1. Huete, A. G. Ponce-Campos, Y. Zhang, N. Restrepo-Coupe, X.Ma, and M.-S. Moran. Measuring photosynthesis (productivity) from space. Land Resources Monitoring, Modeling, and Mapping with Remote Sensing in Remote Sensing Handbook (vol. 2) (Prasad S. Thenkabail, Editor).

(二)代表性学术论文( * 通讯作者):


35. S. Wang, Y. Zhang*, J.Hakkarainen, W.Ju, Y. Liu*, F. Jiang, W. He.  Distinguishing anthropogenic CO2 emissions from different energy intensive industrial sources using OCO‐2 observations: a case study in northern China. Journal of Geophysical Research: Atmosphere   

34. Z.Zhang, Y. Zhang*, J. Joiner, M.Migliavacca. Angle matters: bidirectional effects impact the slope of relationship between gross primary productivity and sun‐induced chlorophyll fluorescence from Orbiting Carbon Observatory‐2 across biomes. Global Change Biology, 2018,  

33.  Song L., L. Guanter, K. Guan, L. You, A. Huete, W. Ju, Y. Zhang*. Satellite sun-induced chlorophyll fluorescence detects early response of winter wheat to heat stress in the Indian Indo-Gangetic. Global Change Biology, 2018, DOI: 10.1111/GCB.14302.

32.  Zhang Y. , X. Xiao, S. Wolf, J.Wu, X.i Wu, B.Gioli, G. Wohlfahrt, A. Cescatti, C. van der Tol, S.Zhou, C.M. Gough, P. Gentine, Y. Zhang, R. Steinbrecher and J. Ardö. Spatio-temporal Convergence of Maximum Daily Light‐Use Efficiency Based on Radiation Absorption by Canopy Chlorophyll.  Geophysical Research Letters, 2018, 15 April,

31.   Zhang Y.*, L. Guanter, J. Joiner, L. Song, K. Guan. Spatially-explicit monitoring of crop photosynthetic capacity through space-based chlorophyll fluorescence data. Remote Sensing of Environment, 2018,210, 362-374.

30.   章钊颖,王松寒,宋练,邱博,张永光*.日光诱导叶绿素荧光遥感反演及碳循环应用进展. 遥感学报,2018 (待刊).

29.  Qiu B., Y. Xue, J. B. Fisher, W. Guo, J. A. Berry, Y. Zhang. Satellite Chlorophyll Fluorescence and Soil Moisture Observations Lead to Advances in the Predictive Understanding of Global Terrestrial Coupled Carbon‐Water Cycles. Global Biogeochemical Cycles, 2018,

28.   Zhang Y., X Xiao, Y Zhang, S Wolf, S Zhou, J Joiner, L Guanter, et al. On the relationship between sub-daily instantaneous and daily total gross primary production: Implications for interpreting satellite-based SIF retrievals. Remote Sensing of Environment, 2018, 205, 276-289.


27. M Zan, Y Zhou, W Ju, Y Zhang, L Zhang, Y Liu. Performance of a two-leaf light use efficiency model for mapping gross primary productivity against remotely sensed sun-induced chlorophyll fluorescence data. Science of The Total Environment, 2017, 613, 977-989.

26. Qian Zhang, Jing M. Chen, Weimin Ju, Huimin Wang, Feng Qiu, Fengting Yang, Weiliang Fan, Qing Huang, et al. Improving the ability of the photochemical reflectance index to track canopy light use efficiency through differentiating sunlit and shaded leaves. Remote Sensing of Environment, 2017, 194: 1-15.


25. Yang H., Yang X., Zhang Y., Heskel M.A., Lu X., Munger J.W., Sun S., Tang J. Chlorophyll fluorescence tracks seasonal variations of photosynthesis from leaf to canopy in a temperate forest. Global Change Biology, 2016 Dec 14. doi: 10.1111/gcb.13590.

24. Ma X., Huete A., Cleverly J., Eamus D., Chevallier F., Joiner J., Poulter B., Zhang Y., Guanter L., Meyer W., Xie Z., Ponce-Campos G. Drought rapidly diminishes the large net CO2 uptake in 2011 over semi-arid Australia. Scientific Report, 2016 Nov 25; 6:37747. doi: 10.1038/srep37747.

23. Zhang Y.*, L. Guanter, J.A. Berry, C. van der Tol, X. Yang, J. Tang, F. Zhang. Model-based analysis of the relationship between sun-induced chlorophyll fluorescence and gross primary production for remote sensing applications. Remote Sensing of Environment, 2016, 187, 145-155, 10.1016/j.rse.2016.10.016.

22. Walther S., Voigt M., Thum T., Gonsamo A., Zhang Y., Koehler P., Jung M., Guanter L. Satellite chlorophyll fluorescence measurements reveal large-scale decoupling of photosynthesis and greenness dynamics in boreal evergreen forests. Global change biology, 2016, doi:10.1111/gcb.13200.

21. Wagle P., Y. Zhang*, C.Jin, and X. Xiao. Comparison of solar-induced chlorophyll fluorescence, light-use efficiency, and process-based GPP models in maize. Ecological Applications, 2016, 26(4), 1211–1222.

20. Zhang Y., X. Xiao, C. Jin, J. Dong, S. Zhou, P. Wagle, J. Joiner, L. Guanter, Y. Zhang, G. Zhang, Y. Qin, J. Wang, B. Moore III. Consistency between sun-induced chlorophyll fluorescence and gross primary production of vegetation in North America. Remote Sensing of Environment, 2016,183, 154-169.

19. Guan K., J. Berry, Y. Zhang, J. Joiner, L. Guanter, G. Badgley, and D. B. Lobell. Improving the monitoring of crop productivity using spaceborne solar-induced fluorescence. Global Change Biology, 2016, 22, 716–726, doi: 10.1111/gcb.13136.

18. 张乾, 居为民*, 杨风亭, 曹林, 冯永康. 森林冠层多角度高光谱观测系统的实现与分析. 南京林业大学学报(自然科学版), 2016, 40 (03): 101-107.


17. Zhang Y. *, M. Voigt, H. Liu. Contrasting responses of terrestrial ecosystem production to hot temperature extreme regimes between grassland and forest. Biogeosciences, 2015, 12, 549-556.

16. Qian Zhang, Weimin Ju, Jing M. Chen*, Huimin Wang, Fengting Yang, Weiliang Fan, Qing Huang, Ting Zheng, et al. Ability of the Photochemical Reflectance Index to Track Light Use Efficiency for a Sub-Tropical Planted Coniferous Forest. Remote Sensing, 2015, 7 (12): 16938-16962.


15. Zhang Y. *, L. Guanter, J.A. Berry, C. van der Tol, J. Joiner, A. Huete, A. Gitelson, M. Voigt, P. Kohler. Estimation of vegetation photosynthetic capacity from space-based measurements of chlorophyll fluorescence for terrestrial biosphere models. Global Change Biology, 2014/10, doi: 10.1111/gcb.12664.

14. Guanter L., Y. Zhang, M. Jung, J. Joiner, M.Voigt, J. A. Berry, C. Frankenberg, A. Huete, P. Zarco-Tejada, J-E. Lee, M. S. Moran, G. Ponce-Campos, C. Beer, G. Camps-Valls, N. Buchmann, D. Gianelle, K. Klumpp, A. Cescatti, J. Baker, and T.J. Griffis. Linking large-scale chlorophyll fluorescence measurements with crop gross primary production. PNAS, 2014 /6, doi: 10.1073/ pnas.1406996111.

13. Zhang Y. *, M. Voigt, H. Liu. Contrasting responses of terrestrial ecosystem production to hot temperature extreme regimes between grassland and forest. Biogeosciences, Discuss., 11, 1–21, 2014, doi:10.5194/bgd-11-1-2014.

12. Joiner J., Y. Yoshida, A. P. Vasilkov, K. Schaefer, M. Jung, L. Guanter, Y. Zhang, S. Garrity, E. M. Middleton, K. F. Huemmrich, L. Gu. The seasonal cycle of satellite chlorophyll fluorescence observations and its relationship to vegetation phenology and ecosystem-atmosphere carbon exchange. Remote Sensing of Environment, 2014,152, 375-391.

11. Guanter L.#, Y. Zhang#, M. Jung, J. Joiner, M.Voigt, J. A. Berry, C. Frankenberg, A. Huete, P. Zarco-Tejada, J-E. Lee, M. S. Moran, G. Ponce-Campos, C. Beer, G. Camps-Valls, N. Buchmann, D. Gianelle, K. Klumpp, A. Cescatti, J. Baker, and T.J. Griffis. Global and time-resolved monitoring of crop photosynthesis with chlorophyll fluorescence. PNAS, 2014/3, doi: 10.1073/pnas.1320008111 (共同一作, NASA and Science news report).

10. Moran M.S., G. Ponce, A.R. Huete, M.P., McClaran, Y. Zhang, , E. P. Hamerlynck, D. Augustine, S.G. Kitchen, and D. Peters. Functional Response of U.S. Grasslands to the Early 21st Century Drought. Ecology, 2014, 95:2121-2133.


9. Ponce G., Moran M.S., A.R. Huete, Y. Zhang, C. Bresloff, T. Huxman, D. Bosch, M.P., McClaran, S.G. Kitchen, A. Buda, S. Gunter, H. McNab, D. Peters, P. Starks, D.S. Montoya, T. Heartsill, T. McVicar, D. Eamus, and R. Donohue. Ecosystem resilience despite large-scale altered hydroclimatic conditions. Nature, 2013/1, DOI: 10.1038/nature11836.

8. Zhang Y. *, M.S. Moran, M.A. Nearing, G. Ponce, A.R. Huete, H S.G. Kitchen, J.A. Morgan, M.P., McClaran, R.G. Denten, A. Buda, S. Gunter, H. McNab, D. Peters, and P. Starks. Extreme precipitation patterns reduced terrestrial ecosystem production across biomes. JGR-Biogeoscience, 2013, doi:10.1029/2012JG002136. (AGU Research Spotlight).


7. Zhang Y. *, M. Hernandez, E. Anson, M.A. Nearing, H. Wei, J.J. Stone, and P. Heilman. Modeling climate change effects on runoff and erosion in southeastern Arizona rangelands and mitigation with traditional rangeland conservation practices. Journal of Soil and Water Conservation. 2012, 08, 67:390-405.
6. Wei, H., P. Heilman, J. Qi, M.A. Nearing, Z. Gu, Y. Zhang. Using TIMESAT with AVHRR imagery to analyze phenology in China from 1982 to 2006. Frontiers in earth science.2012, 6(3): 227–2DOI 10.1007/s11707-012-0321-3.


5. Zhang Y. *, M. A. Nearing, B. Liu, R.S. Van Pelt, J.J. Stone, H. Wei, R.L. Scott. Comparative rates of wind versus water erosion from a small semiarid watershed in southern Arizona, USA. Aeolian Research. 2011, 3:197-204.
4. Zhang Y., M. A. Nearing, X. Zhang, Y. Xie, H. Wei. Projected rainfall erosivity changes under climate change from multimodel and multiscenario projections in Northeast China. Journal of Hydrology. 2010, 384:97-106.
3. Wu Y., Q. Zheng, Y. Zhang*, B. Liu, H. Cheng, Y. Wang. Development and sediment production of gullies in black soil region of Northeast China. Geomorphology. 2008, 101:683- 691.
2. Zhang Y., Wu Y., Liu B., Zheng Q., Yin J. Characteristics and factors controlling the development of ephemeral gullies in cultivated catchments of black soil region, Northeast China. 2007. Soil and Tillage Research 2007, 96:28-41. (IF: 2.575, Citations: 54)
1. Hu G., Wu Y., Liu B., Yu Z., You Z., Y. Zhang. Short-term gully retreat rates over rolling hill areas in black soil of Northeast China. 2007. Catena 2007, 71: 321-329.