Assessing Biosynthetic Potential of Agricultural Groundwater Through Metagenomic Sequencing: A Diverse Anammox Community Dominates Nitrate-rich Groundwater

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2017 Apr 7

PMID 28384184

Citations 10

Authors

William B Ludington

Thaddeus D Seher

Olin Applegate

Xunde Li

Joseph I Kliegman

Charles Langelier

Edward R Atwill

Thomas Harter

Joseph L DeRisi

Affiliations

Soon will be listed here.

Abstract

Background: Climate change produces extremes in both temperature and precipitation causing increased drought severity and increased reliance on groundwater resources. Agricultural practices, which rely on groundwater, are sensitive to but also sources of contaminants, including nitrate. How agricultural contamination drives groundwater geochemistry through microbial metabolism is poorly understood.

Methods: On an active cow dairy in the Central Valley of California, we sampled groundwater from three wells at depths of 4.3 m (two wells) and 100 m (one well) below ground surface (bgs) as well as an effluent surface water lagoon that fertilizes surrounding corn fields. We analyzed the samples for concentrations of solutes, heavy metals, and USDA pathogenic bacteria of the Escherichia coli and Enterococcus groups as part of a long term groundwater monitoring study. Whole metagenome shotgun sequencing and assembly revealed taxonomic composition and metabolic potential of the community.

Results: Elevated nitrate and dissolved organic carbon occurred at 4.3m but not at 100m bgs. Metagenomics confirmed chemical observations and revealed several Planctomycete genomes, including a new Brocadiaceae lineage and a likely Planctomycetes OM190, as well novel diversity and high abundance of nano-prokaryotes from the Candidate Phyla Radiation (CPR), the Diapherotrites, Parvarchaeota, Aenigmarchaeota, Nanoarchaeota, Nanohaloarchaea (DPANN) and the Thaumarchaeota, Aigarchaeota, Crenarchaeota, Korarchaeota (TACK) superphyla. Pathway analysis suggests community interactions based on complimentary primary metabolic pathways and abundant secondary metabolite operons encoding antimicrobials and quorum sensing systems.

Conclusions: The metagenomes show strong resemblance to activated sludge communities from a nitrogen removal reactor at a wastewater treatment plant, suggesting that natural bioremediation occurs through microbial metabolism. Elevated nitrate and rich secondary metabolite biosynthetic capacity suggest incomplete remediation and the potential for novel pharmacologically active compounds.

Citing Articles

" Subterrananammoxibiaceae," a New Anammox Bacterial Family in Globally Distributed Marine and Terrestrial Subsurfaces.

Zhao R, Le Moine Bauer S, Babbin A Appl Environ Microbiol. 2023; 89(8):e0080023.

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The Bacterial Microbiome of the Coral Skeleton Algal Symbiont Ostreobium Shows Preferential Associations and Signatures of Phylosymbiosis.

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Characterization of Enrichment Cultures of Anammox, Nitrifying and Denitrifying Bacteria Obtained from a Cold, Heavily Nitrogen-Polluted Aquifer.

Botchkova E, Vishnyakova A, Popova N, Sukhacheva M, Kolganova T, Litti Y Biology (Basel). 2023; 12(2).

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Unravelling microalgal-bacterial interactions in aquatic ecosystems through 16S rRNA gene-based co-occurrence networks.

Pushpakumara B, Tandon K, Willis A, Verbruggen H Sci Rep. 2023; 13(1):2743.

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Diversity of Candidatus Patescibacteria in Activated Sludge Revealed by a Size-‍Fractionation Approach.

Kagemasa S, Kuroda K, Nakai R, Li Y, Kubota K Microbes Environ. 2022; 37(2).

PMID: 35676047 PMC: 9530733. DOI: 10.1264/jsme2.ME22027.

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