2024.04-今，中國科學院成都生物研究所，青年副研究員

2023.05-今，中國科學院成都生物研究所，助理研究員

2022.01-2023.04，成都理工大學，副教授

2018.09-2019.09，德國卡爾斯魯厄理工學院，博士后

2016.09-2021.12，成都理工大學，講師

2013.09，2016.07，中國科學院大學、成都山地災害與環境研究所，博士

2010.09-2013.07，中國科學院大學、成都山地災害與環境研究所，碩士

2006.09-2010.06，山東師范大學，學士

????主持國家自然科學基金青年項目、四川省科技廳面上項目等3項，參與國家自然科學基金區域聯合項目和重點項目各1項。

1. 國家自然科學基金青年項目，成土早期微生物碳需求對土壤有機磷礦化的驅動作用，25萬元，2018.01-2020.12，主持

2. 四川省科技廳面上項目，攀枝花馬家田尾礦庫根際土壤自由固氮的限制因子和對釩積累的響應機制，10萬元，2021.04-2023.03，主持

3. 西藏高原森林生態教育部重點實驗室開放課題，藏東南亞熱帶常綠闊葉林不同樹種根際土壤碳匯功能差異與調控機制研究，10萬元，2024.03-2025.12，主持

4. 國家自然科學基金聯合基金項目，氮沉降下川西高寒森林根際土壤碳匯功能變化及其調控機制，262萬元，2024.01-2027.12，參與

5. 國家自然科學基金重點項目，貢嘎山東坡磷的生物地球化學循環過程與海拔分異，296萬元，2017.01-2021.12，參與

1. Wang,D.,Gao,W.,Wang,J.*,Yin,H.*,2024. Minimal impact of nitrogen addition on bacterial and fungal communities during fungal necromass decomposition in a subalpine coniferous plantation. Soil Biology and Biochemistry,109499.

2. Wang,J.,Zhao,Q.,Zhong,Y.,Ji,S.,Chen,G.,He,Q.,Wu,Y.,Bing,H.*,2023. Biological nitrogen fixation in barren soils of a high-vanadium region: Roles of carbon and vanadium. Soil Biology and Biochemistry 186,109163.

3. Wang,J.,Chen,G.,Ji,S.,Zhong,Y.,Zhao,Q.,He,Q.,Wu,Y.,Bing,H.*,2023. Close relationship between the gene abundance and activity of soil extracellular enzyme: Evidence from a vegetation restoration chronosequence. Soil Biology and Biochemistry 177,108929.

4. Wang,J.,Wu,Y.,Li,J.,He,Q.,Bing,H.*,2021. Soil enzyme stoichiometry is tightly linked to microbial community composition in successional ecosystems after glacier retreat. Soil Biology and Biochemistry 162,108429.

5. Wang,J.,Wu,Y.,Li,J.,He,Q.,Zhu,H.,Bing,H.*,2021. Energetic supply regulates heterotrophic nitrogen fixation along a glacial chronosequence. Soil Biology and Biochemistry,108150.

6. Wang,J.,He,Q.,Wu,Y.,Zhu,H.,Sun,H.,Zhou,J.,Wang,D.,Li,J.,Bing,H.*,2021. Effects of pioneer N2-fixing plants on the resource status and establishment of neighboring non-N2-fixing plants in a newly formed glacier floodplain,eastern Tibetan Plateau. Plant and Soil 458,261-276.

7. Wang,J.,Huang,S.,He,Q.,Bing,H.*,Chen,X.,Zhang,X.,Tian,X.,Zhou,J.,Wilcke,W.,Wu,Y.*,2020. Microplate fluorimetric assay of soil leucine aminopeptidase activity: alkalization is not needed before fluorescence reading. Biology and Fertility of Soils 56,281-285.

8. Wang,J.,Wu,Y.*,Zhou,J.,Bing,H.,Sun,H.,He,Q.,Li,J.,Wilcke,W.,2020b. Soil microbes become a major pool of biological phosphorus during the early stage of soil development with little evidence of competition for phosphorus with plants. Plant and Soil 446,259-274.

9. Wang,J.,Wu,Y.*,Zhou,J.,Bing,H.,Sun,H.,Luo,J.,Pu,S.,2020c. Air-drying changes the distribution of Hedley phosphorus pools in forest soils. Pedosphere 30,272-284.

10. Wang,J.,Wu,Y.*,Zhou,J.,Bing,H.,Sun,H.,2016. Carbon demand drives microbial mineralization of organic phosphorus during the early stage of soil development. Biology and Fertility of Soils 52,825-839.