Upwelling periodically disturbs the ecological assembly of microbial communities in Lake Ontario [0.03%]
Augustus Pendleton,Mathew Wells,Marian L Schmidt
Augustus Pendleton
The Laurentian Great Lakes hold 21% of the world's surface freshwater and supply drinking water to nearly 40 million people. We provide the first evidence that wind-driven upwelling restructures microbial communities in Lake Ontario, with i...
Genomics-based insights into the expanded diversity and adaptation strategies of hadal trench anammox bacteria [0.03%]
Yao Xiao,Rui Zhao,Weishu Zhao et al.
Yao Xiao et al.
Anaerobic ammonium oxidation (anammox) bacteria are an important functional guild in the nitrogen cycle and contribute up to 50% of nitrogen loss in the global ocean. Hadal trenches have been recognized as a hotspot of marine biogeochemical...
Correction to: Can genetic diversity in microalgae species be explained by climate: an overview of metabarcoding with diatoms [0.03%]
[This corrects the article DOI: 10.1093/ismeco/ycaf171.]. © The Author(s) 2026. Published by Oxford University Press on behalf of the International Soci...
Published Erratum
ISME communications. 2026 Mar 18;6(1):ycaf236. DOI:10.1093/ismeco/ycaf236 2026
Breeding effects on the root-associated microbiome of Zea mays L. are linked to plant-induced variation in soil water potentials [0.03%]
Nicolas Tyborski,Tina Koehler,Franziska A Steiner et al.
Nicolas Tyborski et al.
Modern crop varieties may exert reduced influence on their microbiome compared to their progenitors, as plant-microbe interactions were not targeted during breeding. Moreover, formerly beneficial microbiome functions might no longer be rele...
Unravelling the molecular diversity of marine cyanobacterial communities in the lagoon of Nouméa (New Caledonia): impact of a cyclonic event [0.03%]
Christophe Six,Mathisse Meyneng,Morgane Ratin et al.
Christophe Six et al.
In tropical marine ecosystems, cyanobacteria are key components of phytoplankton communities, yet their diversity and spatio-temporal dynamics in tropical lagoons remain poorly documented. Here, we use the Nouméa lagoon (New Caledonia) as ...
Dealing with phosphorus deficiency: contrasting strategies in marine phytoplankton and bacteria [0.03%]
应对磷限制:海洋浮游植物和细菌的不同策略
Erick Delgadillo-Nuño,Eva Teira,Emilio Fernández et al.
Erick Delgadillo-Nuño et al.
Phosphorus (P) and nitrogen (N) are essential nutrients for microbial growth, playing crucial roles in regulating the biological productivity of marine ecosystems. Over the last decades, the relatively higher increase in anthropogenic N com...
Magali Ranchou-Peyruse,Marion Guignard,Guilhem Caumette et al.
Magali Ranchou-Peyruse et al.
A device capable of sampling natural gas under aseptic conditions and in complete safety has been deployed along the transmission grid for the first time. Microbial endospores, resilient enough to survive the extreme conditions of gas trans...
Intracellular vesicle-mediated biomineralization of arsenic and barium by a sponge symbiotic bacterium [0.03%]
海绵内共生细菌的细胞内囊泡介导的砷和钡生物矿化作用
Shani Shoham,Celeste Weiss,Ray Keren et al.
Shani Shoham et al.
In their soluble forms, arsenic and barium are ubiquitous toxic elements. Mechanisms for their detoxification include reducing bioavailability by assimilation into organic forms or mineralization. It was previously found that Entotheonella ...
Microbial cohorts: bringing ecological meaning to the modularity concept of co-occurrence networks [0.03%]
群落微生物组:赋予共发生网络模块性概念生态学意义
Felix Milke,Sarahi L Garcia,Meinhard Simon et al.
Felix Milke et al.
Microbial communities are structured through complex interactions that are difficult to observe directly. Co-occurrence networks offer a way to infer community structure, revealing (not exclusively) potential biotic interactions. Such netwo...
Synthetic bacterial community colonizes wheat roots grown in soil and mimics the assembly pattern of a field community in a cultivar dependent manner [0.03%]
合成细菌群落定植于土壤中栽培不同的小麦根系并以品种依赖的方式模仿田间群落的装配模式
Frederik Bak,Jakob Klinge Meier,Bo Markussen et al.
Frederik Bak et al.
The root microbiome is important for plant development. The impact of the root microbiome is the result of multiple complex interactions among microorganisms, the plant and the environment. This complexity can be reduced by designing synthe...