吳迪

2007.09-2011.07山東農業大學 農學系 本科 農學學士

2011.09-2013.07 中國農業大學 生態學系 理學碩士

2013.09-2017.07 德國波恩大學 作物與資源保護學院 農學博士 ^[1] 

2017.10-2018.01德國亥姆霍茲國家聯合會於利希研究中心 博士後

2018.01-2018.04德國聯邦農業食品部杜能研究所 博士後

2018.04-2019.03 英國班戈大學 博士後

2019.03-至今 中國農業大學 資源環境學院 副教授 ^[1] 

1. 生態農業與可持續農業

2. 全球氣候變化與温室氣體減排

3. 土壤碳氮生物地球化學循環 ^[1] 

2019年:

1. Senbayram, M., Budai, A., Bol, R., Chadwick, D., Marton, L., Gündogan, R., Wu, D*. (2019). Soil NO3− level and O2 availability are key factors in controlling N2O reduction to N2 following long-term liming of an acidic sandy soil. Soil Biology and Biochemistry, 132, 165-173.

2. Xu, C., Han, X., Ru, S., Cardenas, L., Rees, R. M., Wu, D., Wu, W. Meng, F*. (2019). Crop straw incorporation interacts with N fertilizer on N2O emissions in an intensively cropped farmland. Geoderma, 341, 129-137.

3.Tan, Y., Wu, D Bol, R., Wu, W., & Meng, F.* (2019). Conservation farming practices in winter wheat–summer maize cropping reduce GHG emissions and maintain high yields. Agriculture, Ecosystems & Environment, 272, 266-275.

4.Senbayram, M., Saygan, E. P., Chen, R., Aydemir, S., Kaya, C., Wu, D*., Bladogatskaya, E. (2019). Effect of biochar origin and soil type on the greenhouse gas emission and the bacterial community structure in N fertilised acidic sandy and alkaline clay soil. Science of The Total Environment, 660, 69-79.

2018年

1.Wu, D., Wei, Z., Well, R., Jun, S., Yan, X., Bol, R., Senbayram, M*. 2018. Straw amendment with nitrate-N decreased N2O/(N2O，N2) ratio but increased soil N2O emission: A case study of direct soil-born N2 measurements. Soil Biology and Biochemistry, 127, 301-304.

2.Senbayram, M., Well, R., Bol, R., Chadwick, D. R., Jones, D. L., & Wu, D*. (2018). Interaction of straw amendment and soil NO3-content controls fungal denitrification and denitrification product stoichiometry in a sandy soil. Soil Biology and Biochemistry. 126，204-212

3.Wu, D., Senbayram, M*., Zang, H., Ugurlar, F., Aydemir, S., Brüggemann, N., . Blagodatskaya, E. (2018). Effect of biochar origin and soil pH on greenhouse gas emissions from sandy and clay soils. Applied Soil Ecology. 129: 121-127

4.Wu, D, , Zhao,Z, Han,X, Meng,F*, Wu, W, Zhou M, Brüggemann, N., Bol, R. (2018). Potential dual effect of nitrification inhibitor 3,4-dimethylpyrazole phosphate on nitrifier denitrification in the mitigation of peak N2O emission events in North China Plain cropping systems . Soil Biology and Biochemistry. 113: 153-160

5.Well, R., Buchen, C., Köster, J. R., Lewicka-Szczebak, D., Rohe, L., Senbayram, M., Wu, D. (2018). A critique of the paper ‘Estimate of bacterial and fungal N2O production processes after crop residue input and fertilizer application to an agricultural field by 15N isotopomer analysis’, by Yamamoto et al.(2017), Soil Biology & Biochemistry 108, 9–16. Soil Biology and Biochemistry.

2017年:

1. Wu, D*., Cárdenas, L. M., Calvet, S., Brüggemann, N., Loick, N., Liu, S., & Bol, R. (2017). The effect of nitrification inhibitor on N2O, NO and N2 emissions under different soil moisture levels in a permanent grassland soil. Soil Biology and Biochemistry，113: 153-160

2. Wu, D*., Senbayram, M., Well, R., Brüggemann, N., Pfeiffer, B., Loick, N., Stempfhuber, B., Dittert, K., Bol, R., (2017). Nitrification inhibitors mitigate N2O emissions more effectively under straw-induced conditions favoring denitrification. Soil Biology and Biochemistry ，104: 197-207

3. Nguyen, Q., Wu, D., Kong, X., Bol, R., Petersen, S., Jensen, L., Liu, S., Bruggemann, N., Glud, N., Larsen, M., Bruun, S*., (2017). Effects of cattle slurry and nitrification inhibitor application on spatial soil O2 dynamics and N2O production pathways. Soil Biology and Biochemistry. 114: 200-209

4. Zhao, Z, Wu, D., Bol, R, Meng,F*, Wu, W., (2017). Nitrification inhibitor's effect on mitigating N2O emissions was weakened by urease inhibitor in calcareous soils. Atmospheric Environment. 166: 142-150.

5. Liu, S., Berns, A. E., Vereecken, H., Wu, D., Brüggemann, N*. (2017). Interactive effects of MnO2, organic matter and pH on abiotic formation of N2O from hydroxylamine in artificial soil mixtures. Scientific Reports 7: 39590

6. Nguyen, Q., Glud, N., Wu, D., Bol, R., Petersen, S., Jensen,., Larsen, M., Bruun, S., (2017) Biogas Digester Hydraulic Retention Time Affects Oxygen Consumption Patterns and Greenhouse Gas Emissions after Application of Digestate to Soil. Journal of Environmental Quality. 46(5): 1114-1122.

7. Ciganda, V. S*., López-Aizpún, M., Repullo, M. A., Wu, D., Terra, J. A., Elustondo, D., Cardenas, L. M. (2019). Soil nitrous oxide emissions from grassland: Potential inhibitor effect of hippuric acid. Journal of Plant Nutrition and Soil Science, 182(1), 40-47.

2016年:

1.Wu, D*., Köster, J.R., Cárdenas, L.M., Brüggemann, N., Lewicka-Szczebak, D., Bol, R., (2016). N2O source partitioning in soils using 15N site preference values corrected for the N2O reduction effect. Rapid Communications in Mass Spectrometry 30(5): 620-626 ^[1]