一、基本信息

姓名：但小倩                                              

学位：博士

职称：副教授

出生日期：1995年1月

主要研究方向：土壤氮转化及其环境效应

植物氮吸收对土壤氮转化过程的反馈作用

土壤退化与修复技术

招生专业：

博士研究生：作物学

硕士研究生：农艺与种业、农业资源与环境、资源利用与植物保护

二、联系方式

996428@hainanu.edu.cn

三、教育背景

2018.09-2023.06：南京师范大学，环境地理学，博士（硕博连读）

2014.09-2018.06：西华师范大学，地理科学，学士

四、科研与学术工作经历

2025.02至今 海南大学，副教授

2023.06-2025.02 海南大学，高聘副研究员

五、科研项目

[1] 国家自然科学基金青年项目，微塑料对海南冬季瓜菜土壤氮转化过程和N₂O排放的影响机制 （42407437），30万元，2025.1-2027.12，主持；

[2] 国家重点研发计划子课题，海南三亚中低产田水稻瓜类轮作体系绿色生态多样化种植技术集成示范（2018YFD020030502），40万，2023.12-2027.12，主持；

[3] 海南省自然科学基金青年项目，6万，主持；

[4] 海南大学科研启动经费项目，10万，主持；

[5] 文昌市第三次全国土壤普查外业调查采样项目资料审核及平台质控技术指导，8.7万，主持。

六、代表性成果

（一）论文

[1] Dan, X.Q. *, He, M.Q., Meng, L., He, X.X., Wang, X.G., Chen, S.D. Cai, Z.C., Zhang, J.B., Müller, C. (2023). Strong rhizosphere priming effects on N dynamics in soils with higher soil N supply capacity: The ‘Matthew effect’ in plant-soil systems. Soil Biology and Biochemistry, 108949.

[2] Dan, X.Q. *, Meng, L., He, M.Q., Chen, S.D., He, X.X., Zhao, C., Li, X., Cai, Z.C., Zhang, J.B., Müller, C. (2022). Gross N transformations and plant N use efficiency in intensive vegetable production soils. Soil Biology and Biochemistry, 108817.

[3] Dan, X.Q. *, Meng, L., He, M.Q., Chen, S.D., He, X.X., Zhao, C., Li, X., Cai, Z.C., Zhang, J.B., Müller, C. (2022). Regulation of nitrogen acquisition in vegetables by different impacts on autotrophic and heterotrophic nitrification. Plant and Soil 474, 581–594.

[4] Dan, X.Q. *, He, M.Q., Chen, S.D., He, X.X., Zhao, C., Meng, L., Cai, Z.C., Zhang, J.B., Müller, C. (2022). Reductive soil disinfestation promotes vegetable N uptake by regulating soil gross N transformation and improving the quality of degraded soil. Plant and Soil.

[5] Dan, X.Q. *, He, X.X., Zhao, C., He, M.Q., Chen, S.D., Cai, Z.C., Zhang, J.B., Müller, C. (2022). Greenhouse Vegetable Cultivation Weakens the Capacity of the Rhizosphere to Supply Soil Mineral N. Journal of Soil Science and Plant Nutrition 22, 4739-4751.

[6] Dan, X.Q. *, Chen, Z.X., Dai, S.Y., He, X.X., Cai, Z.C., Zhang, J.B., Müller, C. (2019). Effects of changing temperature on gross N transformation rates in acidic subtropical forest soils. Forests, 10(10), 894.

[7] Zhao, C., He, X.X., Dan, X.Q. *, He, M.Q, Zhao, J., Meng, H., Cai, Z.C., Zhang, J.B. (2022). Soil dissolved organic matters mediate bacterial taxa to enhance nitrification rates under wheat cultivation. Science of The Total Environment, 828, 154418.

[8] Zhao, C., He, X.X., Dan, X.Q. *, Zhao, J., Huang, X.Q., Cai, Z., Meng, H., Zhang, J. (2021). Specific dissolved organic matter components drive the assembly of a core microbial community in acidic soil of ammonium-preferring plants. Catena, 207, 105584.

[9] He, X.X., Chi, Q.D., Meng, L., Zhao, C., He, M.Q., Dan, X.Q. *, Huang, X.Q., Zhao, J., Zhang, J.B., Cai, Z., Müller, C. (2022). Plants with nitrate preference can regulate nitrification to meet their nitrate demand. Soil Biology and Biochemistry, 165, 108516.

[10] Wang, W., Zhu, Q., Dai, S., Meng, L., He, M., Chen, S., Zhao, C., Dan, X.Q.*, Cai, Z.C., Zhang, J.B., Müller, C. (2023). Effects of Solidago canadensis L. on mineralization-immobilization turnover enhance its nitrogen competitiveness and invasiveness. Science of The Total Environment, 882, 163641.

[11] Zhu, Q., Wang, W., Dai, S., Meng, L., He, M., Chen, S., Dan, X.Q.*, Cai, Z.C., Zhang, J.B., Müller, C. (2023). Effects of the number of 15 N-injection needles on the estimation of gross N transformation rates using 15 N tracing tool including plant. Biology and Fertility of Soils, 1-5.

[12] Ali, A., Elrys, A. S., Liu, L., Q., Wang, B., Li, Y., Dan, X.Q.*, Iqbal, M., Zhao, J., Huang, X.Q., Cai, Z. (2023). Deciphering the synergies of reductive soil disinfestation combined with biochar and antagonistic microbial inoculation in cucumber fusarium wilt suppression through rhizosphere microbiota structure. Microbial ecology, 85(3), 980-997.

[13] Chen, S., He, M., Zhao, C., Wang, W., Zhu, Q., Dan, X.Q.*, Meng, L., Zhang, S.N., Cai, Z.C., Zhang, J.B., Müller, C. (2022). Rice genotype affects nitrification inhibition in the rhizosphere. Plant and Soil, 481(1-2), 35-48.

[14] He, M.Q., Meng, L., Chen, S.D., Dan, X.Q. *, Zhao, C., He, X.X, Cai, Z.C., Zhang, J.B., Müller, C. (2022). Maize Seedlings Prefer NO3− Over NH4+ Independent of pH Changes. Journal of Soil Science and Plant Nutrition, 22(3), 2847-2856

[15]但小倩, 陈招兄, 程谊, 蔡祖聪, & 张金波. (2021). 红壤氮转化对土壤水分变化的响应. 浙江农林大学学报, 38(5), 896-905. (中文核心)