Aurele Vuillemin

Overview

Explore the profile of Aurele Vuillemin including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 21

Citations 261

Followers 0

Related Specialties

Microbiology

Environmental Health

Biology

Top 10 Co-Authors

William D Orsi

Omer K Coskun

Jens Kallmeyer

Cynthia Henny

Dirk Wagner

Sean A Crowe

Steven DHondt

Andre Friese

Fabian Horn

Sergio Vargas

Published In

ISME J

Front Microbiol

FEMS Microbiol Ecol

Sci Adv

mBio

Affiliations

Soon will be listed here.

Recent Articles

The Rise of Algae promoted eukaryote predation in the Neoproterozoic benthos

Mills D, Vuillemin A, Muschler K, Coskun O, Orsi W

Sci Adv . 2025 Feb; 11(8):eadt2147. PMID: 39970204

The proliferation of marine algae in the Neoproterozoic Era is thought to have stimulated the ecology of predatory microbial eukaryotes. To test this proposal, we introduced algal particulate matter (APM)...

Metabolic features that select for Bathyarchaeia in modern ferruginous lacustrine subsurface sediments

Ruiz-Blas F, Bartholomaus A, Yang S, Wagner D, Henny C, Russell J, et al.

ISME Commun . 2024 Dec; 4(1):ycae112. PMID: 39660009

Ferruginous conditions prevailed through Earth's early oceans history, yet our understanding of biogeochemical cycles in anoxic iron-rich, sulfate-poor sediments remains elusive in terms of redox processes and organic matter remineralization....

Taxonomic and functional partitioning of Chloroflexota populations under ferruginous conditions at and below the sediment-water interface

Vuillemin A, Ruiz-Blas F, Yang S, Bartholomaus A, Henny C, Kallmeyer J

FEMS Microbiol Ecol . 2024 Oct; 100(12). PMID: 39384533

The adaptation of the phylum Chloroflexota to various geochemical conditions is thought to have originated in primitive microbial ecosystems, involving hydrogenotrophic energy conservation under ferruginous anoxia. Oligotrophic deep waters displaying...

Nitrogen cycling activities during decreased stratification in the coastal oxygen minimum zone off Namibia

Vuillemin A

Front Microbiol . 2023 Feb; 14:1101902. PMID: 36846760

Productive oxygen minimum zones are regions dominated by heterotrophic denitrification fueled by sinking organic matter. Microbial redox-sensitive transformations therein result in the loss and overall geochemical deficit in inorganic fixed...

Expanding the phylogenetic distribution of cytochrome b-containing methanogenic archaea sheds light on the evolution of methanogenesis

Ou Y, Dong H, McIlroy S, Crowe S, Hallam S, Han P, et al.

ISME J . 2022 Jul; 16(10):2373-2387. PMID: 35810262

Methane produced by methanogenic archaea has an important influence on Earth's changing climate. Methanogenic archaea are phylogenetically diverse and widespread in anoxic environments. These microorganisms can be divided into two...

Microbial Activities and Selection from Surface Ocean to Subseafloor on the Namibian Continental Shelf

Vuillemin A, Coskun O, Orsi W

Appl Environ Microbiol . 2022 Apr; 88(9):e0021622. PMID: 35404072

Oxygen minimum zones (OMZs) are hot spots for redox-sensitive nitrogen transformations fueled by sinking organic matter. In comparison, the regulating role of sulfur-cycling microbes in marine OMZs, their impact on...

Carbon assimilating fungi from surface ocean to subseafloor revealed by coupled phylogenetic and stable isotope analysis

Orsi W, Vuillemin A, Coskun O, Rodriguez P, Oertel Y, Niggemann J, et al.

ISME J . 2021 Dec; 16(5):1245-1261. PMID: 34893690

Fungi are ubiquitous in the ocean and hypothesized to be important members of marine ecosystems, but their roles in the marine carbon cycle are poorly understood. Here, we use C...

Correction to: Quantifying the effects of hydrogen on carbon assimilation in a seafloor microbial community associated with ultramafic rocks

Coskun O, Vuillemin A, Schubotz F, Klein F, Sichel S, Eisenreich W, et al.

ISME J . 2021 Dec; 16(3):900. PMID: 34848847

No abstract available.

Genome Evolution in Bacteria Isolated from Million-Year-Old Subseafloor Sediment

Orsi W, Magritsch T, Vargas S, Coskun O, Vuillemin A, Hohna S, et al.

mBio . 2021 Aug; 12(4):e0115021. PMID: 34399613

Beneath the seafloor, microbial life subsists in isolation from the surface world under persistent energy limitation. The nature and extent of genomic evolution in subseafloor microbes have been unknown. Here,...

10.

Quantifying the effects of hydrogen on carbon assimilation in a seafloor microbial community associated with ultramafic rocks

Coskun O, Vuillemin A, Schubotz F, Klein F, Sichel S, Eisenreich W, et al.

ISME J . 2021 Jul; 16(1):257-271. PMID: 34312482

Thermodynamic models predict that H is energetically favorable for seafloor microbial life, but how H affects anabolic processes in seafloor-associated communities is poorly understood. Here, we used quantitative C DNA...