to support high growth rates and enhance uptake of low levels of dissolved nitrate and CO2. Diatom-diazotroph association (DDA: diatoms with nitrogen fixing symbionts) blooms were common when surface salinity was mesohaline and dissolvednitrate concentrations were below detection, and hence did not show evidence of nitrate utilization, suggesting they relied on ammonium transporters to aquire recently fixed nitrogen. These DDA blooms in the outer plume had rapid turnover of the photosystem D1 protein presumably caused by photodegradation under increased light penetration in clearer waters, and increased expression of silicon transporters as silicon became limiting. Expression of these genes, including carbonic anhydrase and transporters for nitrate and phosphate, were found to reflect the physiological status and biogeochemistry of river plume environments. These relatively stable patterns of eukaryotic transcript abundance occurred over modest spatiotemporal scales, with similarity observed in sample duplicates collected up to 2.45 km in space and 120 minutes in time. These results confirm the use of metatranscriptomics as a valuable tool to understand and predict microbial community function.
Recommended Citation
APA Citation
Zielinski, B.
Allen, A.
Carpenter, E.
Coles, V.
...
(2016). Patterns of transcript abundance of eukaryotic biogeochemically-relevant genes in the Amazon river plume. PLoS ONE, 11(9),
10.1371/journal.pone.0160929
https://fount.aucegypt.edu/faculty_journal_articles/1309
MLA Citation
Zielinski, Brian L., et al.
"Patterns of transcript abundance of eukaryotic biogeochemically-relevant genes in the Amazon river plume." PLoS ONE, vol. 11,no. 9, 2016,
https://fount.aucegypt.edu/faculty_journal_articles/1309