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Canada-223520-STONE BRICK ARTIFICIAL 公司名錄
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公司新聞:
- Forest Soil Bacteria: Diversity, Involvement in Ecosystem Processes . . .
In forest soils, bacteria inhabit multiple habitats with specific properties, including bulk soil, rhizosphere, litter, and deadwood habitats, where their communities are shaped by nutrient availability and biotic interactions
- Forest microbiome: diversity, complexity and dynamics
The stand-level spatial heterogeneity of soil chemistry and microbial biomass in temperate forests is high, even in even-aged forest monocultures with reduced or absent ground vegetation (Saetre and Bååth 2000; Gömöryová 2004; Šnajdr et al 2008; Baldrian et al 2010)
- Drivers of microbial community structure in forest soils
Accurate prediction of the effects of environmental changes on the ecosystem services performed by forest soil microbes requires a comprehensive understanding of how environmental factors drive the composition of microbial communities (Romanowicz et al 2016)
- Frontiers | Contrasting Soil Bacterial Community, Diversity, and . . .
We analyzed soil bacterial community based on 16S rRNA gene sequencing via Illumina HiSeq platform at a temperate deciduous broad-leaved forest (Baotianman, BTM) and a tropical rainforest (Jianfengling, JFL)
- Soil microbial functional diversity responses to different vegetation . . .
Our results showed clear differences between microorganisms in the three typical forests The average well colour development (AWCD) change rate gradually increased with incubation time The BD type had the highest AWCD value, followed by LGBD; the LG forest type had the lowest value
- Shifting of microbial biodiversity and soil health in rhizomicrobiome . . .
Increased soil microbial activity will also increase the decomposition and reactions that require microbial assistance, for example, phosphate dissolution and nitrogen fixation (Mori et al 2018) Rhizomicrobiome in natural forests is also affected by dense vegetation and vegetation age
- Forest Soil Microbiomes: A Review of Key Research from 2003 to 2023 - MDPI
The primary drivers of the soil microbiome in forest ecosystems discussed in this review include soil composition and nutrient availability, plant community structure, microbial interactions within the soil, disturbances, succession, and temporal dynamics
- phenols in forest soils along the latitude Accumulation of microbial . . .
forest (Luo et al 2022, Wang et al 2022a) have used amino sugar and lignin phenol to indicate microbial and plant-derived carbon Lignin is primarily present in vascular plants and thus
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