Featured
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| Open AccessStructural 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
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Article
| Open AccessStructure 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
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| Open AccessBiodiversity, 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
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| Open AccessTerrigenous 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
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| Open AccessHigh 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
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Article
| Open AccessSARS-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
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Article
| Open AccessPlastic 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
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| Open AccessTrypsin 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
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Article
| Open AccessSeparating 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
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Article
| Open AccessThe 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
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Article
| Open AccessInsights 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
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Article
| Open AccessGenomic 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
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Article
| Open AccessMiDAS 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
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Article
| Open AccessAssessment 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
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| Open AccessMicrobiomes 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
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Article
| Open AccessStructure 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
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Article
| Open AccessTracking 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
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| Open AccessShared 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
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| Open AccessGenetic 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
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| Open AccessPhylogenetically and functionally diverse microorganisms reside under the Ross Ice Shelf
The Ross Ice Shelf is the most extensive ice shelf of Antarctica and isolates the underlying ocean from sunlight. Here the authors use multi-omics to unravel the phylogenetic and functional diversity of microbial life in this ecosystem.
- Clara Martínez-Pérez
- , Chris Greening
- & Federico Baltar
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Article
| Open AccessMulti-species host range of staphylococcal phages isolated from wastewater
The host range of bacteriophages defines their impact on bacterial ecology and diversity. Here, Göller et al. isolate 94 staphylococcal phages from wastewater and determine their host range on 117 staphylococci from 29 species, revealing a predominant multi-species host range and thus great potential for horizontal gene transfer.
- Pauline C. Göller
- , Tabea Elsener
- & Elena Gómez-Sanz
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Article
| Open AccessThe origin and impeded dissemination of the DNA phosphorothioation system in prokaryotes
Phosphorothioate (PT) modification by the dnd gene cluster is the first identified DNA backbone modification and has been shown to constitute a multifunctional epigenetic system. Despite a variety of advantages for hosting dnd systems, these systems are surprisingly distributed sporadically among contemporary microbial genomes. To address this ecological paradox, Jian et al. systematically investigated the occurrence and phylogeny of dnd systems in prokaryotes, and provided evidence to suggest that dnd systems have originated in ancient Cyanobacteria (probably Nostocales) after the Great Oxygenation Event.
- Huahua Jian
- , Guanpeng Xu
- & Xiang Xiao
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| Open AccessCommunity and single cell analyses reveal complex predatory interactions between bacteria in high diversity systems
Studying the role of predator–prey interactions in food-web stability and species coexistence in the environment is arduous. Here, Cohen et al. use a combination of community and single-cell analyses to show that bacterial predators can regulate prey populations in the species-rich environments of wastewater treatment plants.
- Yossi Cohen
- , Zohar Pasternak
- & Edouard Jurkevitch
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| Open AccessProkaryotic viruses impact functional microorganisms in nutrient removal and carbon cycle in wastewater treatment plants
Activated sludge (AS) systems in wastewater treatment plants (WWTPs) contain high concentration of viruses. Here, the authors apply a systematic metagenomic pipeline and retrieve a catalogue of around 50,000 prokaryotic viruses from samples of six WWTPs, revealing a large and uncharacterized viral diversity in AS communities.
- Yiqiang Chen
- , Yulin Wang
- & Tong Zhang
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| Open AccessDecline in plankton diversity and carbon flux with reduced sea ice extent along the Western Antarctic Peninsula
Over the past century, the Western Antarctic Peninsula has experienced rapid warming and a substantial loss of sea ice with important implications for plankton biodiversity and carbon cycling. Using a 5-year DNA metabarcoding dataset, this study assesses how interannual variability in sea-ice conditions impacts biodiversity and biological carbon fluxes in this region.
- Yajuan Lin
- , Carly Moreno
- & Nicolas Cassar
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| Open AccessPurple sulfur bacteria fix N2 via molybdenum-nitrogenase in a low molybdenum Proterozoic ocean analogue
N2 fixation was key to the expansion of life on Earth, but which organisms fixed N2 and if Mo-nitrogenase was functional in the low Mo early ocean is unknown. Here, the authors show that purple sulfur bacteria fix N2 using Mo-nitrogenase in a Proterozoic ocean analogue, despite low Mo conditions.
- Miriam Philippi
- , Katharina Kitzinger
- & Marcel M. M. Kuypers
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Article
| Open AccessGlobal distribution patterns of marine nitrogen-fixers by imaging and molecular methods
Nitrogen fixation by diazotrophs is critical for marine primary production. Using Tara Oceans datasets, this study combines a quantitative image analysis pipeline with metagenomic mining to provide an improved global overview of diazotroph abundance, diversity and distribution.
- Juan José Pierella Karlusich
- , Eric Pelletier
- & Rachel A. Foster
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| Open AccessA distinct growth physiology enhances bacterial growth under rapid nutrient fluctuations
Here the authors use microfluidics and single-cell microscopy to quantify the growth dynamics of individual E. coli cells exposed to nutrient fluctuations with periods as short as 30 seconds, finding that nutrient fluctuations reduce growth rates up to 50% compared to a steady nutrient delivery of equal average concentration, implying that temporal variability is an important parameter in bacterial growth.
- Jen Nguyen
- , Vicente Fernandez
- & Roman Stocker
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Article
| Open AccessGenome-resolved metagenomics reveals role of iron metabolism in drought-induced rhizosphere microbiome dynamics
Advances in omics provide a tool to understand mechanisms for plant–microbial interactions under stress. Here the authors apply genome-resolved metagenomics to investigate sorghum and its microbiome responses to drought, identifying an unexpected role of iron metabolism.
- Ling Xu
- , Zhaobin Dong
- & Devin Coleman-Derr
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| Open AccessEcology and molecular targets of hypermutation in the global microbiome
Here, the authors report a large-scale comparative analysis of <30,000 Diversity-Generating Retroelements (DGRs) across ~9000 metagenomes (representing diverse taxa and biomes), to identify patterns in terms of prevalence and activity. Combined with examination of longitudinal data on <100 metagenomes part of time series, they demonstrate that DGRs are broadly and consistently active, implying an important role in microbiota ecology and evolution.
- Simon Roux
- , Blair G. Paul
- & Emiley A. Eloe-Fadrosh
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| Open AccessDecrypting bacterial polyphenol metabolism in an anoxic wetland soil
It is thought that polyphenols inhibit organic matter decomposition in soils devoid of oxygen. Here the authors use metabolomics and genome-resolved metaproteomics to provide experimental evidence of polyphenol biodegradation and maintained soil microbial community metabolism despite anoxia.
- Bridget B. McGivern
- , Malak M. Tfaily
- & Kelly C. Wrighton
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| Open AccessMetabolic capabilities mute positive response to direct and indirect impacts of warming throughout the soil profile
There is much uncertainty on the response of soil microbial communities to warming, particularly in the subsoil. Here, the authors investigate microbial community and metabolism response to 4.5 years of whole-profile soil warming, finding depth-dependent effects and elevated subsoil microbial respiration.
- Nicholas C. Dove
- , Margaret S. Torn
- & Neslihan Taş
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| Open AccessDiurnal Fe(II)/Fe(III) cycling and enhanced O2 production in a simulated Archean marine oxygen oasis
Cyanobacterial photosynthesis is thought to have oxygenated Earth’s atmosphere during the Great Oxidation Event, but these organisms had to overcome the toxic effects of iron. Here the authors simulate Archaean conditions in Cyanobacterial cultures and find that gas exchange and rust formation alleviated iron toxicity.
- A. J. Herrmann
- , J. Sorwat
- & M. M. Gehringer
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| Open AccessConnecting structure to function with the recovery of over 1000 high-quality metagenome-assembled genomes from activated sludge using long-read sequencing
Microbes play key roles in wastewater treatment. Here, Singleton et al. use long-read and short-read sequencing to recover 1083 high-quality metagenome-assembled genomes from 23 wastewater treatment plants, and combine this information with amplicon data, Raman microspectroscopy and FISH to reveal functionally important lineages.
- Caitlin M. Singleton
- , Francesca Petriglieri
- & Mads Albertsen
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Article
| Open AccessC-STABILITY an innovative modeling framework to leverage the continuous representation of organic matter
Soil organic matter (SOM) is a huge sink of carbon, but the varied flux dynamics are challenging to predict. Here, the authors present a new model with the complexities of SOM cycling, including parameters for substrate accessibility, microbe diversity, and enzymatic substrate depolymerization.
- Julien Sainte-Marie
- , Matthieu Barrandon
- & Delphine Derrien
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| Open AccessCultivation of elusive microbes unearthed exciting biology
Many newly-discovered microbial phyla have been studied solely by cultivation-independent techniques such as metagenomics. Much of their biology thus remains elusive, because the organisms have not yet been isolated and grown in the lab. Katayama et al. lift the curtain on some intriguing biology by cultivating and studying bacteria from the elusive OP9 phylum (Atribacterota).
- Muriel C. F. van Teeseling
- & Christian Jogler
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| Open AccessIntegration of time-series meta-omics data reveals how microbial ecosystems respond to disturbance
Herold et al. present an integrated meta-omics framework to investigate how mixed microbial communities, such as oleaginous bacterial populations in biological wastewater treatment plants, respond with distinct adaptation strategies to disturbances. They show that community resistance and resilience are a function of phenotypic plasticity and niche complementarity.
- Malte Herold
- , Susana Martínez Arbas
- & Paul Wilmes
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Article
| Open AccessA bacterial endophyte exploits chemotropism of a fungal pathogen for plant colonization
Soil-borne fungal pathogens use chemotropism and extracellular pH alkalinisation to reach and penetrate plant roots. Here, Palmieri et al. show that soil endophytic bacteria swim along fungal hyphae to colonize plant roots and protect host plants by modulating the pH of the rhizosphere.
- Davide Palmieri
- , Stefania Vitale
- & David Turrà
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Article
| Open AccessBacteria are important dimethylsulfoniopropionate producers in marine aphotic and high-pressure environments
Dimethylsulfoniopropionate (DMSP) is an osmolyte produced by marine microbes that plays an important role in nutrient cycling and atmospheric chemistry. Here the authors go to the Mariana Trench—the deepest point in the ocean—and find bacteria are key DMSP producers, and that DMSP has a role in protection against high pressure.
- Yanfen Zheng
- , Jinyan Wang
- & Xiao-Hua Zhang
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Article
| Open AccessSynthetic microbial communities of heterotrophs and phototrophs facilitate sustainable growth
Successful application of microbial community for bioproduction relies on the selection of appropriate heterotroph and phototroph partners. Here, the authors construct community metabolic models to guide strain selection and experimentally validate metabolic exchanges that sustain the heterotrophs in minimal media.
- Cristal Zuñiga
- , Tingting Li
- & Karsten Zengler
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Article
| Open AccessAerobic microbial life persists in oxic marine sediment as old as 101.5 million years
The discovery of aerobic microbial communities in nutrient-poor sediments below the seafloor begs the question of the mechanisms for their persistence. Here the authors investigate subseafloor sediment in the South Pacific Gyre abyssal plain, showing that aerobic microbial life can be revived and retain metabolic potential even from 101.5 Ma-old sediment.
- Yuki Morono
- , Motoo Ito
- & Fumio Inagaki
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Article
| Open AccessMicrobial diversity drives carbon use efficiency in a model soil
Microbial carbon use efficiency has an important role in soil C cycling. Here the authors test the interactive effects of temperature and moisture and manipulate microbial community composition in soil microcosms, showing a positive relationship between microbial diversity and CUE that is contingent on abiotic conditions.
- Luiz A. Domeignoz-Horta
- , Grace Pold
- & Kristen M. DeAngelis
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Article
| Open AccessBacterial symbionts support larval sap feeding and adult folivory in (semi-)aquatic reed beetles
Symbiotic microbes in insects can enable their hosts to access untapped nutritional resources. Here, the authors show that symbiotic bacteria in reed beetles can provide essential amino acids to sap-feeding larvae and help leaf-feeding adults to degrade pectin, respectively.
- Frank Reis
- , Roy Kirsch
- & Martin Kaltenpoth
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Article
| Open AccessDetection of air and surface contamination by SARS-CoV-2 in hospital rooms of infected patients
Here, the authors sample air and surfaces in hospital rooms of COVID-19 patients, detect SARS-CoV-2 RNA in air samples of two of three tested airborne infection isolation rooms, and find surface contamination in 66.7% of tested rooms during the first week of illness and 20% beyond the first week of illness.
- Po Ying Chia
- , Kristen Kelli Coleman
- & Daniela Moses
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Article
| Open AccessGenome-scale metabolic reconstruction of the symbiosis between a leguminous plant and a nitrogen-fixing bacterium
The association between leguminous plants and rhizobial bacteria is a paradigmatic example of a symbiosis driven by metabolic exchanges. Here, diCenzo et al. report the reconstruction and modelling of a genome-scale metabolic network of the plant Medicago truncatula nodulated by the bacterium Sinorhizobium meliloti.
- George C. diCenzo
- , Michelangelo Tesi
- & Marco Fondi
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| Open AccessExtracellular electron transfer-dependent anaerobic oxidation of ammonium by anammox bacteria
Bacteria capable of anaerobic ammonium oxidation (anammox) produce half of the nitrogen gas in the atmosphere, but much of their physiology is still unknown. Here the authors show that anammox bacteria are capable of a novel mechanism of ammonium oxidation using extracellular electron transfer.
- Dario R. Shaw
- , Muhammad Ali
- & Pascal E. Saikaly
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Article
| Open AccessCable bacteria reduce methane emissions from rice-vegetated soils
Rice paddies are a major source of the Earth’s atmospheric methane, making these important food crops potent contributors to greenhouse gas emissions. Here the authors show that inoculation of paddies with a particular bacterium could significantly curb methane production.
- Vincent V. Scholz
- , Rainer U. Meckenstock
- & Nils Risgaard-Petersen
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| Open AccessSingle cell analyses reveal contrasting life strategies of the two main nitrifiers in the ocean
Ammonia oxidizing archaea and Nitrospinae are the main known nitrifiers in the ocean, but the much greater abundance of the former is puzzling. Here, the authors show that differences in mortality, rather than thermodynamics, cell size or biomass yield, explain the discrepancy, without the need to invoke yet undiscovered, abundant nitrite oxidizers.
- Katharina Kitzinger
- , Hannah K. Marchant
- & Marcel M. M. Kuypers
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Article
| Open AccessThe oomycete Lagenisma coscinodisci hijacks host alkaloid synthesis during infection of a marine diatom
Flagellated oomycetes frequently infect unicellular algae, thus limiting their proliferation. Here, the authors show that an oomycete rewires the metabolome of a marine bloom-forming diatom, thereby promoting infection success.
- Marine Vallet
- , Tim U. H. Baumeister
- & Georg Pohnert