18 Papers
14 Citations
Fang Li is an academic researcher from Henan Agricultural University. The author has contributed to research in topics: Chemistry & Fertilizer. The author has an hindex of 7, co-authored 13 publications. Previous affiliations of Fang Li include Chinese Academy of Sciences.
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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.
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How types of carbonate rock assemblages constrain the distribution of karst rocky desertified land in Guizhou Province, PR China: phenomena and mechanisms
TL;DR: Wang et al. as mentioned in this paper examined the spatial distribution of karst rocky desertified (KRD) land in Guizhou Province, and related it to the different assemblages of basement carbonate rocks.
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Multiple long-term observations reveal a strategy for soil pH-dependent fertilization and fungal communities in support of agricultural production
Ning Qi,Lin Chen,Zhongjun Jia,Congzhi Zhang,Donghao Ma,Fang Li,Jiabao Zhang,Daming Li,Xiaori Han,Zejiang Cai,Shaomin Huang,Wenzhao Liu,Bo Zhu,Yan Li +13 more
TL;DR: Zhang et al. as mentioned in this paper analyzed crop yields, soil properties and fungal communities in soils that were treated for > 25 years with no fertilizer (control), inorganic fertilizers (NPK) and organic-inorganic fertilizer (OIF) and found that NPK and NPKM showed comparable crop yields.
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Rare fungus, Mortierella capitata, promotes crop growth by stimulating primary metabolisms related genes and reshaping rhizosphere bacterial community
Fang Li,Shui-Qing Zhang,Yi Wang,Yue Li,Pei-Pei Li,Lin Chen,Xiaolei Jie,Desheng Hu,Biao Feng,Ke Yue,Yan-Lai Han +10 more
TL;DR: The results highlight that the rare fungus M. capitata can promote crop growth directly by altering the root gene expression levels, and indirectly via interaction with indigenous rhizosphere bacteria.
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