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Microbial life in preferential flow paths in subsurface clayey till revealed by metataxonomy and metagenomics

by Nicolaisen, Mette H. , Vogel, Timothy M. , Bak, Frederik , Nybroe, Ole , Larose, Catherine , Jørgensen, Peter R. , Keuschnig, Christoph , Aamand, Jens

in Abundance / Analysis / Archaea - classification / Archaea - genetics / Archaea - metabolism / Bacteria / Bacteria - classification / Bacteria - genetics / Bacteria - isolation & purification / Biological Microscopy / Biomedical and Life Sciences / Biopores / Carbohydrates / Carbon cycle / Clay / Control / DNA sequencing / DNA, Bacterial - genetics / Ecosystem / Ecosystem services / Environmental DNA / Environmental Sciences / Flow paths / Fractures / Fungi / Fungi - classification / Fungi - genetics / Fungi - isolation & purification / Gene flow / Gene sequencing / Genetic analysis / Geologic Sediments - microbiology / Groundwater / Groundwater levels / Heterogeneity / Hydraulics / Identification and classification / Life Sciences / Macropores / Metabolites / Metagenome-assembled genomes / Metagenomics / Microbial activity / Microbial mats / Microbial metabolism / Microbiology / Microbiomes / Microbiota - genetics / Microorganisms / Mycology / Niches / Nucleotide sequencing / Nutrients / Organic carbon / Oxygen / Parasitology / Pesticide pollution / Phylogeny / Preferential flow / RNA, Ribosomal, 16S - genetics / rRNA 16S / Sediments / Sequence Analysis, DNA / Shallow subsurface microbiome / Soil - chemistry / Soil analysis / Soil bacteria / Soil Microbiology / Soil microorganisms / Tectonics / Topsoil / Virology / Water depth / Water flow / Water table / Worms

2024

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Microbial life in preferential flow paths in subsurface clayey till revealed by metataxonomy and metagenomics

by Nicolaisen, Mette H. , Vogel, Timothy M. , Bak, Frederik , Nybroe, Ole , Larose, Catherine , Jørgensen, Peter R. , Keuschnig, Christoph , Aamand, Jens

2024

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Microbial life in preferential flow paths in subsurface clayey till revealed by metataxonomy and metagenomics

by Nicolaisen, Mette H. , Vogel, Timothy M. , Bak, Frederik , Nybroe, Ole , Larose, Catherine , Jørgensen, Peter R. , Keuschnig, Christoph , Aamand, Jens

2024

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Journal Article

Microbial life in preferential flow paths in subsurface clayey till revealed by metataxonomy and metagenomics

Nicolaisen, Mette H.,

Vogel, Timothy M.,

Bak, Frederik,

Nybroe, Ole,

Larose, Catherine,

Jørgensen, Peter R.,

Keuschnig, Christoph,

Aamand, Jens

2024

Overview

Background Subsurface microorganisms contribute to important ecosystem services, yet little is known about how the composition of these communities is affected by small scale heterogeneity such as in preferential flow paths including biopores and fractures. This study aimed to provide a more complete characterization of microbial communities from preferential flow paths and matrix sediments of a clayey till to a depth of 400 cm by using 16S rRNA gene and fungal ITS2 amplicon sequencing of environmental DNA. Moreover, shotgun metagenomics was applied to samples from fractures located 150 cm below ground surface (bgs) to investigate the bacterial genomic adaptations resulting from fluctuating exposure to nutrients, oxygen and water. Results The microbial communities changed significantly with depth. In addition, the bacterial/archaeal communities in preferential flow paths were significantly different from those in the adjacent matrix sediments, which was not the case for fungal communities. Preferential flow paths contained higher abundances of 16S rRNA and ITS gene copies than the corresponding matrix sediments and more aerobic bacterial taxa than adjacent matrix sediments at 75 and 150 cm bgs. These findings were linked to higher organic carbon and the connectivity of the flow paths to the topsoil as demonstrated by previous dye tracer experiments. Moreover, bacteria, which were differentially more abundant in the fractures than in the matrix sediment at 150 cm bgs, had higher abundances of carbohydrate active enzymes, and a greater potential for mixotrophic growth. Conclusions Our results demonstrate that the preferential flow paths in the subsurface are unique niches that are closely connected to water flow and the fluctuating ground water table. Although no difference in fungal communities were observed between these two niches, hydraulically active flow paths contained a significantly higher abundance in fungal, archaeal and bacterial taxa. Metagenomic analysis suggests that bacteria in tectonic fractures have the genetic potential to respond to fluctuating oxygen levels and can degrade organic carbon, which should result in their increased participation in subsurface carbon cycling. This increased microbial abundance and activity needs to be considered in future research and modelling efforts of the soil subsurface.

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Publisher

BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC

Subject

Abundance

/ Analysis

/ Archaea - classification

/ Archaea - genetics

/ Archaea - metabolism

/ Bacteria

/ Bacteria - classification