3. Freeze-thaw cycles alter the growth sprouting strategy of wetland plants by promoting denitrification,COMMUNICATIONS EARTH & ENVIRONMENT,2023年
4. New and traditional methods for antibiotic resistance genes removal: Constructed wetland technology and photocatalysis technology,FRONTIERS IN MICROBIOLOGY,2023年
5. Algae-bacteria symbiotic constructed wetlands for antibiotic wastewater purification and biological response,FRONTIERS IN MICROBIOLOGY,2022年
6. 植物根系分泌物的生态效应研究,环境生态学,2022年
7. 冻融作用对湿地生态系统碳排放的影响,环境生态学,2022年
8. Vegetated Steel Slag Substrate Constructed Wetlands can Achieve High Efficiency Simultaneous Nitrogen and Phosphorus Removal,FRONTIERS IN ENVIRONMENTAL SCIENCE,2022年
9. Nitrogen Addition Effects on Wetland Soils Depend on Environmental Factors and Nitrogen Addition Methods: A Meta-Analysis,WATER,2022年
10. Bioconcentration and translocation of elements regulate plant responses to water-salt conditions in saline-alkaline wetlands,ENVIRONMENTAL AND EXPERIMENTAL BOTANY,2021年
11. 钢渣在人工湿地净化污水中的应用,湿地科学,2021年
12. Wetland plant litter decomposition occurring during the freeze season under disparate flooded conditions,SCIENCE OF THE TOTAL ENVIRONMENT,2020年
13. Impregnated calcium-alginate beads as floating reactors for the remediation of nitrate-contaminated groundwater,CHEMICAL ENGINEERING JOURNAL,2020年
14. Late Holocene vegetation and climate changes in the Great Hinggan Mountains, northeast China,QUATERNARY INTERNATIONAL,2019年
15. Comparative analyses of wetland plant biomass accumulation and litter decomposition subject to in situ warming and nitrogen addition,SCI TOTAL ENVIRON,2019年
16. Temperature influence on peatland carbon accumulation over the last century in Northeast China,CLIM DYNAM,2019年