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本课题组研究方向为土壤-植物系统活性氮迁移转化规律与新型智能靶向肥料研制，为提高氮素利用效率与降低农业面源污染提供理论依据与技术支持。研究组长秦树平研究员入选中国科学院引才计划并获择优支持，多年来坚持兴趣驱动、快乐科研的理念，创建了国际领先的土壤反硝化研究平台，率先发现了人为氮输入激发关键带深层古碳矿化的矿物-微生物耦合机制，研发了包气带硝酸盐污染靶向修复技术。以第一/通讯作者身份在Science Advances、Global Change Biology、Soil Biology & Biochemistry、Environmental Science & Technology、Water Research等期刊发表论文30余篇。先后获得河北省与福建省杰青资助，获河北省科技进步一等奖、中国科学院院长奖、中国土壤学会优秀青年学者奖。入选中国科学院引才计划择优支持、河北省与福建省杰青、河北省优秀科技工作者、河北省拔尖人才。

1)        Qin,S.,Yuan,H.,Hu,C*.,Li,X.,Wang,Y.,Zhang,Y.,Dong W.,Clough T.,Luo,J.,Zhou,S.,Wrage-Monnig,N.,L,Ma.,Oenema,O. 2023. Anthropogenic N input increases global warming potential by awakening the “sleeping” ancient C in deep critical zones. Science Advances, 9(6),eadd0041.

2)        Qin,S*.,Pang,Y.,Hu,H.,Liu,T.,Yuan,D.,Clough,T., Wrage-Mönnig,N.,Luo,J.,Zhou,S*.,Hu,C*.,Oenema,O. (2024). Foliar N2O emissions constitute a significant source to atmosphere. Global Change Biology, 30(2),e17181.

3)        Qin,S.,Hu,C.,Clough,T.J.,Luo,J.,Oenema,O.,Zhou,S.,2019. Electrodes donate electrons for nitrate reduction in a soil matrix via DNRA and denitrification. Environmental Science & Technology, 53,2002-2012.

4)        Qin,S.,Clough,T.,Luo,J.,Wrage-Mönnig,N.,Oenema,O.,Zhang,Y.,Hu,C.,2017. Perturbation-free measurement of in situ di-nitrogen emissions from denitrification in nitrate-rich aquatic ecosystems. Water Research 109,94-101.

5)        Song,W.,Clough,T.,Hou,H.,& Qin,S*. (2024). Nitrate-induced hydroxyl radical releases deep soil organic carbon by opening the ‘enzyme latch’under micro-aerobic conditions. Soil Biology and Biochemistry, 192,109389.

6)        Yao,J.,Fu,Y.,Yu,Z.,Liu,T.,Clough,T. J.,Hu,C.,& Qin,S*. (2024). Interaction of rice root Fe plaque with radial oxygen loss enhances paddy-soil N₂O emission by increasing• OH production and subsequently inhibiting N₂O reduction. Soil Biology and Biochemistry,195，109475.

7)        Wu,P.,Xie,M.,Clough,T. J.,Yuan,D.,Wu,S.,He,X.,Hu,C.,Zhou,S.,Qin,S*. 2023. Biochar-derived persistent free radicals and reactive oxygen species reduce the potential of biochar to mitigate soil N2O emissions by inhibiting nosZ. Soil Biology and Biochemistry, 108970.

8)        Yuan,D.,Wang,G.,Hu,C*.,Zhou,S.,Clough,T. J.,Wrage-Monnig,N.,Luo,J.,Qin,S*.,2022. Electron shuttle potential of biochar promotes dissimilatory nitrate reduction to ammonium in paddy soil. Soil Biology and Biochemistry,108760.

9)        Yao,J.,Qin,S*.,Liu,T.,Clough,T. J.,Wrage-Monnig,N.,Luo,J.,Hu,C.,Ge,T.,Zhou,S.,2022. Rice root Fe plaque enhances oxidation of microbially available organic carbon via Fe (III) reduction-coupled microbial respiration. Soil Biology and Biochemistry,167,108568.

10)     Yuan,H.,Zeng,J.,Yuan,D.,Zhang,L.,Qin,S*.,Wrage-Mönnig,N.,Clough,T.,Zhou,S.,2020. Co-application of a biochar and an electric potential accelerates soil nitrate removal while decreasing N₂O emission. Soil Biology and Biochemistry 149,107946.

11)     Yuan,H,Zhang,Z.,Qin,S.,* Zhou,S.,Hu,C.,Clough,T.,Nicole Wrage-Mönnig,Shungui Zhou,2019. Biochar’s role as an electron shuttle for mediating soil N₂O emissions. Soil Biology and Biochemistry,133,94-96.

12)     Qin,S.,Hu,C.,Clough,T.J.,Luo,J.,Oenema,O.,Zhou,S.,2017. Irrigation of DOC-rich liquid promotes potential denitrification rate and decreases N₂O/(N₂O+N₂) product ratio in a 0–2 m soil profile. Soil Biology and Biochemistry 106,1-8.

13)     Yao,J.,Xie,M.,Yu,L.,Liu,T.,Clough,T. J.,Wrage-Mönnig,N.,Luo,J.,Hu,C.,Ge,T.,Zhou,S.,Qin,S*. (2024). Rice root Fe plaque increases paddy soil CH4 emissions via the promotion of electron transfer for syntrophic methanogenesis. Soil Biology and Biochemistry, 191,109332.

14)     Qin,S.,Pang,Y.,Clough,T.,Wrage-Mönnig,N.,Hu,C.,Zhang,Y.,Zhou,S.,Fang,Y.,2017. N₂ production via aerobic pathways may play a significant role in nitrogen cycling in upland soils. Soil Biology and Biochemistry 108,36-40.

15)     Qin,S.,Zhang,Z.,Yu,L.,Yuan,H.,Clough,T.,Wrage-Mönnig,N.,Luo,J.,Zhou,S.,2017. Enhancement of subsoil. Enhancement of subsoil denitrification using an electrode as an electron donor. Soil Biology and Biochemistry 115,511-515

16)     Qin,S.,Yuan,H.,Dong,W.,Hu,C.,Oenema,O.,Zhang,Y.,2013. Relationship between soil properties and the bias of N₂O reduction by acetylene inhibition technique for analyzing soil denitrification potential. Soil Biology and Biochemistry 66,182-187.

17)     Qin,S.,Yuan,H.,Hu,C.,Oenema,O.,Zhang,Y.,Li,X.,2014. Determination of potential N₂O-reductase activity in soil. Soil Biology and Biochemistry 70,205-210.

18)     Qin,S.,Hu,C.,Oenema,O.,2012. Quantifying the underestimation of soil denitrification potential as determined by the acetylene inhibition method. Soil Biology and Biochemistry 47,14-17.

19)     Ting Liu,Shuping Qin^*, Yaxing Pang,Jinzhi Yao,Xueqing Zhao,Tim Clough,Nicole Wrage-Mönnig,Shungui Zhou.,Rice root Fe plaque enhances paddy soil N₂O emissions via Fe(II) oxidation-coupled denitrification. Soil Biology and Biochemistry. 139,107610.

发明专利：

(1) 秦树平;胡春胜;张玉铭;董文旭;气体排放测定装置及使用其测定微量氮气排放通量的方法,2016-04-06,中国,ZL201410750734.1 (发明专利)

(2) 刘婷;余林鹏;庞亚星;赵雪晴;秦树平;周顺桂;一种水稻根部铁膜促进土壤硝酸盐还原的方法,2022-2,中国,ZL20181340711.8 (发明专利)

(3) 秦树平;丁可人;袁海静;张志君;庞亚星;刘婷;周顺桂;一种促进土壤中硝酸盐还原的方法,2021,中国,ZL201810047438.3 (发明专利)

(4) 张玉铭;胡春胜;秦树平;董文旭;测定氧化亚氮在土壤中扩散与还原过程的装置,2015-12-02,中 国,ZL201420024589.4 (发明专利)

1)     河北省拔尖人才（专技）（2024）

2)     河北省优秀科技工作者（2023）

3)     河北省基金委创新研究群体学术带头人（2022）

4)     国家重点研发计划首席青年科学家（2021）

5)     中国科学院引才计划入选者（2020）

6)     中国土壤学会优秀青年学者奖（2018）

7)     福建省杰出青年科学基金获得者（2018）

8)     福建省引进高层次人才入选者（2018）

9)     福建农林大学金山学者特聘教授（2016）

10)    河北省杰出青年科学基金获得者（2015）

11)    河北省科技进步一等奖（2014）

12)    中国科学院青年创新促进会会员（2013）

13)    中国科学院院长优秀奖（2011）