汪玉，博士，中国科学院南京土壤研究所副研究员、特聘骨干岗位，硕士生导师，江苏省杰出青年基金获得者。2012年获得中科院研究生院理学博士学位，同年留所工作至今。主要从事土壤磷素循环及其生态环境效应、农业废弃物资源化利用研究。以第一/通讯作者在Nature Geoscience、Water Research等刊物上发表论文40余篇；参与编写专著7部，参与编制行业标准1项。承担多项国家自然科学基金、江苏省杰出青年基金、国家重点研发计划子课题、中科院先导专项子课题、长江生态环境保护修复城市驻点跟踪研究任务、江苏省现代农机装备与技术示范推广等项目。担任中国土壤学会碳中和与全球变化委员兼秘书、中国土壤学会青年工作委员会委员、中国植物营养与肥料学会标准委员会委员等；担任《Resources, Environment and Sustainability》编委和《Carbon Research》、《Biochar》青年编委等。

江苏省杰出青年基金

中国科学院优秀毕业生、中国科学院南京分院“伍宜孙”奖学金

1. Yuan H, Yuan Q, Guan T, Cai Y, Liu E, Li B, Wang Y*. Biotic regulation of phoD-encoding gene bacteria on organic phosphorus mineralization in lacustrine sediments with distinct trophic levels. Water Res. 2024; 260:121980.

2. Chen G, Yuan J, Chen H, Wang L, Wang S, Wang Y*. Manure application influences microbial stoichiometry and alters microbial life strategies to regulate phosphorus bioavailability in low-P paddy soil. Soil Tillage Res. 2024; 244:105435.

3. Yu Y, Chen H, Chen G, Su W, Hua M, Wang L, Yan X, Wang S, Wang Y*. Deciphering the crop-soil-enzyme C:N stoichiometry nexus: A 5-year study on manure-induced changes in soil phosphorus transformation and release risk. Sci Total Environ. 2024; 934:173226.

4. Chen G, Yuan J, Wang S, Liang Y, Wang D, Zhu Y, Wang Y*. Soil and microbial C:N stoichiometries play vital roles in regulating phosphorus transformation in agricultural ecosystems: A review. Pedosphere. 2024; 34(1):44–51.

5. Yuan J, Chen H, Chen G, Pokharel P, Chang SX, Wang Y, Wang D, Yan X, Wang S,  . Long-term biochar application influences phosphorus and associated iron and sulfur transformations in the rhizosphere. Carbon Res. 2024; 3:25.

6. Wang Y, Huang Y, Song L, Yuan J, Li W, Zhu Y, Chang SX, Luo Y, Ciais P, Peñuelas J, Wolf BJ, Cade-Menun B, Hu S, Wang L, Wang D, Yuan Z, Wang Y, Zhang J, Tao Y, Wang S, Liu G, Yan X, Zhu C. Reduced phosphorus availability in paddy soils under atmospheric CO2 enrichment. Nat Geosci. 2023; 16:162–168.

7. Yuan H, Wang H, Cai Y, Yin H, Zeng Q, Liu E, Li Q, Wang Y*. Iron-bound phosphorus predominates the contribution of phosphorus to the lake system from terrigenous sources: Evidence from a small watershed scale. Water Res. 2023; 245:120661.

8. Chen H, Yuan J, Chen G, Zhao X, Wang S, Wang D, Wang L, Wang Y*. Long-term biochar addition significantly decreases rice rhizosphere available phosphorus and its release risk to the environment. Biochar. 2022; 4:54.

9. Yu X, Tong D, Wang S, Wang D, Xu L, Li B, Sun W, Wang Y*. Long-term rice cultivation promoted microbial mineralization of organic P in a black soil. Soil Sci Soc Am J. 2022; 2:1–12.

10. Yuan J, Wang Y*, Zhao X, Chen H, Chen G, Wang S. Seven years of biochar amendment has a negligible effect on soil available P and a progressive effect on organic C in paddy soils. Biochar. 2022; 4:1.