Environmental microbiology articles within Nature Communications

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• Article
  13 September 2023 | Open Access

  Myxobacteria restrain Phytophthora invasion by scavenging thiamine in soybean rhizosphere via outer membrane vesicle-secreted thiaminase I

  The plant pathogen Phytophthora sojae requires exogenous thiamine for growth. Here, Li et al. show that soil myxobacteria inhibit Phytophthora’s growth by scavenging thiamine through the secretion a thiaminase via outer membrane vesicles.

  • Chengyao Xia
  • , Yuqiang Zhao
  •  & Zhongli Cui

• Article
  13 September 2023 | Open Access

  Single-cell isotope tracing reveals functional guilds of bacteria associated with the diatom Phaeodactylum tricornutum

  Bacterial remineralization of algal organic matter promotes algal growth but is rarely quantified. Here, Mayali et al. quantify bacterial incorporation of algal-derived organic carbon and nitrogen, and algal incorporation of remineralized carbon and nitrogen, for 15 bacterial co-cultures growing with the diatom Phaeodactylum tricornutum to identify functional guilds of metabolic interactions.

  • Xavier Mayali
  • , Ty J. Samo
  •  & Peter K. Weber

• Article
  04 September 2023 | Open Access

  Genome-resolved correlation mapping links microbial community structure to metabolic interactions driving methane production from wastewater

  Anaerobic digestion of municipal mixed sludge is a microbial-mediated process that produces renewable natural gases such as methane. Here, Kieft et al. present the results of a two-year study of microbial community structure and function at a wastewater treatment plant, shedding light on metabolic interactions between microorganisms in relation with methane production.

  • Brandon Kieft
  • , Niko Finke
  •  & Steven J. Hallam

• Article
  22 August 2023 | Open Access

  Cultivation of marine bacteria of the SAR202 clade

  Bacteria of the SAR202 clade are ubiquitously distributed in the ocean, but their biology is poorly understood due to the lack of cultivated isolates. Here, Lim et al. report the cultivation of marine SAR202 bacteria and provide insights into the physiology of these enigmatic microorganisms.

  • Yeonjung Lim
  • , Ji-Hui Seo
  •  & Jang-Cheon Cho

• Article
  03 August 2023 | Open Access

  Material-engineered bioartificial microorganisms enabling efficient scavenging of waterborne viruses

  The material-based evolution of organisms has attracted broad interdisciplinary interest, however, the fabrication of material-integrated organelles remains inadequately exploited. Here the authors engineer a bioartificial organism by integrating a semiartificial and specific virus-scavenging organelle to scavenge pathogenic waterborne viruses.

  • Huixin Li
  • , Yanpeng Xu
  •  & Ruikang Tang

• Article
  19 July 2023 | Open Access

  Crystal structures of herbicide-detoxifying esterase reveal a lid loop affecting substrate binding and activity

  The esterase SulE, which detoxifies and hydrolyses a variety of sulfonylurea herbicides, is increasingly of interest in efforts to eliminate environmental contamination of sulfonylurea herbicides and engineer herbicide-tolerant crops. Here, the SulE is structurally and mechanistically characterised.

  • Bin Liu
  • , Weiwu Wang
  •  & Jian He

• Article
  18 July 2023 | Open Access

  Characterization of crAss-like phage isolates highlights Crassvirales genetic heterogeneity and worldwide distribution

  Here, the authors report the isolation and genetic characterization of 25 unique crAss-like phages (termed “crAssBcn”) infecting Bacteroides intestinalis, and show that CrAssBcn phages are commonly found in fecal samples from people around the globe, indicating their wide distribution.

  • María Dolores Ramos-Barbero
  • , Clara Gómez-Gómez
  •  & Maite Muniesa

• Article
  15 July 2023 | Open Access

  Cooperative microbial interactions drive spatial segregation in porous environments

  Cooperative interactions might be important in spatially structured microbial habitats. Here, the authors show that cooperative interactions between planktonic and biofilm-forming bacteria drive spatial segregation, and thereby enable species’ coexistence, in a microfluidic chip environment.

  • Yichao Wu
  • , Chengxia Fu
  •  & Peng Cai

• Article
  06 July 2023 | Open Access

  Important role of endogenous microbial symbionts of fish gills in the challenging but highly biodiverse Amazonian blackwaters

  Amazonian blackwaters are acidic and physiologically-challenging, but are one of Earth’s most diversified ecosystems. This study revealed that fish survival in these hostile habitats depends on the colonization of their gills by endogenous blackwater Betaproteobacteria, with the potential to regulate host ionoregulatory processes.

  • Sylvain François-Étienne
  • , Leroux Nicolas
  •  & Derome Nicolas

• Article
  23 June 2023 | Open Access

  A joint proteomic and genomic investigation provides insights into the mechanism of calcification in coccolithophores

  Coccolithophorid algae are globally important for marine biogeochemical cycles, but the molecular basis of their biology is poorly understood. Using proteomics and a new genome, Skeffington et al. identify candidate proteins involved in calcification in Emiliania huxleyi.

  • Alastair Skeffington
  • , Axel Fischer
  •  & André Scheffel

• Article
  13 June 2023 | Open Access

  Hydrogen and dark oxygen drive microbial productivity in diverse groundwater ecosystems

  Microbes in ancient groundwaters can be very diverse and productive. Some microbes seem to produce oxygen in the dark, which others use to consume the greenhouse gas methane. Their metabolisms are relevant for groundwater health and global change.

  • S. Emil Ruff
  • , Pauline Humez
  •  & Marc Strous

• Article
  03 June 2023 | Open Access

  Trajectories of freshwater microbial genomics and greenhouse gas saturation upon glacial retreat

  Diverse microbial trajectories in carbon and nitrogen cycle processes represent a positive feedback loop of deglaciation on climate warming.

  • Jing Wei
  • , Laurent Fontaine
  •  & Alexander Eiler

• Article
  23 May 2023 | Open Access

  Simultaneous sulfide and methane oxidation by an extremophile

  Aerobic methanotrophic bacteria oxidize methane in sulfide-rich environments, even though hydrogen sulfide (H₂S) inhibits methane oxidation and aerobic respiration. Here, Schmitz et al. show that a single microorganism can oxidize methane and H₂S simultaneously, and this is associated with upregulation of a sulfide-insensitive terminal oxidase.

  • Rob A. Schmitz
  • , Stijn H. Peeters
  •  & Arjan Pol

• Article
  09 May 2023 | Open Access

  Highly host-linked viromes in the built environment possess habitat-dependent diversity and functions for potential virus-host coevolution

  Viruses in built environments raise public health concerns. By analyzing diverse samples, Du et al. provide evidence that virus–host interactions occur frequently in built environments and that viruses are integral members of built environment microbiomes.

  • Shicong Du
  • , Xinzhao Tong
  •  & Patrick K. H. Lee

• Article
  06 May 2023 | Open Access

  Roles of adenine methylation in the physiology of Lacticaseibacillus paracasei

  The bacterium Lacticaseibacillus paracasei is used in the food industry and as a probiotic. Here, the authors use multi-omics and high-throughput chromosome conformation capture analyses to investigate the roles of a type of DNA methylation (N6-methyladenine modification) in this organism.

  • Jie Zhao
  • , Meng Zhang
  •  & Wenyi Zhang

• Article
  10 April 2023 | Open Access

  O₂ partitioning of sulfur oxidizing bacteria drives acidity and thiosulfate distributions in mining waters

  Microbial genomics is a widely under-utilized tool in mining in understanding water quality drivers. Here the authors show early acid generation and thiosulfate concentrations are driven by O2 dependent microbial sulfur oxidizing bacterial niches in a mine tailings impoundment

  • Kelly J. Whaley-Martin
  • , Lin-Xing Chen
  •  & Lesley A. Warren

• Article
  23 March 2023 | Open Access

  Cable bacteria with electric connection to oxygen attract flocks of diverse bacteria

  Cable bacteria are centimeter-long filamentous microbes that conduct electrons via internal wires, thus coupling sulfide oxidation between sediment layers. Here, Bjerg et al. show that the anoxic part of oxygen-respiring cable bacteria attracts swarms of other bacteria, which appear to transfer electrons to cable bacteria via soluble metabolites.

  • Jesper J. Bjerg
  • , Jamie J. M. Lustermans
  •  & Andreas Schramm

• Article
  11 March 2023 | Open Access

  Indoor air surveillance and factors associated with respiratory pathogen detection in community settings in Belgium

  Surveillance of respiratory pathogens in air may improve understanding of indoor transmission risks but impacts of context-specific factors on pathogen abundance are not well understood. Here, the authors investigate factors associated with 29 respiratory pathogens through surveillance of 21 community settings in Belgium.

  • Joren Raymenants
  • , Caspar Geenen
  •  & Emmanuel André

• Article
  24 February 2023 | Open Access

  Enzyme adaptation to habitat thermal legacy shapes the thermal plasticity of marine microbiomes

  Temperature shapes the adaptation and composition of microbiomes, but whether their enzymes drive the thermal response remains unknown. Using an analysis of seven enzyme classes from worldwide marine microbiome data, this study shows that enzyme thermal properties explain microbial thermal plasticity and they are both finely tuned by the thermal variability of the environment.

  • Ramona Marasco
  • , Marco Fusi
  •  & Daniele Daffonchio

• Article
  22 February 2023 | Open Access

  Structural remodelling of the carbon–phosphorus lyase machinery by a dual ABC ATPase

  Here, authors analyse the structural organisation of the large carbon-phosphorus lyase enzyme from bacteria using electron microscopy and discover that it contains two ATP-binding cassette dimers of PhnK and PhnL and opens upon ATP hydrolysis.

  • Søren K. Amstrup
  • , Sui Ching Ong
  •  & Ditlev E. Brodersen

• Article
  21 February 2023 | Open Access

  Dark microbiome and extremely low organics in Atacama fossil delta unveil Mars life detection limits

  Unique microorganisms of a fossil river delta in the Atacama Desert unveil the current limits of life detection on Mars.

  • Armando Azua-Bustos
  • , Alberto G. Fairén
  •  & Elizabeth Rampe

• Article
  08 February 2023 | Open Access

  Macroevolutionary diversity of traits and genomes in the model yeast genus Saccharomyces

  Here, the authors describe the geographies, hosts, substrates, and phylogenetic relationships for 1,794 Saccharomyces strains. They provide insight into the genetic and phenotypic diversity in the genus, not seen through prior work focused on the model species Saccharomyces cerevisiae.

  • David Peris
  • , Emily J. Ubbelohde
  •  & Chris Todd Hittinger

• Article
  06 February 2023 | Open Access

  Diverse secondary metabolites are expressed in particle-associated and free-living microorganisms of the permanently anoxic Cariaco Basin

  Genome mining for biosynthetic gene clusters (BGCs) can be used for the discovery of new compounds of biotechnological interest. Here, the authors use metagenomics and metatranscriptomics to identify diverse BGCs in free-living and particle-associated microbial communities through the stratified water column of the Cariaco Basin, Venezuela.

  • David Geller-McGrath
  • , Paraskevi Mara
  •  & Maria Pachiadaki

• Article
  31 January 2023 | Open Access

  Viral infection switches the balance between bacterial and eukaryotic recyclers of organic matter during coccolithophore blooms

  Algal blooms are hotspots of marine primary production that play central roles in microbial ecology and global elemental cycling. Here, the authors show how bloom termination by viral infection can shift the balance between eukaryotic and prokaryotic recyclers of phytoplankton biomass.

  • Flora Vincent
  • , Matti Gralka
  •  & Assaf Vardi

• Article
  24 January 2023 | Open Access

  Elevated temperature and CO₂ strongly affect the growth strategies of soil bacteria

  Microbial ecological strategies are expected to be phylogenetically conserved, but plasticity and acclimation to environmental change may complicate the picture. Here, the authors show that shifts in soil bacterial ecological strategies deviate from phylogenetic-based predictions after acclimation to long-term warming and CO₂ enrichment.

  • Yang Ruan
  • , Yakov Kuzyakov
  •  & Ning Ling

• Article
  18 November 2022 | Open Access

  A widespread group of large plasmids in methanotrophic Methanoperedens archaea

  Anaerobic methanotrophic (ANME) archaea obtain energy from the breakdown of methane. Here, Schoelmerich et al. describe large plasmids associated with ANME archaea of the Methanoperedens genus in enrichment cultures and other natural anoxic environments, opening the way for development of genetic vectors for research on these poorly understood organisms.

  • Marie C. Schoelmerich
  • , Heleen T. Ouboter
  •  & Jillian F. Banfield

• Article
  29 October 2022 | Open Access

  Multiple sources of aerobic methane production in aquatic ecosystems include bacterial photosynthesis

  The mechanisms underlying methane production in oxygenated waters of oceans and lakes are unclear. Here, Perez-Coronel and Beman show that aerobic methane production in freshwater incubation experiments is associated with (bacterio)chlorophyll metabolism and photosynthesis, and with Proteobacterial degradation of methylphosphonate.

  • Elisabet Perez-Coronel
  •  & J. Michael Beman

• Article
  17 October 2022 | Open Access

  Anaerobic oxidation of propane coupled to nitrate reduction by a lineage within the class Symbiobacteriia

  Anaerobic microorganisms can oxidize short-chain gaseous alkanes such as ethane, propane and butane using sulfate as electron acceptor. Here, the authors show that a bioreactor enrichment of a wastewater microbial community can perform anaerobic propane oxidation coupled to nitrate reduction.

  • Mengxiong Wu
  • , Jie Li
  •  & Jianhua Guo

• Article
  07 October 2022 | Open Access

  Past and present giant viruses diversity explored through permafrost metagenomics

  Although giant viruses are abundant in aquatic environments, less is known about giant viruses in soil. Here, the authors use permafrost metagenomics to reveal giant virus diversity and heterogeneity, as well as gene transfers between viruses from different families.

  • Sofia Rigou
  • , Sébastien Santini
  •  & Matthieu Legendre

• Article
  06 October 2022 | Open Access

  A pathway for chitin oxidation in marine bacteria

  Lytic polysaccharide monooxygenases contribute to microbial degradation of chitin, but how the resulting oxidized chitooligosaccharides are utilized by microbes is unclear. Here, the authors describe a complete pathway for oxidative chitin utilization in marine bacteria.

  • Wen-Xin Jiang
  • , Ping-Yi Li
  •  & Yu-Zhong Zhang

• Article
  24 September 2022 | Open Access

  A miniaturized bionic ocean-battery mimicking the structure of marine microbial ecosystems

  Marine ecosystems are dominated by microbial communities. Inspired by the photoelectric conversion feature of the marine ecosystems, the authors design a four-species microbial community to mimic primary producer, primary degrader, and ultimate consumers, and show its ability to convert light into electricity for over one month.

  • Huawei Zhu
  • , Liru Xu
  •  & Yin Li

• Article
  19 September 2022 | Open Access

  Structural characterization of a soil viral auxiliary metabolic gene product – a functional chitosanase

  Metagenomics is revealing auxiliary metabolic genes (AMGs) in soil viral genomes. Here, authors solve the crystal structure for a soil viral AMG product, free and ligand bound, and show the protein can decompose chitin, a common carbon polymer.

  • Ruonan Wu
  • , Clyde A. Smith
  •  & Janet K. Jansson

• Article
  05 September 2022 | Open Access

  Structure and activity of particulate methane monooxygenase arrays in methanotrophs

  Particulate methane monooxygenase (pMMO) is the main enzyme used by methanotrophs. Here, the authors determined the native structure of pMMO by cryo-electron tomography, revealing lipid-stabilized features and a higher-order hexagonal array arrangement in intact cells.

  • Yanan Zhu
  • , Christopher W. Koo
  •  & Peijun Zhang

• Article
  02 September 2022 | Open Access

  Biodiversity, environmental drivers, and sustainability of the global deep-sea sponge microbiome

  This study presents a large-scale analysis of microbial diversity in deep-sea sponges. They show that sponge microbial abundance status, geographic distance, sponge phylogeny and the physical-biogeochemical environment drive microbiome composition, in descending order of relevance. The uniqueness of each deep-sea sponge ground stresses the need for their strategic preservation.

  • Kathrin Busch
  • , Beate M. Slaby
  •  & Ute Hentschel

• Article
  17 August 2022 | Open Access

  Terrigenous dissolved organic matter persists in the energy-limited deep groundwaters of the Fennoscandian Shield

  Dissolved organic matter in the Fennoscandian Shield deep continental bedrock fracture waters of varying characteristics and ages carries a strong terrigenous signature, and only a small proportion of this potential energy source links to the deep biosphere microbial community.

  • Helena Osterholz
  • , Stephanie Turner
  •  & Mark Dopson

• Article
  17 August 2022 | Open Access

  High impact of bacterial predation on cyanobacteria in soil biocrusts

  Some bacteria act as pathogens or predators of other bacteria, but their impact in natural settings is often unclear. Here, Bethany et al. describe a new type of obligate, intracellular predatory bacterium of widespread distribution that preys on soil cyanobacteria in biocrusts and thus severely impacts biocrust productivity.

  • Julie Bethany
  • , Shannon Lynn Johnson
  •  & Ferran Garcia-Pichel

• Article
  11 August 2022 | Open Access

  SARS-CoV-2 and other respiratory pathogens are detected in continuous air samples from congregate settings

  Air surveillance offers a potential means of monitoring airborne pathogens without the need for individual sampling. Here, the authors perform continuous air sampling in 15 community settings in the US for 29 weeks and demonstrate its feasibility for routine detection of SARS-CoV-2 and other respiratory pathogens.

  • Mitchell D. Ramuta
  • , Christina M. Newman
  •  & Shelby L. O’Connor

• Article
  26 July 2022 | Open Access

  Plastic pollution fosters more microbial growth in lakes than natural organic matter

  Ultra-high resolution mass spectrometry revealed that plastic bags leach labile compounds. Bioassays performed in Scandinavian lakes indicated that these compounds are incorporated into biomass faster and more efficiently than natural organic matter.

  • Eleanor A. Sheridan
  • , Jérémy A. Fonvielle
  •  & Andrew J. Tanentzap

• Article
  12 July 2022 | Open Access

  Trypsin is a coordinate regulator of N and P nutrients in marine phytoplankton

  Using CRISPR-Cas9 mediated-knockout and overexpression analyses, this study shows that a trypsin in the diatom Phaeodactylum tricornutum promotes phosphorus uptake and inhibits nitrogen uptake but its expression is downregulated under nitrogen stress and upregulated under phosphorus stress. Together, the findings suggest this trypsin is a coordinate regulator of nutrient homeostasis.

  • Yanchun You
  • , Xueqiong Sun
  •  & Senjie Lin

• Article
  01 July 2022 | Open Access

  Separating natural from human enhanced methane emissions in headwater streams

  The effects of fertiliser from intensive agriculture are well recognised, but not so well for fine-sediment. Here we show how widespread ingress of agriculturally derived fine-sediment since the 1940s markedly amplifies methane emissions from streams.

  • Yizhu Zhu
  • , J. Iwan Jones
  •  & Mark Trimmer

• Article
  02 June 2022 | Open Access

  The microbiome of cryospheric ecosystems

  The cryosphere includes those parts of Earth where water or soil is frozen, such as snow, ice, glaciers and permafrost soils. Here, the authors present a global inventory of cryospheric microbial communities and their genetic repertoires.

  • Massimo Bourquin
  • , Susheel Bhanu Busi
  •  & Tom J. Battin

• Article
  26 May 2022 | Open Access

  Insights into methionine S-methylation in diverse organisms

  S-methyl methionine (SMM) is a key molecule in production of dimethylsulfoniopropionate (DMSP), an important marine anti-stress compound, with roles in global nutrient cycling. Here, the authors determine the mechanism of SMM synthesis and uncover unexpected roles for SMM in archaea, CPR bacteria and animals.

  • Ming Peng
  • , Chun-Yang Li
  •  & Yu-Zhong Zhang

• Article
  20 April 2022 | Open Access

  Genomic and metabolic adaptations of biofilms to ecological windows of opportunity in glacier-fed streams

  In glacier-fed streams, ecological windows of opportunity allow complex microbial biofilms to develop and transiently form the basis of the food web. Using metagenomics, this study reveals the metabolic strategies and key genomic underpinnings of adaptive traits that enable these biofilms to exploit environmental opportunities.

  • Susheel Bhanu Busi
  • , Massimo Bourquin
  •  & Tom J. Battin

• Article
  07 April 2022 | Open Access

  MiDAS 4: A global catalogue of full-length 16S rRNA gene sequences and taxonomy for studies of bacterial communities in wastewater treatment plants

  Microbial communities are responsible for biological wastewater treatment. Here, Dueholm et al. generate more than 5 million high-quality, full-length 16S rRNA gene sequences from wastewater treatment plants across the world to construct a database with a comprehensive taxonomy, providing insights into diversity and function of these microbial communities.

  • Morten Kam Dahl Dueholm
  • , Marta Nierychlo
  •  & Per Halkjær Nielsen

• Article
  23 March 2022 | Open Access

  Assessment of global health risk of antibiotic resistance genes

  Antibiotic resistance genes (ARGs) have accelerated microbial threats to human health. Here, Zhang et al. analyze 4572 metagenomic samples to illustrate the global patterns of ARG distribution in diverse habitats. They quantitatively evaluate the health risk to humans of 2561 ARGs by integrating human accessibility, mobility, pathogenicity and clinical availability. With the machine learning, they map the antibiotic resistance threats in global marine habitats.

  • Zhenyan Zhang
  • , Qi Zhang
  •  & Haifeng Qian

• Article
  21 March 2022 | Open Access

  Microbiomes in the Challenger Deep slope and bottom-axis sediments

  The V-shaped Challenger Deep in the Mariana Trench is the deepest part of the world’s oceans. Using 586 prokaryotic metagenome-assembled genomes and metatranscriptomic data, this study explores metabolic capabilities and activities of microorganisms involved in elemental cycling in hadal sediments, and reveals the different distribution of processes between its bottom-axis and slope.

  • Ying-Li Zhou
  • , Paraskevi Mara
  •  & Yong Wang

• Article
  17 March 2022 | Open Access

  Structure and function of the soil microbiome underlying N₂O emissions from global wetlands

  The wetland soil microbiome has a major impact on greenhouse gas emissions. Here the authors characterize how a group of archaea contribute to N₂O emissions and find that climate and land use changes could promote these organisms.

  • Mohammad Bahram
  • , Mikk Espenberg
  •  & Ülo Mander

• Article
  03 February 2022 | Open Access

  Tracking cryptic SARS-CoV-2 lineages detected in NYC wastewater

  To monitor the presence of novel SARS-CoV-2 variants in New York City, Smyth et al. perform deep-sequencing of the receptor binding domain of S protein in wastewater samples and find novel cryptic lineages containing mutations affecting ACE2-tropism and showing decreased neutralization by antibodies.

  • Davida S. Smyth
  • , Monica Trujillo
  •  & John J. Dennehy

• Article
  20 January 2022 | Open Access

  Shared features and reciprocal complementation of the Chlamydomonas and Arabidopsis microbiota

  Plants and algae associate with microbial communities that affect their growth and development. Here, the authors characterize the microbiota associated with a unicellular alga in soil, revealing extensive taxonomic and functional overlap with the root microbiota of land plants.

  • Paloma Durán
  • , José Flores-Uribe
  •  & Ruben Garrido-Oter

• Article
  12 January 2022 | Open Access

  Genetic diversity in terrestrial subsurface ecosystems impacted by geological degassing

  Geological degassing can impact subsurface metabolism. Here, the authors describe microbial communities from a cold-water geyser are described and compared with other deep subsurface sites, finding a key role for an uncultivated archaeon.

  • Till L. V. Bornemann
  • , Panagiotis S. Adam
  •  & Alexander J. Probst