Lin Chen
Chinese Academy of Sciences
38 Papers
4 Citations
Lin Chen is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Soil water & Mineralization (soil science). The author has an hindex of 17, co-authored 38 publications. Previous affiliations of Lin Chen include Zhejiang University.
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Papers
Bacterial Community Structure after Long-term Organic and Inorganic Fertilization Reveals Important Associations between Soil Nutrients and Specific Taxa Involved in Nutrient Transformations.
TL;DR: Deep 16S amplicon sequencing is used to investigate bacterial community characteristics in a fluvo-aquic soil treated for 24 years with inorganic fertilizers and organics and provides certain theoretical support for selection of rational fertilization strategies.
Mortierella elongata's roles in organic agriculture and crop growth promotion in a mineral soil
Fang Li,Fang Li,Lin Chen,Marc Redmile-Gordon,Jiabao Zhang,Jiabao Zhang,Congzhi Zhang,Ning Qi,Wei Li +8 more
TL;DR: This study suggests that M. elongata can defend against soil degradation, improve soil health, and stimulate production of plant growth hormones, and may be mechanistic in sequestering C in soil.
174
Feedstock determines biochar-induced soil priming effects by stimulating the activity of specific microorganisms
TL;DR: In this article, an 80-day soil-biochar incubation experiment was carried out to investigate biochar-induced soil priming effects by adopting isotopic techniques, and the intensity of PE was largely determined by the feedstock and was closely related to the proportion of cellulose and lignin in it.
139
Structural and functional differentiation of the root-associated bacterial microbiomes of perennial ryegrass
Lin Chen,Lin Chen,Philip C. Brookes,Jianming Xu,Jiabao Zhang,Congzhi Zhang,Xiaoyu Zhou,Yu Luo +7 more
TL;DR: This study suggests that the filtration and acquisition of the ryegrass root-associated bacterial microbiomes are largely controlled by indigenous soil microbial communities, rather than the changes in root rhizodeposition caused by elevated CO2.
115
Effects of straw amendment and moisture on microbial communities in Chinese fluvo-aquic soil
TL;DR: Microbial communities in Chinese fluvo-aquic soil are significantly affected by straw amendment at different moisture levels, and decreases eukaryotic diversity and richness.
105