Fungi dominate eukaryotic microbial assemblages in hot spring biofilms of East and Southeast Asia [0.03%]
东亚和东南亚温泉生物膜中真菌占优势的欧克雅微生物群落组装
Subhasri Thirumaran,Christaline George,Chananwat Kortheerakul et al.
Subhasri Thirumaran et al.
Terrestrial hot springs are globally distributed extreme environments, and these systems have long served as natural laboratories for studying microbial life under thermal stress. While much of the research to date has focused on thermophil...
From farm to microbe: organic amendments and soil texture as drivers of soil Microbiome composition [0.03%]
从农田到微生物:有机改良剂和土壤质地作为驱动土壤微生物组组成的因素
Maya Subberwal,Madeline Giles,Roy Neilson et al.
Maya Subberwal et al.
Background: Understanding how agricultural practices affect soil bacterial communities is vital to mitigating the negative impacts of intensive agriculture on soil health and preventing further deterioration of arable lan...
Marina Vila-Nistal,Francisco Martinez-Hernandez,Monica Lluesma-Gomez et al.
Marina Vila-Nistal et al.
Background: Viruses are fundamental to many aspects of life influencing ecosystem functions. The `number of lenses´ we use for exploring the viral diversity has expanded, yet each has limitations that constrain our view ...
Rhizosphere fungal generalists drive plant metabolic adaptability via regulating soil micronutrient availability [0.03%]
根域真菌广谱性通过调节土壤微量元素有效性的途径驱动植物代谢的适应性
Guozhuang Zhang,Jiaxiang Ma,Gao Xiong et al.
Guozhuang Zhang et al.
The ecological characteristics of fungal generalists (FG) and specialists (FS) in rhizosphere, as well as their impact on soil micronutrient dynamics and plant metabolic adaptability are largely unknown. Through large-scale sampling of Pana...
Intercropping-mediated enrichment of core microbiome enhances suppression of Verticillium wilt in cotton [0.03%]
套作促益根系核心微生物群落丰盈从而增强其对棉花 verticillium 辐射病的抑制作用
Chuanzhen Yang,Hongchen Yue,Aixin Sun et al.
Chuanzhen Yang et al.
Background: Verticillium wilt, caused by Verticillium dahliae Kleb., is a devastating soilborne disease threatening global cotton production. Intercropping is a sustainable agricultural practice known to suppress soilborn...
Synergistic enhancement of Sorghum bicolor nutrient uptake and growth by microbiomes in enhanced biological phosphorus removal system and arbuscular mycorrhizal fungi [0.03%]
改良生物除磷系统和菌根真菌对高丹草养分吸收和生长的协同促进作用
Yejin Son,Peisheng He,Eric J Craft et al.
Yejin Son et al.
Background: Understanding soil microbial interactions is essential for developing biofertilizers in regenerative agriculture. Polyphosphate-accumulating organisms (PAOs) play a pivotal role in enhanced biological phosphor...
Interplay between host and environmental filters drives plant-associated microbiomes in the remote sub-Antarctic Kerguelen Islands [0.03%]
宿主和环境过滤互作驱动了偏远亚南极克罗泽群岛植物相关微生物群落的组装
Constance Bertrand,Roland Marmeisse,Marie-Claire Martin et al.
Constance Bertrand et al.
Background: Plants evolve as holobionts, ecological and evolutionary units made up of the host plant and its associated microbiota, which shape plant fitness and adaptive capacity. Isolated ecosystems with low biodiversit...
Plant-microbiome interactions suppress Fusarium wilt by enriching beneficial Aspergillus in the tobacco rhizosphere [0.03%]
植物-微生物组互作通过富集烟草根圈有益曲霉菌来抑制黄萎病病害
Shuang Han,Yang Yang,Senqi Xiong et al.
Shuang Han et al.
Agricultural land use shapes short and long‑term bacterial diversity, community structure, and assembly in biofilms of adjacent streams [0.03%]
农业用地利用塑造了相邻溪流生物膜细菌的短期和长期多样性、群落结构和组分装配
Rubén Martínez-Cuesta,Rebecca Hoess,Sebastian Floßmann et al.
Rubén Martínez-Cuesta et al.
Background: Intensive agriculture can disrupt adjacent stream ecosystems by increasing nutrient runoff, suspended and dissolved organic matter, and pesticide loads. Freshwater biofilms are surface-attached microbial commu...
Genome-resolved metagenomics and evolutionary analysis reveal conserved metabolic adaptations in extremophile communities from a copper mining tailing [0.03%]
基于基因组的宏基因组学和进化分析揭示了铜尾矿极端微生物群落中保守的代谢适应性
Moises A Rojas,Gladis Serrano,Jorge Torres et al.
Moises A Rojas et al.
Background: Microbial communities in mining environments exhibit unique metabolic adaptations to extreme conditions, such as high metal concentrations and low pH. Their relatively low species complexity makes them an attr...