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The South China Botanical Garden has made progress in the study of soil nitrogen mineralization
Time of Update: 2022-04-24
Structural equation modeling indicated that changes in precipitation significantly altered soil water content early in the dry season, causing changes in soil microbial communities, soluble organic nitrogen, and litter input, resulting in changes in the rate of net soil nitrogen mineralization (Fig.
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The pattern of large-scale distribution pattern and distribution pattern of soil worm abundance.
Time of Update: 2020-09-10
the large-scale distribution pattern of soil worm abundance, which plays an important role in improving the physical properties of soil, promoting carbon-nitrogen conversion and maintaining ecosystem health, follow this law?
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The response mechanism of soil microbiome structure and function to the seasonal distribution change of precipitation is discussed.
Time of Update: 2020-08-29
After 2 years of field precipitation control experiments, the results show that the change of precipitation intensity has no significant effect on soil nutrients, microbiome structure and enzyme activity, but significantly affects the relative abundance of some rare species in bacterial community and the dominant species in fungal community.
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The spatial distribution and driving mechanism of soil microorganisms between wheat roots.
Time of Update: 2020-08-23
the study expounds the distribution law and its driving mechanism of wheat field root microorganisms in The North China Plain, reveals the efficient mode of root microbial network, and provides a theoretical basis for digging deep into the soil root microbial resources and exerting its potential function.
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Haiyan: The developmental characteristics of tree systems affect the distribution of soil fungi.
Time of Update: 2020-08-07
the 2015-2016 plant growth season of the Nanjing Soil Research Institute of the Chinese Academy of Sciences, the Yan Haiyan group collected the tree roots of Changbai mountain, Donglingshan, Shennong rack, Tianmumountain and Gutianshan (a total of 343, including 58 woody plant species), using high-throughput sequencing and systematic development vector method, to analyze the system developmental relationship of the species, non-biological environmental selection and spatial barrier of the relative forest.