Selective recruitment of beneficial microbes in the rhizosphere of maize affected by microbial inoculants, farming practice, and seasonal variations [0.03%]
玉米根际有益微生物的定向招募受微生物接种剂、农作方式和季节变化的影响
Ioannis D Kampouris,Theresa Kuhl-Nagel,Jan Helge Behr et al.
Ioannis D Kampouris et al.
Background: Plant beneficial microorganisms as inoculants can improve crop performance, but factors affecting their impact on plant performance under field conditions remain unclear, thereby limiting their use in farming....
Interrow cover crops in a semi-arid vineyard increase plant beneficial functional potential of the soil microbiome, both in vine rows and interrows, a benefit that increases with cover crop duration [0.03%]
半干旱葡萄园中行间覆盖作物增加了土壤微生物组的功能潜力,且这种益处在覆盖作物生长周期延长时会增加
Fernando Igne Rocha,Jean Carlos Rodriguez-Ramos,Margaret Fernando et al.
Fernando Igne Rocha et al.
Background: Cover crops are recognized for enhancing soil health and providing agroecosystem services, but are not widely adopted, particularly in water-limited regions. In Mediterranean vineyards, where water scarcity an...
Defining the cultured and uncultured bacterial fractions in Cannabis seeds [0.03%]
大麻种子中培养的细菌和未培养的细菌组分的界定
Carolina Lobato,Ahmed Abdelfattah,Gabriele Berg et al.
Carolina Lobato et al.
Background: Seeds provide a unique environment shaped by co-evolutionary processes, hosting diverse microbial communities. While microbiome studies have uncovered an extensive diversity of microorganisms, culture-based ap...
Investigation on the aerobic methanotrophic community and the dominant taxon Methylomarinum in seagrass ecosystem [0.03%]
海草生态系统中好氧产甲烷细菌群落及优势菌群Methylomarinum的研究
Tongyin Liang,Junde Dong,Weiguo Zhou et al.
Tongyin Liang et al.
Background: Methanotrophs are a key biological methane sink, and aerobic methanotrophs critically reduce wetland methane emissions under global climate change. However, despite their ecological significance, investigation...
New groups of highly divergent proteins in families as old as cellular life with important biological functions in the ocean [0.03%]
细胞生命史上古老的家族中新的高度分歧蛋白质族群及其在海洋中的重要生物学功能
Duncan Sussfeld,Romain Lannes,Eduardo Corel et al.
Duncan Sussfeld et al.
Background: Metagenomics has considerably broadened our knowledge of microbial diversity, unravelling fascinating adaptations and characterising multiple novel major taxonomic groups, e.g. CPR bacteria, DPANN and Asgard a...
Uncovering functional deterioration in the rhizosphere microbiome associated with post-green revolution wheat cultivars [0.03%]
与绿色革命后的小麦品种相关的根际微生物群功能退化的研究
Monique E Smith,Vanessa N Kavamura,David Hughes et al.
Monique E Smith et al.
Background: During the Green Revolution, one of the biggest developments of wheat domestication was the development of new cultivars that respond well to fertilisers and produce higher yields on shorter stems to prevent l...
Severe drought impacts tree traits and associated soil microbial communities of clonal oaks [0.03%]
严重干旱影响无性系橡树及其土壤微生物种群的树木特征
Camilo Quiroga-González,Luis Daniel Prada-Salcedo,François Buscot et al.
Camilo Quiroga-González et al.
Background: Biotic and abiotic factors, including plant age, soil pH, soil organic matter concentration, and especially water availability, significantly influence soil microbial populations and plant characteristics. Whi...
Identification of shared viral sequences in peat moss metagenomes reveals elements of a possible Sphagnum core virome [0.03%]
从泥炭藓元基因组中鉴定出共享的病毒序列,揭示了可能的核心Sphagnum病毒元素
Elizabeth R Denison,Helena L Pound,Eric R Gann et al.
Elizabeth R Denison et al.
Mosses as extraordinary reservoir of microbial diversity: a comparative analysing of co-occurring 'plant-moss twins' in natural alpine ecosystem [0.03%]
苔蘚是微生物多樣性的寶庫:自然山地生態系統中植物和苔蘚的微生境分布及相互作用
Dinesh Kumar Ramakrishnan,Birgit Wassermann,Christian Berg et al.
Dinesh Kumar Ramakrishnan et al.
The decline in plant biodiversity is evident at global scale, but little is known about the loss of microbial diversity associated with diverse plant phyla and their influencing factors. This study investigates the microbial diversity assoc...
Pigeon pea-mediated soil microbial shifts improve agroecosystem multifunctionality in long-term maize-palisade grass intercropping [0.03%]
通过长期的玉米-草隔田轮作,羽扇豆介导的土壤微生物变化提高了农业生态系统的多功能性
Ahmad Nuruddin Khoiri,Nídia Raquel Costa,Carlos Alexandre Costa Crusciol et al.
Ahmad Nuruddin Khoiri et al.
Background: Intercropping systems enhance agricultural sustainability by promoting ecosystem multifunctionality (EMF). This study examined the impact of adding pigeon pea (M + PG + PP) into a maize-palisade grass (M + PG)...