教育经历：

    2010/09-2018/06,  中国科学院，南京土壤研究所，土壤化学，硕博连读，导师：谢祖彬

    2014/06-2014/09，丹麦科技大学，生态学，中丹联合培养项目，导师，Per Ambus

    2006/09-2010/06，南京农业大学，理学院，应用化学，学士

  学术交流： 

    2013/10，法国洛林大学，中法“土壤生态与污染修复”联合会议

    2009/08，台湾嘉义大学，两岸大学生互换交流

  工作经历：

    2019/01-至今，南京林业大学，林学院水土保持系，青年教师

   气候变化与土壤生物地球化学循环

   土壤碳氮循环与耦合

   土壤固碳与固氮

   土壤数字地图

1. 国家自然科学基金面上项目，32271714，模拟气候下长期施用生物炭对稻田和湿地松林地生物固氮的影响及机制，2023.01-2026.12，主持。

2. 国家自然科学基金青年基金项目，31901196，生物炭长期施用对农田和林地土壤N2O排放的效应及其机制研究，2020.01-2022.12，主持。

3. 国家科技基础性工作专项，2015FY110700，我国水稻土固氮资源调查2015.5-2020.5, 参加。

4. 农业部公益性行业（农业）专项课题，201503137，秸秆生物炭基质化利用，2015.1-2019.12，参加。

（1）发表论文：

l  Chen, Z., Jin, P., Liu, Q.*, Zhang, Y., Hu, T., Wang, H., Zhou, R., Zhang, J., Xie, Z.*  (2025). Decade-long successive biochar amendment enhances wheat production and increases crop system resistence to unfavorable meteorological factors. Field Crops Research, 322. （通讯作者）

l  Jin, P., Chen, Z., Wang, H., Lv, R., Hu, T., Zhou, R., Liu Q.*, Xie, Z.* (2024). 12-year continuous biochar application: Mitigating reactive nitrogen loss in paddy fields but without rice yield enhancement. Agriculture, Ecosystems and Environment, 375，109223.（通讯作者）

l  Liu, Q., Wu, Y., Ma, J., Jiang, J., You, X., Lv, R., Zhou, S., Pan, C., Liu, B., Xu, Q., Xie, Z. (2023). How does biochar influence soil nitrification and nitrification-induced N₂O emissions? Science of the Total Environment, 908.

l  Tisserant, A., Hu, X., Liu, Q., Xie, Z., Zhao, W., Cherubini, F.* (2023). Biochar and its potential to deliver negative emissions and better soil quality in Europe. Earth's Future, 11.

l  Zheng, X., Liu, Q.*, Ji, X., Cao, M., Zhang, Y., Jiang, J.* (2021). How do natural soil NH₄⁺, NO₃^- and N₂O interact in response to nitrogen input in different climatic zones? A global meta-analysis. Uropean Journal of Soil Science, 72: 2231-2245.

l  Liu, Q., Zhang, Y., Liu, B., Amonette, J. E., Lin, Z., Liu, G., et al. (2019). Biochar application as a tool to decrease soil nitrogen losses (NH₃ volatilization, N₂O emissions, and N leaching) from croplands: options and mitigation strength in a global perspective. Global Change Biology, doi.org/10.1111/gcb.14613.

l  Liu, Q., Zhang, Y., Liu, B., Amonette, J. E., Lin, Z., Liu, G., et al. (2018). How does biochar influence soil N cycle? a meta-analysis. Plant & Soil, 1-15.

l  Liu, Q., Liu, B., Zhang, Y., Lin, Z., Zhu, T., Sun, R., et al. (2017). Can biochar alleviate soil compaction stress on wheat growth and mitigate soil N₂O emissions? Soil Biology & Biochemistry, 104, 8-17.

l  Liu, Q., Liu, B. J., Ambus, P., et al. (2016). Carbon footprint of rice production under biochar amendment - a case study in a Chinese rice cropping system. Global Change Biology Bioenergy, 8(1), 148-159.

l  Liu, B., Liu, Q., Wang, X., Bei, Q., Zhang, Y., Lin, Z., Xie, Z. (2020). A fast chemical oxidation method for predicting the long-term mineralization of biochar in soils. Science of The Total Environment, 718, 137390.

l  Ma, J., Bei, Q., Wang, X., Lan, P., Liu, G., Lin, X., Liu, Q., et al. (2018). Impacts of Mo application on biological nitrogen fixation and diazotrophic communities in a flooded rice-soil system. Science of The Total Environment, 649, 686-694.

l  Lin, Z., Liu, Q., Liu, G., Cowie, A. L., Bei, Q., & Liu, B., et al. (2017). Effects of different biochars on pinus elliottii growth, N use efficiency, soil N₂O and CH₄ emissions and C storage in a subtropical area of china. Pedosphere, 27(2), 248-261.

l  Xie Z, Xu Y, Liu G., Liu, Q., et al. (2013) Impact of biochar application on nitrogen nutrition of rice, greenhouse-gas emissions and soil organic carbon dynamics in two paddy soils of China. Plant and Soil, 370, 527-540.

（2）所获奖项：

中国科学院百篇优秀博士论文, 2020.

江苏省微课教学比赛二等奖，2024.

  担任Plant and Soil等期刊审稿人