张永光

发布时间:2026-04-13浏览次数:19

学术论文( * 通讯作者)

2025

  1.  Cao R., Y.G. Zhang*, A.  Cescatti, P. Ciais, J.Sardans, C.Y. Wu, C.M. Zohner, M.  Fernández-Martínez, A.Descals, J. Peñuelas. Tree species richness  promotes long-term increases of photosynthesis in global forests. Nature Climate Change (under revision)

  2.  Lai G., Y.G. Zhang*, C.Y. Wu*,A.  Cescatti, G. Duceiller,J.G. Pausas, S. Hantson, Z. Zhang, A.Descals, M.  Cao, H. Lu, J. Peñuelas. Vegetation greening enhances global fire  activity. PNAS (under review)

  3.  Cao R., Y.G. Zhang*, M.  Fernández-Martínez, A. Descals, J. Sardans, J. Peñuelas. Enhanced  forest temperature regulation promotes heat resistance of  photosynthesis. Nature Plants (under revision)

  4.  Zhang, Z., Fu A., Xu J., Lin J., Zhang X. & Y.G. Zhang*. First  Global Retrievals of Solar Induced Chlorophyll Fluorescence from the  SIFIS Instrument onboard the Chinese Goumang Satellite. Geophysical  Research Letters, 2025, 52(21), e2025GL118327.

  5.  Bai S., Li F., Yan Y., Huang Q., Jiang F., Chen H., & Y.G. Zhang*. Seasonal  Variations of Methane Emissions from a Urumqi Landfill in China and its  driving factors using Hyperspectral Satellite Time-Series Observations.  Journal of Geophysical Research: Atmospheres, 2025, 130(20), e2025JD044272.

  6.  Zhang, Z., & Y.G. Zhang*. Fluorescence  efficiency-derived physiological optimal temperature improving the  estimation of photosynthesis. Geophysical Research Letters, 52, 2025,  e2025GL116420. https://doi.org/10.1029/2025GL116420

  7. Zhang Y.G., R.  Cao. Greater tree species richness results in increased ecosystem  photosynthesis in forests globally. Nat. Plants 11, 1237–1238 (2025).  https://doi.org/10.1038/s41477-025-02055-0

  8.  Cao R., Y.G. Zhang*, M.  Fernández-Martínez, Z. Zhang, G. Lai, W. Ju, J. Peñuelas. Global  evidence of positive effects of richness of tree species on ecosystem  photosynthesis. Nature Plants , 11, 1429–1440 (2025). https://doi.org/10.1038/s41477-025-02046-1

  9.  Zhao D., Zhang Z., Y.G. Zhang*.  Large-scale diurnal responses of solar-induced chlorophyll fluorescence  (SIF) to varying heat and water stresses: Implications for monitoring  SIF variations from satellite observations. Remote Sensing of Environment, 2025, 324: 114748.

  10.  Lai G., and Y.G. Zhang*. Increased Atmospheric Aridity and Reduced Precipitation Drive the 2023 Extreme Wildfire Season in Canada. Geophysical Research Letters, 2025, 52(6), e2024GL114492. https://dx.doi.org/10.1029/2024GL114492.

  11.  Zhang, Z.Y., Y.G. Zhang. Mitigating the directional retrieval error of solar-induced chlorophyll fluorescence in the red band. Remote Sensing of Environment, 2025, 316: 114496.

2024

  1.  Pei L., Y.G. Zhang*,  Z.Y. Zhang, Y.F. Wu, Y.Q. Hou, L.S. Wu. Evaluating the capability of  low-configuration spectrometers to retrieve far-red solar-induced  chlorophyll fluorescence and its application for identifying crop growth  stages. Journal of Remote Sensing, 2024. 4: 0369. https://doi.org/10.34133/remotesensing.0369

  2.  Lai G.K., J.L. Li, J. Wang, C.Y. Wu*, Y.G. Zhang*, C.M. Zohner, J. Peñuelas, Q.S. Ge*. Earlier peak photosynthesis timing potentially escalates global wildfires. National Science Review, 2024. 11(9): nwae292. https://doi.org/10.1093/nsr/nwae292

  3.  Zang J.L., F. Qiu, Y.G., Zhang*. A global dataset of forest regrowth following wildfires. Scientific Data, 2024. 11(1): 1052. https://doi.org/10.1038/s41597-024-03896-8

  4.  Li F., S.X. Bai, K.E. Lin, C.X. Feng, S.W. Sun, S.H. Zhao, Z.T. Wang, W. Zhou, C.Y. Zhou, Y.G. Zhang*.  Satellite-based surveys reveal substantial methane point-source  emissions in major oil & gas basins of North America during  2022-2023. Journal of Geophysical Research: Atmospheres, 2024. 129(19): e2024JD040870. https://doi.org/10.1029/2024JD040870

  5.  Jin S.C., C.H. Zhan, W.W. Liu, L.X. Ma, Z.H. Li, X.K. Zhang, Y.F. Wu, Q. Zhang, G. Zheng, Y.G. Zhang*. A LiDAR-driven three-dimensional simulation model for far-red solar-induced chlorophyll fluorescence in forests. Remote Sensing of Environment, 2024. 314: 114391. https://doi.org/10.1016/j.rse.2024.114391

  6.  Bai S.X., Y.G. Zhang*,  F. Li, Y.Q. Yan, H.L. Chen, S.Z. Feng, F. Jiang, S.W. Sun, Z.T. Wang,  C.Y. Zhou, W. Zhou, S.H. Zhao. High-resolution satellite estimates of  coal mine methane emissions from local to regional scales in Shanxi,  China. Science of The Total Environment, 2024. 950: 175446. https://doi.org/10.1016/j.scitotenv.2024.175446

  7.  Shen P.J., X.Y. Wang, C.M. Zohner, J. Peñuelas, Y.Y. Zhou, Z.Y. Tang, J.Y. Xia, H. Zheng, Y.S. Fu, J.J. Liang, W.W. Sun*, Y.G. Zhang*, C.Y. Wu*. Biodiversity buffers the response of spring leaf unfolding to climate warming. Nature Climate Change, 2024. 14(8): 863-868. https://doi.org/10.1038/s41558-024-02035-w

  8.  Li J.L., Y. Jiang, J. Liu, L.S. Wu, N. Xu, Z.Y. Zhang, D.Y. Zhao, G. Li, P. Wang, W. Li, B. Zhu*, Y.G. Zhang*, J. Zhu*. A photosynthetically active radiative cooling film. Nature Sustainability, 2024. 7(6): 786-795. https://doi.org/10.1038/s41893-024-01350-6

  9.  Wu L.S., Y.G. Zhang*,  Z.Y. Zhang, X.K. Zhang, Y.F. Wu, J.M. Chen. Deriving photosystem-level  red chlorophyll fluorescence emission by combining leaf chlorophyll  content and canopy far-red solar-induced fluorescence: Possibilities and  challenges. Remote Sensing of Environment, 2024. 304: 114043. https://doi.org/10.1016/j.rse.2024.114043

  10.  Wu, Y.F., Z.Y. Zhang, L.S. Wu, Y.G. Zhang. Solar-induced chlorophyll fluorescence tracks canopy photosynthesis under dry conditions in a semi-arid grassland. Agricultural and Forest Meteorology, 2024. 356: 110174. https://doi.org/10.1016/j.agrformet.2024.110174

  11.  Liu, Y., J. Penuelas, A. Cescatti, Y.G. Zhang, Z.Y. Zhang. Atmospheric dryness dominates afternoon depression of global terrestrial photosynthesis. Geophysical Research Letters, 2024. 51(24): e2024GL110954. https://doi.org/10.1029/2024GL110954

  12.  Zhang, L.Y., F. Jiang, W. He, M.S. Wu, J. Wang, W.M. Ju, H.M. Wang, Y.G. Zhang, S. Sitch, J.M. Chen. Improved estimates of net ecosystem exchanges in mega-countries using GOSAT and OCO-2 observations. Communications Earth & Environment, 2024. 5(1): 737. https://doi.org/10.1038/s43247-024-01910-w

  13.  Su,  Y.X., X.Y. Li, C.Q. Zhang, W.T. Yan, P. Ciais, S.C. Cook-Patton, O.L.  Phillips, J.L. Shang, A. Cescatti, J.M. Chen, J. Liu, J. Chave, C.E.  Doughty, V. Heinrich, F. Tian, Y.Q. Luo, Y. Liu, Z. Yu, D.L. Hao, S.L.  Tao, Y.G. Zhang,  Z.Z. Zeng, R. Lafortezza, Y.Y. Huang, L. Fan, X.H. Wang, Y.W Qin, Q.W.  Ran, K. Yan, X.P. Liu, L.Y. Liu, Y.M. Yue, J.S. Ren, W.P. Yuan, X.Z.  Chen. Carbon accumulation rate peaks at 1,000-m elevation in tropical  planted and regrowth forests. One Earth, 2024: 101147. https://doi.org/10.1016/j.oneear.2024.11.001

  14.  Naethe,  P., A.D. Sanctis, A. Burkart, P.K.E. Campbell, R. Colombo, B.D. Mauro,  A. Damm, T. El-Madany, F. Fava, J.A. Gamon, K.F. Huemmrich, M.  Migliavacca, E. Paul-Limoges, U. Rascher, M. Rossini, D. Schuttemeyer,  G. Tagliabue, Y.G. Zhang,  T. Julitta. Towards a standardized, ground-based network of  hyperspectral measurements: Combining time series from autonomous field  spectrometers with Sentinel-2. Remote Sensing of Environment, 2024. 303: 114013.

  15.  Li, J.L., C.Y. Wu, Y.G. Zhang, J. Penuelas, L. Liu, Q.S. Ge. Weakening warming on spring freeze–thaw cycle caused greening Earth’s third pole. Proceedings of the National Academy of Sciences, 2024. 121(8): e2319581121. https://doi.org/10.1073/pnas.2319581121

  16.  Zhao, X.M., J.M. Chen, Y.G. Zhang,  Z.T. Jiao, L.Y. Liu, F. Qiu, J.L Zang, R.C. Cao. Global mapping of  forest clumping index based on GEDI canopy height and complementary  data. ISPRS Journal of Photogrammetry and Remote Sensing, 2024. 209:1-16.

  17. 李飞,孙世玮,张永光*,封晨曦,陈翠红,毛慧琴,刘银年. 高分五号02星高光谱成像仪中美典型甲烷超级排放源遥感反演与分析. 遥感学报, 2024, 28(08):1986-2001.

  18. 陈镜明,缪国芳,居为民,江飞,吴谋松,张永光. 中国碳收支估算的不确定性. 科学通报, 2024, 69(19):2710-2714. https://doi.org/10.1360/TB-2024-0234

2023

  1.  Zhang Z.Y., L. Guanter, A. Porcar-Castell, M. Rossini, J. Pacheco-Labrador, Y.G. Zhang*. Global modeling diurnal gross primary production from OCO-3 solar-induced chlorophyll fluorescence. Remote Sensing of Environment, 2023. 285: 113383. https://doi.org/10.1016/j.rse.2022.113383

  2.  Zhang Z.Y., A. Cescatti, Y.P. Wang, P. Gentine, J.F. Xiao, L. Guanter, A.R. Huete, J. Wu, J.M. Chen, W.M. Ju, J. Peñuelas, Y.G. Zhang*. Large diurnal compensatory effects mitigate the response of Amazonian forests to atmospheric warming and drying. Science Advances, 2023. 9(21): eabq4974. https://doi.org/10.1126/sciadv.abq4974

  3.  Zang J.L., W.J. Ni, Y.G. Zhang*. Spatially-explicit mapping annual oil palm heights in peninsular Malaysia combining ICESat-2 and stand age data. Remote Sensing of Environment, 2023. 295: 113693. https://doi.org/10.1016/j.rse.2023.113693

  4.  Zhu J., Y.M. Yin, J.S. Lu, T.A. Warner, X.W. Xu, M.Y. Lyu, X. Wang, C.L. Guo, T. Cheng, Y. Zhu, W.X. Cao, X. Yao, Y.G. Zhang,  L.Y. Liu. The relationship between wheat yield and sun-induced  chlorophyll fluorescence from continuous measurements over the growing  season. Remote Sensing of Environment, 2023. 298: 113791. https://doi.org/10.1016/j.rse.2023.113791

  5.  Hou Y.Q., Y.F. Wu, L.S. Wu, L. Pei, Z.Y. Zhang, D.W. Ding, G.S. Wang, Z.Y. Li, Y.G. Zhang*.  Identifying crop growth stages from solar-induced chlorophyll  fluorescence data in maize and winter wheat from ground and satellite  measurements. Remote Sensing, 2023. 15(24): 5689. https://doi.org/10.3390/rs15245689

  6.  Zhao D.Y., Z.Y. Zhang, Y.G. Zhang*. Soil moisture dominates the forest productivity decline during the 2022 China compound drought-heatwave event. Geophysical Research Letters, 2023. 50(17): e2023GL104539. https://doi.org/10.1029/2023GL104539

  7.  Ouyang,  Z.T., R.B. Jackson, G. McNicol, E. Fluet-Chouinard, B.R.K. Runkle, D.  Papale, S.H. Knox, S. Cooley, K.B. Delwiche, S. Feron, J.A. Irvin, A.  Malhotra, M. Muddasir, S. Sabbatini, M.C.R. Alberto, A. Cescatti, C.L.  Chen, J.W. Dong, B.N. Fong, H.Q. Guo, L. Hao, H. Iwata, Q.Y. Jia, W.M.  Ju, M. Kang, H. Li, J. Kim, M.L. Reba, A.K. Nayak, D.R. Roberti, Y. Ryu,  C.K. Swain, B. Tsuang, X.M. Xiao, W.P. Yuan, G.L. Zhang, Y.G. Zhang. Paddy rice methane emissions across Monsoon Asia. Remote Sensing of Environment, 2023. 284: 113335.

  8.  Zhang, Z.Y., Y.G. Zhang. Solar angle matters: Diurnal pattern of solar-induced chlorophyll fluorescence from OCO-3 and TROPOMI. Remote Sensing of Environment, 2023. 285: 113380. https://doi.org/10.1016/j.rse.2022.113380

  9.  Liu, W.W., J. Atherton, M. Mottus, Z. Malenovsky, S.Z. Luo, Y.G. Zhang,  J. Gastellu-Etchegorry. Analyzing far-red SIF directional anisotropy of  three structurally contrasting forest canopies towards improved GPP  estimation. Agricultural and Forest Meteorology, 2023. 338: 109531.

  10.  Zhang, Z.Y., Y. Zhang, Y.G. Zhang. Generating high-resolution total canopy SIF emission from TROPOMI data: Algorithm and application. Remote Sensing of Environment, 2023. 295: 113699. https://doi.org/10.1016/j.rse.2023.113699

  11.  Zhang, Z.Y., J.M. Chen, Y.G. Zhang,  M.C. Li. Improving the ability of solar-induced chlorophyll  fluorescence to track gross primary production through differentiating  sunlit and shaded leaves. Agricultural and Forest Meteorology, 2023. 341: 109658. https://doi.org/10.1016/j.agrformet.2023.109658

  12.  Li, J.L., C.Y. Wu, J. Penuelas, Y.H. Ran, Y.G. Zhang. The start of frozen dates over northern permafrost regions with the changing climate. Global Change Biology, 2023. 29(16): 4556-4568. https://doi.org/10.1111/gcb.16752

  13.  Zhang, L.Y., F. Jiang, W. He, M.S. Wu, J. Wang, W.M. Ju, H.M. Wang, Y.G. Zhang,  S. Sitch, A.P. Walker, X. Yue, S.Z. Feng, M.W. Jia, J.M. Chen. A robust  estimate of continental-scale terrestrial carbon sinks using GOSAT XCO2  retrievals. Geophysical Research Letters, 2023. 50(6): e2023GL102815. https://doi.org/10.1029/2023GL102815

2022

  1.  Zhang X.K., Z.Y. Zhang, Y.G. Zhang*,  Q. Zhang, X.J. Liu, J.D. Chen, Y.F. Wu, L.S. Wu. Influences of  fractional vegetation cover on the spatial variability of canopy SIF  from unmanned aerial vehicle observations. International Journal of Applied Earth Observation and Geoinformation, 2022. 107: 102712. https://doi.org/10.1016/j.jag.2022.102712

  2.  Zhang Z.Y., X.K. Zhang, A. Porcar-Castell, J.M. Chen, W.M. Ju, L.S. Wu, Y.F. Wu, Y.G. Zhang*.  Sun-induced chlorophyll fluorescence is more strongly related to  photosynthesis with hemispherical than nadir measurements: Evidence from  field observations and model simulations. Remote Sensing of Environment, 2022. 279: 113118.

  3.  Liu Y.J., Y.G. Zhang*,  N. Shan, Z.Y. Zhang, Z.W. Wei. Global assessment of partitioning  transpiration from evapotranspiration based on satellite solar-induced  chlorophyll fluorescence data. Journal of Hydrology, 2022. 612: 128044. https://doi.org/10.1016/j.jhydrol.2022.128044

  4.  Wang S.H., Y.G. Zhang*,  W.M. Ju, M.S. Wu, L. Liu, W. He, J. Peñuelas. Temporally corrected  long-term satellite solar-induced fluorescence leads to improved  estimation of global trends in vegetation photosynthesis during  1995–2018. ISPRS Journal of Photogrammetry and Remote Sensing, 2022. 194: 222-234. https://doi.org/10.1016/j.isprsjprs.2022.10.018

  5.  Wu, Y.F., Z.Y. Zhang, X.K. Zhang, L.S. Wu, Y.G. Zhang.  How do sky conditions affect the relationships between ground-based  solar-induced chlorophyll fluorescence and gross primary productivity  across different plant types? Journal of Geophysical Research: Biogeosciences, 2022. 127(12): e2022JG006865. https://doi.org/10.1029/2022JG006865

  6.  Hao D.L., Y.L. Zeng, Z.Y. Zhang, Y.G. Zhang,  H. Qiu, K. Biriukova, M. Celesti, M. Rossini, P. Zhu, G.R. Asrar, M.  Chen. Adjusting solar-induced fluorescence to nadir-viewing provides a  better proxy for GPP. ISPRS Journal of Photogrammetry and Remote Sensing, 2022, 186: 157-169. https://doi.org/10.1016/j.isprsjprs.2022.01.016

  7.  Jia, M.W., F. Li, Y.Z. Zhang, M.S. Wu, Y.S. Li, S.Z. Feng, H.M. Wang, H.L. Chen, W.M. Ju, J. Lin, J.W. Cai, Y.G. Zhang, F. Jiang. The Nord Stream pipeline gas leaks released approximately 220,000 tonnes of methane into the atmosphere. Environmental Science and Ecotechnology, 2022. 12: 100210.

  8.  Li, X.Y., N.V. Shabanov, L. Chen, Y.G. Zhang,  H.G. Huang. Modeling solar-induced fluorescence of forest with  heterogeneous distribution of damaged foliage by extending the  stochastic radiative transfer theory. Remote Sensing of Environment, 2022. 271: 112892.

  9.  Wu, L.S., X.K. Zhang, M. Rossini, Y.F. Wu, Z.Y. Zhang, Y.G. Zhang. Physiological dynamics dominate the response of canopy far-red solar-induced fluorescence to herbicide treatment. Agricultural and Forest Meteorology, 2022. 323: 109063.

  10.  Wang, X.P., J.M. Chen, W.M. Ju, Y.G. Zhang.  Seasonal variations in leaf maximum photosynthetic capacity and its  dependence on climate factors across global FLUXNET sites. Journal of Geophysical Research: Biogeosciences, 2022. 127(5): e2021JG006709. https://doi.org/10.1029/2021JG006709

  11.  Gao, S.C., A. Huete, H. Kobayashi, T.M. Doody, W.W. Liu, Y.K. Wang, Y.G. Zhang,  X.L. Lu. Simulation of solar-induced chlorophyll fluorescence in a  heterogeneous forest using 3-D radiative transfer modelling and airborne  LiDAR. ISPRS Journal of Photogrammetry and Remote Sensing, 2022. 191: 1-17. https://doi.org/10.1016/j.isprsjprs.2022.07.004

  12.  Xu, M.Z., R.G. Liu, J.M. Chen, Y. Liu, A. Wolanin, H. Croft, L.M. He, R. Shang, W.M. Ju, Y.G. Zhang, Y.H. He, R. Wang. A 21-year time series of global leaf chlorophyll content maps from MODIS imagery. IEEE Transactions on Geoscience and Remote Sensing, 2022. 60: 1-13. DOI: 10.1109/TGRS.2022.3204185

  13.  Xu, M.Z., R.G. Liu, J.M. Chen, R. Shang, Y. Liu, L. Qi, H. Croft, W.M. Ju, Y.G. Zhang, Y.H. He, F. Qiu, J. Li, Q.N. Lin. Retrieving global leaf chlorophyll content from MERIS data using a neural network method. ISPRS Journal of Photogrammetry and Remote Sensing, 2022. 192: 66-82. https://doi.org/10.1016/j.isprsjprs.2022.08.003

  14.  Chen, J.M., R. Wang, Y.H. Liu, L.M. He, H. Croft, X.Z. Luo, H. Wang, N.G. Smith, T.F. Keenan, I.C. Prentice, Y.G. Zhang, W.M. Ju, N. Dong. Global datasets of leaf photosynthetic capacity for ecological and earth system research. Earth System Science Data, 2022. 14(9): 4077-4093. https://doi.org/10.5194/essd-14-4077-2022

  15.  Li, J.L., C.Y. Wu, M.S. Wu, Y.G. Zhang, Y.H. Ran. Modeling the start of frozen dates with leaf senescence over Tibetan Plateau. Remote Sensing of Environment, 2022. 281: 113258. https://doi.org/10.1016/j.rse.2022.113258

  16.  Dechant B. Y. Ryu, G. Badgley, P. Kohler, U. Rascher, M. Migliavacca, Y.G. Zhang, G. Tagliabue, K.Y. Guan, M. Rossini, Y. Goulas, Y.L. Zeng, C. Frankenberg, J.A. Berry. NIRVP: A robust structural proxy for sun-induced chlorophyll fluorescence and photosynthesis across scales. Remote Sensing of Environment, 2022, 268: 112763.

  17. 吴霖升,张永光*,章钊颖,张小康,吴云飞. 日光诱导叶绿素荧光遥感及其在陆地生态系统监测中的应用. 植物生态学报, 2022, 46(10):1167-1199. DOI: 10.17521/cjpe.2022.0233

2021

  1.  Wang, S.H. Y.G. Zhang*,  W.M. Ju, J.M. Chen, P. Ciais, A. Cescatti, J. Sardans, I.A. Janssens,  M.S. Wu, J.A. Berry, E. Campbell, M. Fernandez-Martinez, R. Alkama, S.  Sitch, P. Friedlingstein, W. K. Smith, W.P. Yuan, W. He, D. Lombardozzi,  M. Kautz, D. Zhu, S. Lienert, E. Kato, B. Poulter, T.G.M. Sanders, I.  Kruger, R. Wang, N. Zeng, H.Q. Tian, N. Vuichard, A.K. Jain, A.  Wiltshire, V. Haverd, D.S. Goll, J. Penuelas. Response to Comments on  “Recent global decline of CO2 fertilization effects on vegetation  photosynthesis”. Science, 2021, 373(6562): eabg7484. https://doi.org/10.1126/science.abg7484

  2.  Liu Y.J., C.H. You, Y.G. Zhang*,  S.P. Chen, Z.Y. Zhang, J. Li, Y.F., Wu. Resistance and resilience of  grasslands to drought detected by SIF in inner Mongolia, China. Agricultural and Forest Meteorology, 2021, 308: 108567. https://doi.org/10.1016/j.agrformet.2021.108567

  3.  Zhang Z.Y., Y.G. Zhang*,  J.M. Chen, W.M. Ju, M. Migliavacca, T.S. El-Madany. Sensitivity of  estimated total canopy SIF emission to remotely sensed LAI and BRDF  products. Journal of Remote Sensing, 2021, 2021. https://doi.org/10.34133/2021/9795837

  4.  Wang S.H., Y.G. Zhang*,  W.M. Ju, B. Qiu, Z.Y. Zhang. Tracking the seasonal and inter-annual  variations of global gross primary production during last four decades  using satellite near-infrared reflectance data. Science of the Total Environment, 2021. 755: p. 142569. https://doi.org/10.1016/j.scitotenv.2020.142569

  5. Zhang Y.G*.  Q. Zhang, S. Wang, L.Y. Liu, et al. ChinaSpec: A network for long-term  ground-based measurements of solar-induced fluorescence in China. Journal of Geophysical Research: Biogeosciences, 2021. 126(3): p. e2020JG006042.

  6. Zhang Y.G.*, M. Migliavacca, J. Peñuelas, W.M. Ju. Advances in hyperspectral remote sensing of vegetation traits and functions. Remote Sensing of Environment, 2021, 252: 112121.

  7.  Shan N., Y.G. Zhang*,  J.M. Chen, W.M. Ju, M. Migliavacca, J. Peñuelas, X. Yang, Z.Y. Zhang,  J.A. Nelson, Y. Goulas. A model for estimating transpiration from  remotely sensed solar-induced chlorophyll fluorescence. Remote Sensing of Environment, 2021. 252: p. 112134.

  8.  Guanter L., C. Bacour, A. Schneider, I. Aben, T.A. van Kempen, F. Maignan, C. Retscher, P. Kohler, C. Frankenberg, J. Joiner, Y.G. Zhang. The TROPOSIF global sun-induced fluorescence dataset from the Sentinel-5P TROPOMI mission. Earth System Science Data, 2021, 13(11): 5423-5440. https://doi.org/10.5194/essd-13-5423-2021

  9.  Porcar-Castell A., Z. Malenovsky, T. Magney, S.V. Wittenberghe, B. Fernandez-Marin, F. Maignan, Y.G. Zhang,  K. Maseyk, J. Atherton, L.P. Albert, T.M. Robson, F. Zhao, J.  Garcia-Plazaola, I. Ensminger, P.A. Rajewicz, S. Grebe, M. Tikkanen,  J.R. Kellner, J.A. Ihalainen, U. Rascher, B. Logan. Chlorophyll a  fluorescence illuminates a path connecting plant molecular biology to  Earth-system science. Nature plants, 2021, 7(8): 998-1009.

  10.  Irakulis-Loitxate  I., L. Guanter, Y. N. Liu, D.J. Varon, J.D. Maasakkers, Y.Z. Zhang, A.  Chulakadabba, S.C. Wofsy, A.W. Thorpe, R.M. Duren, C. Frankenberg, D.R.  Lyon, B. Hmiel, D.H. Cusworth, Y.G. Zhang,  K. Segl, J. Gorrono, E. Sanchez-Garcia, M.P. Sulprizio, K.Q. Cao, H.J.  Zhu, J. Liang, X. Li, I. Aben, D.J. Jacob. Satellite-based survey of  extreme methane emissions in the Permian basin. Science Advances, 2021, 7(27): eabf4507.

  11.  Zhu, X.D., Y.W. Hou, Y.G. Zhang, X.L. Lu, Z.Q. Liu, Q.H Weng. Potential of sun-induced chlorophyll fluorescence for indicating mangrove canopy photosynthesis. Journal of Geophysical Research: Biogeosciences, 2021. 126(4): p. e2020JG006159. https://doi.org/10.1029/2020JG006159

  12.  Meng, L., Y.Y. Zhou, L.H. Gu, A.D. Richardson, J. Penuelas, Y.S. Fu, Y.Q. Wang, G.R. Asrar, H.J. De Boeck, J.F. Mao, Y.G. Zhang, Z.S. Wang. Photoperiod decelerates the advance of spring phenology of six deciduous tree species under climate warming. Global Change Biology, 2021. 27(12): 2914-2927. https://doi.org/10.1111/gcb.15575

  13.  Wang,  X., C.Z. Wang, J. Wu, G.F. Miao, M. Chen, S.L. Chen, S.H. Wang, Z.F.  Guo, Z.H. Wang, B. Wang, J. Li, Y.J. Zhao, X.L. Wu, C.F. Zhao, W.L. Lin,  Y.G. Zhang, L.L. Liu. Intermediate aerosol loading enhances photosynthetic activity of croplands. Geophysical Research Letters, 2021. 48(7): e2020GL091893. https://doi.org/10.1029/2020GL091893

  14.  Zhang, Q., J.M. Chen, W.M. Ju, Y.G. Zhang,  Z.H. Li, L.M. He, J. Pacheco-Labrador, J. Li, B. Qiu, X.K. Zhang, F.  Qiu. Ground-based multiangle solar-induced chlorophyll fluorescence  observation and angular normalization for assessing crop productivity. Journal of Geophysical Research: Biogeosciences, 2021. 126(5): e2020JG006082.

  15.  Wang, J., F. Jiang, H.M. Wang, B. Qiu, M.S. Wu, W. He, W.M. Ju, Y.G. Zhang,  J.M. Chen, Y.L. Zhou. Constraining global terrestrial gross primary  productivity in a global carbon assimilation system with OCO-2  chlorophyll fluorescence data. Agricultural and Forest Meteorology, 2021. 304: 108424. https://doi.org/10.1016/j.agrformet.2021.108424

2020

  1.  Wang, S.H. Y.G. Zhang*,  W.M. Ju, J.M. Chen, P. Ciais, A. Cescatti, J. Sardans, I.A. Janssens,  M.S. Wu, J.A. Berry, E. Campbell, M. Fernandez-Martinez, R. Alkama, S.  Sitch, P. Friedlingstein, W. K. Smith, W.P. Yuan, W. He, D. Lombardozzi,  M. Kautz, D. Zhu, S. Lienert, E. Kato, B. Poulter, T.G.M. Sanders, I.  Kruger, R. Wang, N. Zeng, H.Q. Tian, N. Vuichard, A.K. Jain, A.  Wiltshire, V. Haverd, D.S. Goll, J. Penuelas. Recent global decline of  CO2 fertilization effects on vegetation photosynthesis. Science, 2020. 370(6522): 1295-1300.

  2.  Zhang Z., Y.G. Zhang*,  A. Porcar-Castell, J. Joiner, L. Guanter, X. Yang, M. Migliavacca, et  al.  Reduction of structural impacts and distinction of photosynthetic  pathways in a global estimation of GPP from space-borne solar-induced  chlorophyll fluorescence. Remote Sensing of Environment, 2020, 111722.

  3.  Zhang Z. Y.G. Zhang*,  Y. Zhang, N. Gobron, C. Frankenberg, S. Wang, Z. Li. The potential of  satellite FPAR product for GPP estimation: An indirect evaluation using  solar-induced chlorophyll fluorescence. Remote Sensing of Environment, 2020, 240, 111686.

  4.  Li Z., Q. Zhang, J. Li, X. Yang, Y. Wu, Z. Zhang, S. Wang, H. Wang, Y.G. Zhang*. Solar-induced chlorophyll fluorescence and its link to canopy photosynthesis in maize from continuous ground measurements. Remote Sensing of Environment, 2020, 236, 111420.

  5.  Wang S.H., Y.G. Zhang*,  W.M. Ju, A. Porcar-Castell, S.S. Ye, Z.Y. Zhang, C. Brummer, M.  Urbaniak, I. Mammarella, R. Juszczak, K.F. Boersma. Warmer spring  alleviated the impacts of 2018 European summer heatwave and drought on  vegetation photosynthesis. Agricultural and Forest Meteorology, 2020. 295: 108195.

  6.  Gao Y., S.H. Wang, K.Y. Guan, A. Wolanin, L.Z. You, W.M. Ju, Y.G. Zhang*.  The Ability of Sun-Induced Chlorophyll Fluorescence From OCO-2 and  MODIS-EVI to Monitor Spatial Variations of Soybean and Maize Yields in  the Midwestern USA. Remote Sensing, 2020. 12(7): 1111.

  7.  Li J., Y.G. Zhang*,  L.H. Gu, Z.H. Li, J. Li, Q. Zhang, Z.Y. Zhang, L. Song. Seasonal  variations in the relationship between sun-induced chlorophyll  fluorescence and photosynthetic capacity from the leaf to canopy level  in a rice crop. Journal of Experimental Botany, 2020. 71(22): 7179-7197.

  8.  Zhang Z.Y., Y.G. Zhang*,  Y. Zhang, J.M. Chen. Correcting clear-sky bias in gross primary  production modeling from satellite solar-induced chlorophyll  fluorescence data. Journal of Geophysical Research: Biogeosciences, 2020. 125(9): p. e2020JG005822.

  9.  Zhang Z.Y., Y.G. Zhang*,  Q. Zhang, J.M. Chen, A. Porcar-Castell, L. Guanter, Y.F. Wu, X.K.  Zhang, H.Z. Wang, D.W. Ding, Z.Y. Li. Assessing bi-directional effects  on the diurnal cycle of measured solar-induced chlorophyll fluorescence  in crop canopies. Agricultural and Forest Meteorology, 2020. 295: 108147.

  10.  He, L.Y., J.D. Wood, Y. Sun, T. Magney, D. Dutta, P. Kohler, Y.G. Zhang,  Y. Yin, C. Frankenberg. Tracking seasonal and interannual variability  in photosynthetic downregulation in response to water stress at a  temperate deciduous forest. Journal of Geophysical Research: Biogeosciences, 2020. 125(8): p. e2018JG005002. https://doi.org/10.1029/2018JG005002

  11.  Dechant, B., Y. Ryu, G. Badgley, Y.L. Zeng, J.A. Berry, Y.G. Zhang,  Y. Goulas, Z.H. Li, Q. Zhang. Canopy structure explains the  relationship between photosynthesis and sun-induced chlorophyll  fluorescence in crops. Remote Sensing of Environment, 2020. 241: 111733.

2019

  1.  Zhang, Q., Zhang, X., Li, Z., Wu, Y., Y.G. Zhang*.  (2019). Comparison of bi-hemispherical and hemispherical-conical  configurations for in situ measurements of solar-induced chlorophyll  fluorescence. Remote Sensing, 11, 2642. https://doi.org/10.3390/rs11222642

  2.  Zhang, Z., Chen, J. M., Guanter, L., He, L., Y.G. Zhang*.  (2019). From canopy-leaving to total canopy far-red fluorescence  emission for remote sensing of photosynthesis: First results from  TROPOMI. Geophysical Research Letters, 46: 12030-12040.

  3.  Qiu B., J. M. Chen, W. Ju, Q. Zhang, Y.G. Zhang*.  Simulating emission and scattering of solar-induced chlorophyll  fluorescence at far-red band in global vegetation with different canopy  structures. Remote Sensing of Environment, 2019, 233, 111373.   

  4.  Wang S., W. Ju, J. Penuelas, A. Cescatti, Y. Zhou, Y. Fu, A. Huete, M. Liu, Y.G. Zhang*. Urban-rural gradients reveal joint control of elevated CO2 and temperature on extended photosynthetic seasons. Nature Ecology & Evolution, 2019, 3(7): 1076-1085.

  5.  Wolanin A., G. Camps-Valls, L. Gómez-Chova, G. Mateo-García, C. van der Tol, Y.G. Zhang,  L. Guanter. Estimating crop primary productivity with Sentinel-2 and  Landsat 8 using machine learning methods trained with radiative transfer  simulations. Remote Sensing of Environment, 2019, 225:441-457.

  6.  Qiu B., W. Li, X. Wang, L. Shang, Q. Song, W. Guo, Y.G. Zhang*.  Satellite-observed solar-induced chlorophyll fluorescence reveals  higher sensitivity of alpine ecosystems to snow cover on the Tibetan  Plateau. Agricultural and Forest Meteorology, 2019, 271:126-134.

  7.  Shan N., W. Ju, M. Migliavacca, D. Martini, L. Guanter, J.M. Chen, Y. Goulas, Y.G. Zhang*. Modeling canopy conductance and transpiration from solar-induced chlorophyll fluorescence. Agricultural and Forest Meteorology, 2019, 268, 189-201.

  8.  Cai, Y.P, K.Y. Guan, D. Lobell, A.B. Potgieter, S.W. Wang, J. Peng, T.F. Xu, S. Asseng, Y.G. Zhang,  L.Z. You, B. Peng. Integrating satellite and climate data to predict  wheat yield in Australia using machine learning approaches. Agricultural and Forest Meteorology, 2019. 274: 144-159.  

2018

  1.  Wang S., Y.G. 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: Atmospheres, 2018. 123(17): 9462-9473.

  2.  Zhang Z., Y.G. 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. 24(11): 5017-5020.  

  3.  Song L., L. Guanter, K. Guan, L. You, A. Huete, W. Ju, Y.G. Zhang*.  Satellite sun-induced chlorophyll fluorescence detects early response  of winter wheat to heat stress in the Indian Indo-Gangetic. Global Change Biology, 2018, 24(9): 4023-4037.

  4. Zhang Y.G.*,  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.

  5.  Zhang,  Y., X.M. Xiao, S. Wolf, J. Wu, X.C. Wu, B. Gioli, G. Wohlfahrt, A.  Cescatti, C. van der Tol, S. Zhou, C.M. Gough, P. Gentine, Y.G. Zhang,  R. Steinbrecher, J. Ardö. Spatio-temporal convergence of maximum daily  light-use efficiency based on radiation absorption by canopy  chlorophyll. Geophysical Research Letters, 2018. 45(8): 3508-3519.

  6.  Zhang, Y., X.M. Xiao, Y.G. Zhang,  S. Wolf, S. Zhou, J. Joiner, L. Guanter, M. Verma, Y. Sun, X. Yang, E.  Paul-Limoges, C.M. Gough, G. Wohlfahrt, B. Giolo, C. van der Tol, N.  Yann, M. Lund, A. de Grandcourt. 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.

  7.  Yang, X., H.Y. Shi, A. Stovall, K.Y. Guan, G.F. Miao, Y.G. Zhang,  Y. Zhang, X.M. Xiao, Y. Ryu, J. Lee. FluoSpec 2-an automated field  spectroscopy system to monitor canopy solar-induced fluorescence. Sensors, 2018. 18(7): 2063.

2017

  1.  Yang, H.L., X. Yang, Y.G. Zhang,  M.A. Heskel, X.L. Lu, J.W. Munger, S. Sun, J.W. Tang. Chlorophyll  fluorescence tracks seasonal variations of photosynthesis from leaf to  canopy in a temperate forest. Global Change Biology, 2017. 23(7): 2874-2886.

2016

  1. Zhang, Y.G.*,  L. Guanter, J.A. Berry, C. van der Tol, X. Yang, J.W. Tang, F.M. 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: p. 145-155.

  2.  Wagle P., Y.G. 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.

  3.  Walther, S., M. Voigt, T. Thum, A. Gonsamo, Y.G. Zhang,  P. Köhler, M. Jung, A. Varlagin, L. Guanter. Satellite chlorophyll  fluorescence measurements reveal large-scale decoupling of  photosynthesis and greenness dynamics in boreal evergreen forests. Global Change Biology, 2016. 22(9): 2979-2996.

  4.  Guan, K.Y., J.A. Berry, Y.G. Zhang,  J. Joiner, L. Guanter, G. Badgley, D.B. Lobell. Improving the  monitoring of crop productivity using spaceborne solar-induced  fluorescence. Global Change Biology, 2016. 22(2): 716-726.

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

  6.  Zhang, Y., X.M. Xiao, C. Jin, J.W. Dong, S. Zhou, P. Wagle, J. Joiner, L. Guanter, Y.G. Zhang,  G.L. Zhang, Y.W. 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.

2015

  1. Zhang Y.G. *, M.  Voigt, H. Liu. Contrasting responses of terrestrial ecosystem  production to hot temperature extreme regimes between grassland and  forest. Biogeosciences, 2015. 12(2): 549-556.

2014

  1. Zhang Y.G. *, 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. 20(12): 3727-3742.

  2.  Guanter L.*, Y.G.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. 111(14): p. E1327-E1333. https://doi.org/10.1073/pnas.1320008111 (NASA and Science news report).

  3.  Joiner, J., Y. Yoshida, A.P. Vasilkov, K. Schaefer, M. Jung, L. Guanter, Y.G. Zhang,  S. Garrity, E.M. Middleton, K.F. Huemmrich, L. Gu, L. Belelli  Marchesini. 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.

  4.  Guanter, L., Y.G. Zhang,  M. Jung, J. Joiner, M. Voige, J.A. Berry, C. Frankenberg, A.R. Huete,  P. Zarco-Tejada, J. Lee, M.S. Moran, G. Ponce-Campos, C. Beer, G.  Camps-Valls, N. Buchmann, D. Gianelle, K. Klumpp, A. Cescatti, J.M.  Baker, T.J. Griffis. Reply to Magnani et al.: Linking large-scale  chlorophyll fluorescence observations with cropland gross primary  production. Proceedings of the National Academy of Sciences, 2014. 111(25): p. E2511-E2511.

  5.  Moran, M.S., G.E. Ponce-Campos, A. Huete, M.P. McClaran, Y.G. Zhang,  E.P. Hamerlynck, D.J. Augustine, S.A. Gunter, S.G. Kitchen, D.P.C.  Peters, P.J. Starks, M. Hernandez. Functional response of US grasslands  to the early 21st-century drought. Ecology, 2014. 95(8): 2121-2133.

2013

  1. Zhang Y.G.*, 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 and reductions of terrestrial ecosystem  production across biomes. Journal of Geophysical Research: Biogeosciences, 2013. 118(1):148-157(AGU Research Spotlight).

  2.  Ponce-Campos, G.E., M.S. Moran, A. Huete, Y.G. Zhang,  C. Bresloff, T.E. Huxman, D. Eamus, D.D. Bosch, A.R. Buda, S.A. Gunter,  T.H. Scalley, S.G. Kitchen, M.P., McClaran, W.H. McNab, D.S. Montoya,  J.A. Morgan, D.P.C. Peters, E.J. Sadler, M.S. Seyfried, P.J. Starks.  Ecosystem resilience despite large-scale altered hydroclimatic  conditions. Nature, 2013. 494(7437): 349-352.

2012

  1. Zhang Y.G. *,  M. Hernandez, E. Anson, M.A. Nearing, H. Wei, J.J. Stone, and P.  Heilman. Modeling climate change effects on runoff and soil erosion in  southeastern Arizona rangelands and implications for mitigation with  conservation practices. Journal of Soil & Water Conservation, 2012. 67(5): 430-430.

  2.  Wei, H.Y., P. Heilman, J.G. Qi, M.A. Nearing, Z.H. Gu, Y.G. Zhang. Assessing phenological change in China from 1982 to 2006 using AVHRR imagery. Frontiers of Earth Science, 2012. 6(3): 227-236.