尊龙凯时 - 人生就是搏!-z6com

2025.02-至今，尊龙凯时人生就是搏z6com沈阳应用生态研究所，副研究员

2024.08-2025.01，尊龙凯时人生就是搏z6com沈阳应用生态研究所，助理研究员

2022.08-2024.07，中国农业大学，博士后

2018.09-2022.06，中国农业大学，环境科学与工程，博士

2013.09-2015.06，中国农业大学，植物营养学，硕士

土壤氮循环

碳氮循环与温室气体

尊龙凯时人生就是搏z6com沈阳应用生态研究所“绿埜优秀青年科学家计划“项目，100万元，2025.02至2028.01，主持

国家自然科学基金青年科学基金项目，极端降雨对典型旱作农田土壤氧化亚氮排放的影响机制，2025.01至2027.12，30万元，主持

山东省自然科学基金优青项目，农田土壤N₂O减排，2025.01至2027.12，50万元，项目骨干

国家自然科学基金面上项目，我国典型农田土壤真菌反硝化N₂O排放贡献及调控机制研究，2024.01至2027.12，49万元，项目骨干

国家自然科学基金重点项目，中国北方旱作农田土壤氧化亚氮产生过程及主要控制因素，2019.01至2023.12，307万元，参与

国家自然科学基金面上项目，石灰性土壤亚硝态氮积累对氧化亚氮产生的作用机制，2015.01至2018.12，98万元，参与

国家重大科学研究计划（973项目），“我国活性氮源及其对空气质量与气候变化的影响机理研究”第三课题“气态活性氮的气候效应”，2014.01至2018.08，439万元，参与

1. Zou,Z.,Li,Y.,Wei,H.,Du,Z.,Ju,X.,Wu,D*. (2025). Hot moment emissions of N₂O suppressed by higher native soil organic matter. Soil Ecology Letters,7(4),1-13.

2. Wei,H.,Li,Y.,Zhu,K.,Ju,X.*,Wu,D.* (2024). The divergent role of straw return in soil O₂ dynamics elucidates its confounding effect on soil N₂O emission. Soil Biology and Biochemistry,199,109620.

3. Tian,X.,Wei,H.,Zhao,Y.,Cao,R.,Zhang,C.,Song,X.,Wu,D.,Butterbach-Bahl,K.,Rees,R.,Smith,P.,Ju,X.* (2024). The legacy effect of long-term nitrogen fertilization on nitrous oxide emissions. Science of The Total Environment,954,176532.

4. Li,Y.,Wei,H.,Liu,M.,Yang,J.*,Han,X.* (2023). Nine years of low-dose biochar amendment suppresses nitrification rate in low-yield brown soil. Applied Soil Ecology,192,105096.

5. Wei,H.,Song,X.,Liu,Y.,Wang,R.,Zheng,X.,Butterbach‐Bahl,K.,Venterea,R.,Wu,D.*,Ju,X.* (2023). In situ ¹⁵N‐N₂O site preference and O₂ concentration dynamics disclose the complexity of N₂O production processes in agricultural soil. Global Change Biology,29(17),4910-4923.

6. Wang,R.,Pan,Z.,Liu,Y.,Yao,Z.,Wang,J.,Zheng,X.*,Zhang,X.,Ju,X.*,Wei,H., Butterbach‐Bahl,K. (2022). Full straw incorporation into a calcareous soil increased N₂O emission despite more N₂O being reduced to N₂ in the winter crop season. Agriculture,Ecosystems & Environment,335,108007.

7. Song,X.,Wei,H.,Rees,R. M.,Ju,X.* (2022). Soil oxygen depletion and corresponding nitrous oxide production at hot moments in an agricultural soil. Environmental Pollution,292,118345.

8. Wei,H.,Liu,Y.,Ju,X.*,Wu,D.* (2022). Eight years organic amendment application alters N₂O emission potential by increasing soil O₂ consumption rate. Science of The Total Environment,806,150466.

9. Liu,Y.,Wang,R.*,Pan,Z.,Wei,H.,Zhang,H.,Mei,B.,Quan,Z.,Fang,Y.,Ju,X. (2022). Quantifying in situ N₂ fluxes from an intensively managed calcareous soil using the ¹⁵N gas-flux method. Journal of Integrative Agriculture,21(9),2750-2766.

10. Wang,R.,Pan,Z.,Zheng,X.*,Ju,X.*,Yao,Z.,Butterbach-Bahl,K.,Zhang,C.,Wei,H.,Huang,B. (2020). Using field-measured soil N₂O fluxes and laboratory scale parameterization of N₂O/(N₂O+N₂) ratios to quantify field-scale soil N2 emissions. Soil Biology and Biochemistry,148,107904.