第一或通讯作者SCI文章
1. Peng YF, Wang GQ, Li F, Yang GB, Fang K, Liu L, Qin SQ, Zhang DY, Zhou GY, Fang HJ, Liu XJ, Liu CY, Yang YH. 2019. Unimodal response of soil methane consumption to increasing nitrogen additions. Environmental Science & Technology, 53: 4150–4160
2. Peng YF, Peng, Z.P, Zeng, X.T, Houx JH. 2019. Effects of nitrogen-phosphorus imbalance on plant biomass production: a global perspective. Plant and Soil, 436: 245–252
3. Peng YF, Wang, GQ, Li F, Zhou G Y, Yang GB, Fang K, Liu L, Qin SQ, Zhang DY, Yang YH. 2018. Soil temperature dynamics modulate N2O flux response to multiple nitrogen additions in an alpine steppe. Journal of Geophysical Research: Biogeosciences, 123: 3308–3319
4. Peng YF, Li F, Zhou GY, Fang K, Zhang DY, Li CB, Yang GB, Wang GQ, Wang J, Yang YH. 2017. Linkages of plant stoichiometry to ecosystem production and carbon fluxes with increasing nitrogen inputs in an alpine steppe. Global Change Biology, 23: 5249-5259
5. Peng YF, Guo DL, Yang YH. 2017. Global patterns of root dynamics under nitrogen enrichment. Global Ecology and Biogeography, 26: 102-114
6. Li F#, Peng YF#, Natali SM, Chen KL, Han TF, Yang GB, Ding JZ, Zhang DY, Wang GQ, Wang J, Yu JC, Liu FT, Yang YH. 2017. Warming effects on permafrost ecosystem carbon fluxes are correlated with plant nutrients. Ecology, 98: 2851-2859 (#共同一作)
7. Peng YF, Li F, Zhou GY, Fang K, Zhang DY, Li CB, Yang GB, Wang GQ, Wang J, Mohammat A, Yang YH. 2017. Nonlinear response of soil respiration to increasing nitrogen additions in a Tibetan alpine steppe. Environmental Research Letters, 12: 024018
8. Zeng XT, Peng YF*. 2017. Stimulated fine root growth benefits maize nutrient uptake under optimized nitrogen management. International Journal of Plant Production, 11: 89-100 (*通讯作者)
9. Peng YF, Yang YH. 2016. Allometric biomass partitioning under nitrogen enrichment: Evidence from manipulative experiments around the world. Scientific Reports, 6: 28918
10. Peng YF, Zeng XT, Houx JH, Boardman DL, Li CJ, Fritschi FB. 2016. Pre- and post-silking carbohydrate concentrations in maize ear-leaves and developing ears in response to nitrogen availability. Crop Science, 56: 1-10
11. Peng YF, Li CJ, Fritschi FB. 2014. Diurnal dynamics of maize leaf photosynthesis and carbohydrate concentrations in response to differential N availability. Environmental and Experimental Botany, 99: 18-27
12. Peng YF, Yu P, Li XX, Li CJ. 2013. Determination of the critical soil mineral nitrogen concentration for maximizing maize grain yield. Plant and Soil, 372: 41-51
13. Peng YF, Li CJ, Fritschi FB. 2013. Apoplastic infusion of sucrose into stem internodes during female flowering does not increase grain yield in maize plant grown under nitrogen limiting conditions. Physiologia Plantarum, 148: 470-480
14. Peng YF, Li XX, Li CJ. 2012. Temporal and spatial profiling of root growth revealed novel response of maize roots under various nitrogen supplies in the field. PLoS ONE, 7: e37726
15. Peng YF#, Yu P#, Zhang Y, Sun G, Ning P, Li XX, Li CJ. 2012. Temporal and spatial dynamics in root length density of field-grown maize and NPK in the soil profile. Field Crops Research, 115: 85-93 (#共同一作)
16. Peng YF, Niu JF, Peng ZP, Zhang FS, Li CJ. 2010. Shoot growth potential drives N uptake in maize plants and correlates with root growth in the soil. Field Crops Research, 115: 85-93