Language :
中文
Xiaojun ZHANG
Home
Scientific Research
Research Field
Paper Publications
Patents
Published Books
Research Projects
Teaching Research
Teaching Resources
Teaching Information
Teaching Achievement
Awards and Honours
Admission Information
Student Information
My Album
Blog
MOBILE Version
Paper Publications
Current position:
Home
>
Scientific Research
>
Paper Publications
[1] Distinct Denitrifying Phenotypes of Predominant Bacteria Modulate Nitrous Oxide Metabolism in Two Typical Cropland Soils MICROBIAL ECOLOGY, 2022,
[2] Towards sustainable agriculture: rhizosphere microbiome engineering APPLIED MICROBIOLOGY AND BIOTECHNOLOGY, 2021,
[3]Xiaojun ZHANG. Oxygen-depletion by rapid ammonia oxidation regulates kinetics of N2O, NO and N2 production in an ammonium fertilised agricultural soil Soil Biology and Biochemistry, 2021,
[4]Xiaojun ZHANG. 油藏样本潜在核心功能微生物群的宏基因组挖掘 微生物学通报, 2021,
[5] Towards sustainable agriculture: rhizosphere microbiome engineering APPLIED MICROBIOLOGY AND BIOTECHNOLOGY, 2021,
[6] Sixteen genomes of denitrifying bacteria assembled from the enriched cultures of anaerobic pig manure digestate Microbiology Resource Announcements, 2021,
[7] Enhanced N2O emission rate in field soil undergoing conventional intensive fertilization is attributed to the shifts of denitrifying guilds Pedosphere, 2021,
[8] Antibiotic-induced role interchange between rare and predominant bacteria retained the function of a bacterial community for denitrifying quinoline degradation Journal of Applied Microbiology, 2020,
[9] 硫化物抑制潮土反硝化过程中氧化亚氮还原的菌群机制 微生物学通报, 2020,
[10] Cross-feeding between members of Thauera spp. and Rhodococcus spp. drives quinoline-denitrifying degradation in a hypoxic bioreactor mSphere, 2020,
[11]Xiaojun ZHANG. Endotoxin Producers Overgrowing in Human Gut Microbiota as the Causative Agents for Nonalcoholic Fatty Liver Disease. , 2020, mBio, 2020,
[12] Endotoxin Producers Overgrowing in Human Gut Microbiota as the Causative Agents for Nonalcoholic Fatty Liver Disease mBio, 2020, 11(11): e03263-19.
[13] Cross-feeding between members of Thauera spp. and Rhodococcus spp. drives quinoline-denitrifying degradation in a hypoxic bioreactor mSphere, 2020, 5(4): e00246-20
[14] Antibiotic-induced role interchange between rare and predominant bacteria retained the function of a bacterial community for denitrifying quinoline degradation. [J]. Journal of Applied Microbiology, 2020,
[15]Xiaojun ZHANG. Variability in the response of bacterial community assembly to environmental selection and biotic factors depends on the immigrated bacteria, as revealed by a soil microcosm experiment mSystems, 2019,
total58 1/4
first
previous
next
last
Page
沪ICP备05052060 版权所有©上海交通大学
Click:
