Personal Information

Contact Information:http://www.lpicea.com/ 公众号“小云杉LPICEA”
E-Mail:

Discipline:Ecology

Education Background

Macquarie University,Plant Ecology,Ph.D(2013)
Institute of Botany,Chinese Academy of Science,Global Change Ecology,Ph.D(2011)
Shaanxi Normal Univeristy,Biology,Bachelor of Science(2006)

Work Experience

2121.7- Associate Professor, Department of Earth System Science Tsinghua University -- 地球系统科学系 -- 副教授
2018.04-2021.07: Assistant Professor,Tsinghua University -- 地球系统科学系 -- 助理教授
2016.08–2016.09: Visiting Scholar,Lawrence Berkeley National Lab -- 访问学者
2016.04-2016.06: Visiting Scholar,International Institute of Applied System Analysis -- 访问学者
2015.07-2018.03: Postdoc,Northwest A&F University -- 博士后
2012.10-2015.03: Postdoc,Macquarie University -- 博士后

1. 2021年 清华大学—浪潮集团计算地球科学青年人才奖

2. 2021年 清华大学第九届青年教师教学大赛(理科、医科组)二等奖

2023

58. S. C. Qiao, I. C. Prentice, S. P. Harrison and H. Wang*: Optimality-based modelling of wheat sowing dates globally. Agricultural Systems. 206: 103608

57. H. Wang*, I. C. Prentice, I. J. Wright, D.I. Warton, S.C. Qiao, X.T. Xu, J. Zhou, K. Kikuzawa, N.C. Stenseth, Leaf economics fundamentals explained by optimality principles, Science Advances, 9: eadd5667

56. Z.B. Yan, J. Sardans, J. Peñuelas, M. Detto, N.G. Smith, H. Wang, L.L. Guo, A.C. Hughes, Z.F. Guo, Calvin K. F. Lee, L.L. Liu, J. Wu, Global patterns and drivers of leaf photosynthetic capacity: The relative importance of environmental factors and evolutionary history, Global Ecology and Biogeography, 10.1111/geb.13660

55. M.J. Zou, K. Yang, H. Liu, Y.H. Ren, J. Sun, H. Wang, S. Tan, L. Zhao, Integrating eco-evolutionary optimality principle and land processes for evapotranspiration estimation, Journal of Hydrology, 616:128855

54. Z.Q. Zhu, H. Wang*, S.P. Harrison, I.C. Prentice, S.C. Qiao, S. Tan, Optimality principles explaining divergent responses of alpine vegetation to environmental change, Global Change Biology, 29:126-142

2022

53. H. Wang, S.P. Harrison, Li, M.Li, I. Colin Prentice, S.C. Qiao, R.X. Wang, H.Y. Xu, G. Mengoli, G, Y.K. Peng, Y.Z. Yang, The China plant trait database version 2, Scientific Data, 9:769

52. H. Hunag, Z.Q. Wang, H. Wang, J. Peñuelas, J. Sardans, Ü. Niinemets, K. J. Niklas, Y. Li, J.B. Xie, and I. J. Wright, Leaf water content contributes to global leaf trait relationships, Nature Communication, 13:5525

51. Z.Q. Zhu, H. Wang, S. P. Harrison, I.C. Prentice, S.C. Qiao, S. Tan, Optimality principles explaining divergent responses of alpine vegetation to environmental change, Global Change Biology, 29: 126-142

50. J.X. Jin, T. Yan, H. Wang, X.L. Ma, M.Z. He, Y. Wang, W.F. Wang, F.S. Guo, Y.L. Cai, Q.A Zhu and J. Wu, Improved modeling of canopy transpiration for temperate forests by incorporating a LAI-based dynamic parametrization scheme of stomatal slope, Agricultural and Forest Meteorology, 326: 109157

49. N. Dong, I. C. Prentice, I. J. Wright, H. Wang, O. K. Atkin, K. J. Bloomfield, T. F. Domingues, S. M. Gleason, V. Maire, Y. Onada, H. Poorter, N. G. Smith, Leaf nitrogen from the perspective of optimal plant function, Journal of Ecology, 00: 1-18

48. H. Wang*, R.X. Wang, S. P. Harrison and I. C. Prentice: Leaf morphological traits as adaptations to multiple climate gradients. Journal of Ecology, 00: 1-12

47. N. Dong, I. J. Wright, J. M. Chen, X. Luo, H. Wang, T. F. Keenan, N. G. Smith, I. C. Prentice: Rising CO2 and warming reduce global canopy demand for nitrogen. New Phytologist, 235: 1692-1700

46. J. M. Chen, 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

2021

45. S. C. Qiao, H. Wang*, I. C. Prentice and S. P. Harrison: Optimality-based modelling of climate impacts on global potential wheat yield. Environmental Research Letters, 16:114013

44. 谭深, 王焓*:基于最优性原理的普适性碳水通量耦合估算方法研究. 生态学报, 已接收

43. S. Tan, X. Zhang, H. Wang, L. Yu, Y. L. Du; J. J. Yin; B. F. Wu: A CNN-based self-supervised C-band synthetic aperture radar image denoising approach. Transactions on Geoscience and Remote Sensing, accepted

42. S. Tan, H. Wang*, I.C. Prentice, K. Yang: Land-surface evapotranspiration derived from a first-principles primary production model. Environmental Research Letters, 16:104047

41. X. Z. Luo, T. F. Keenan, J. M. Chen, H. Croft, I. C. Prentice, N. G. Smith, A. P. Walker, H. Wang, A. R. Wang, C. G. Xu, Y. Zhang: Global variation in the fraction of leaf nitrogen allocated to photosynthesis. Nature Communication, 12:4866

40. H. Y. Xu, H. Wang*, I. C. Prentice, S. P. Harrison, I. Wright: Coordination of plant hydraulic and photosynthetic traits: confronting optimality theory with field measurements. New Phytologist, 232: 1286–1296

39. Z. B. Yan, Z. F. Guo, S. Serbin, G. Q. Song, Y. Y. Zhao, Y. Chen, S. B. Wu, J. Wang, X. Wang, J. Li, B. Wang, Y. T. Wu, Y. J. Su, H. Wang, A. Rogers, L. L. Liu, J. Wu: Spectroscopy outperforms leaf trait relationships for predicting photosynthetic capacity across different forest types. New Phytologist, 232: 134–147

38. S. P. Harrison, W. Cramer, Franklin, Oskar; I. C. Prentice, H. Wang, Åke Brännström, H. de Boer, U. Dieckmann, J. Joshi, T. Keenan, A. Lavergne, S. Manzoni, G. Mengoli, C. Morfopoulos, J. Peñuelas, S. Pietsch, K. Rebel, Y. Ryu, N. Smith, B. Stocker, I. Wright: Eco-evolutionary optimality as a means to improve vegetation and land-surface models. New Phytologist, 231: 2125–2141

37. Y. H. Ren, K. Yang, H. Wang, L. Zhao, Y. Y. Chen, X. Zhou, Z. La: The South Asia Monsoon Break Promotes Grass Growth on the Tibetan Plateau. Journal of Geophysical Research: Biogeosciences. 126: e2020JG005951

36. H. Y. Xu, H. Wang*, I. C. Prentice, S. P. Harrison, G. X. Wang, X. Y. Sun: Predictability of leaf traits with climate and elevation: a case study in Gongga Mountain, China. Tree Physiology, 41: 1336–1352

2020

35. C. Y. Jiang, Y. Rye, H. Wang and T. F. Keenan: An optimality-based model explains seasonal variation in C3 plant photosynthetic capacity. Global Change Biology. 26:6493–6510

34. J. Paillassa, I. J. Wright, I. C. Prentice, S. Pepin, N. G. Smith, G. Ethier, A. C. Westerband, L. J. Lamarque, H. Wang, W. K. Cornwell and M. Vincent: When and where soil is important to modify the carbon and water economy of leaves. New Phytologist. 228: 121–135

33. O. Franklin, S. P. Harrison, R. Dewar, C. E. Farrior, A. Brännström, U. Dieckmann, S. Pietsch, D. Falster, W. Cramer, M. Loreau, H.Wang, A. Mäkelä, K. T. Rebel, E. Meron, S. J. Schymanski, E. Rovenskaya, B. D. Stocker, S. Zaehle, S. Manzoni, M. van Oijen, I. J. Wright, P. Ciais, P. M. van Bodegom, J. Peñuelas, F. Hofhansl, C. Terrer, N. A. Soudzilovskaia, G. Midgley and I. C. Prentice: Organizing principles for vegetation dynamics. Nature Plants. 6: 444-453.

32. H. Wang*, O. K. Atkin, T. F. Keenan, N. G. Smith, I. J. Wright, K. J. Bloomfield, J. Kattge, P. B. Reich and I. C. Prentice: Acclimation of leaf respiration consistent with optimal photosynthetic capacity. Global Change Biology. 00: 1– 11.

31. S. C. Qiao, H. Wang*, I. C. Prentice and S. P. Harrison: Extending a first-principles primary production model to predict wheat yields. Agricultural and Forest Meteorology. 287: 107932.

30. J. Kattge, et al. (724 co-authors including H. Wang): TRY plant trait database – enhanced coverage and open access. Global Change Biology. 26: 119-188.

29. B.D. Stocker, H. Wang, N. G. Smith, S. P. Harrison, F. Keenan, D. Sandoval, T Davis and I. C. Prentice: P-model v1.0: An optimality-based light use efficiency model for simulating ecosystem gross primary production. Geoscientific Model Development. 13: 1545-1581.

2019

28. Y. W. Liu, S. L. Piao, T. Gasser, P. Ciais, H. Yang, H. Wang, T. F. Keenan, M. T. Huang, S. Q. Wan, J. Song, K. Wang, I. A. Janssens, J. Peñuelas, C. Huntingford, X. H. Wang, M. A. Arain, Y. Y. Fang, J. B. Fisher, M. Y. Huang, D. N. Huntzinger, A. Ito, A. K. Jain, J. F. Mao, A. M. Michalak, C. H. Peng, B. Poulter, C. Schwalm, X. T. Shi, H. Q. Tian, Y. X. Wei, N. Zeng, Q. Zhu and T. Wang: Field-experiment constraints on the enhancement of the terrestrial carbon sink by CO2 fertilization. Nature Geoscience. 12: 809-814.

27. Y. R. Guo, C. H. Peng, Q. Zhu, M. Wang, H. Wang, S. H. Peng and H. L. He: Modelling the impacts of climate and land use changes on soil water erosion: T Model applications, limitations and future challenges. Journal of Environmental Management. 250: 109403.

26. J. X. Jin, X. H. Ma, H. Chen, H. Wang, X. M. Kang, X. F. Wang, Y. Wang, B. Yong, F. S. Guo: Grassland production in response to changes in biological metrics over the Tibetan Plateau. Science of the Total Environment. 666: 641-651

25. N. G. Smith, T. F. Keenan, I. C. Prentice, H.Wang, I. J. Wright, U. Niinemets, K. Y. Crous, T. F. Domingues, R. Guerrieri, F. Y. Ishida, J. Kattge, E. L. Kruger, V. Maire, A. Rogers, S. P. Serbin, L. Tarvainen, H. F. Togashi, P. A. Townsend, M. Wang, L. K. Weerasinghe, S. X. Zhou: Global photosynthetic capacity is optimized to the environment. Ecology Letters. 22: 506–517

2018

24. B. Yang, C. H. Peng, S. P. Harrison, H. Wei, H. Wang, Q. Zhu, M. Wang: Allocation Mechanisms of Non-Structural Carbohydrates of Robinia pseudoacacia L. Seedlings in Response to Drought and Waterlogging. Forests. 9:754

23. H. F. Togashi, O. K. Atkin, K. J. Bloomfield, M. Bradforde, K. F. Cao, N. Dong, B. J. Evans, Z. X. Fan, S. P. Harrison, Z. Hua, M. J. Liddell, J. Lloyd, J. Ni, H. Wang, L. K. Weerasinghe, I. C. Prentice: Functional trait variation related to gap dynamics in tropical moist forests: A vegetation modelling perspective. Perspectives in Plant Ecology, Evolution and Systematics. 35: 52-64

22. Y. Yang, H.Wang, S. P. Harrison, I. C. Prentice, I. J. Wright, C. H. Peng, G. H. Lin: Quantifying leaf trait covariation and its controls across climates and biomes. New Phytologist , 2019, 221(1): 155-168. doi: 10.1111/nph.15422

21. H . Wang, S. P. Harrison, I. C. Prentice, Y. Z. Yang, F. Bai, H. F. Togashi, M. Wang, S. X. Zhou, J. Ni: The China Plant Trait Database: towards a comprehensive regional compilation of functional traits for land plants. Ecology. 99: 500

2017

20. H. Wang, I. C. Prentice, W. Cornwell, T. Davis, T. F. Keenan, I. J. Wright, C. H. Peng: A universal model for carbon dioxide uptake by plants. Nature Plants. 3: 734-741

19. I. J. Wright, N. Dong, V. Maire, I. C. Prentice, M. Westoby, S. Díaz, R. V. Gallagher, B. F. Jacobs, R. Kooyman, E. A. Law, M. R. Leishman, U. Niinemets, R. B. Reich, L. Sack, R. Villar, H.Wang, P. Wilf: Global climatic drivers of leaf size. Science. 357: 917-921

18. Q. A. Zhu, C. H. Peng, P. Ciais, H. Jiang, J. X. Liu, P. Bousquet, S. Q. Li, X. Q. Fang, X. L. Zhou, H. Chen, S. R. Liu, G. H. Lin, P. Gong, M. Wang, H. Wang, W. H. Xiang, J. Chen: Inter-annual Variation in Methane Emissions from Tropical Wetlands Triggered by Repeated El Niño Southern Oscillation. Global Change Biology. doi: 10.1111/gcb.13726

17. A. Nakamura, R. L. Kitching, M. Cao, T. J. Creedy, T. M. Fayle, M. Freiberg, C. N. Hewitt, T. Itioka, L. P. Koh, K. Ma, Y. Malhi, A. Mitchell, V. Novotny, C. M. P. Ozanne, L. Song, H.Wang and L. A. Ashton: Forests and Their Canopies: Achievements and Horizons in Canopy Science. Trends in Ecology & Evolution. 32:438-451

16. H. Wang, I. C. Prentice, T. F. Keenan, T. Davis, I. J. Wright, C. H. Peng: Photosynthetic responses to altitude: an explanation based on optimality principles. New Phytologist. 213: 976-982

2016

15. T. F. Keenan, I. C. Prentice, J. G. Canadell, C. A. Williams, H. Wang, M. Raupach, G. J. Collatz: Recent pause in the growth rate of atmospheric CO2 due to enhanced terrestrial carbon uptake. Nature Communication. 7: 13428 doi:10.1038/ncomms13428

14. Q. Zhu, C. Peng, J. Liu, H. Jiang, X. Fang, H. Chen, Z. Niu, P. Gong, G. Lin, M. Wang, H. Wang, Y. Yang, J. Chang, Y. Ge, W. Xiang, X. Deng and J. S. He: Climate-driven increase of natural wetland methane emissions o set by human-induced wetland reduction in China over the past three decades. Scientific Reports. 6:38020, DOI: 10.1038/srep38020

13. T. W. Davis, I. C. Prentice, B. D. Stocker, R. J. Whitley, H.Wang, B. J. Evans, A. V. Gallego-Sala, M. T. Sykes, W. Cramer: Simple Process-Led Algorithms for Simulating Habitats (SPLASH v.1.0): Robust Indices of Radiation, Evapotranspiration and Plant-Available Moisture. Geoscience Model Development. 10: 689-708

12. Y. Z. Yang, Q. A. Zhu, C. H. Peng, H. Wang, W. Xue, G. H. Lin, Z. M. Wen, J. Chang, M. Wang, G. B. Liu, S. Q. Li: A novel approach for modelling vegetation distributions and analysing vegetation sensitivity through trait-climate relationships in China. Scientific Reports. doi: 10.1038/srep24110.

2015

11. Y. Lin, E. M. Belinda, R. A. Duursma, I. C. Prentice, H.Wang, S. Baig, D. Eamus, V. R. de Dios, P. Mitchell, D. S. Ellsworth, M. O. de Beeck, G. Wallin, J. Uddling, L. Tarvainen, M-L. Linderson, L. A. Cernusak, J. B. Nippert., T. W. Ocheltree, T. Tissue David, N. K. Martin-StPaul, A. Rogers, J. M. Warren, P. D. Angelis, K. Hikosaka, Q. Han, Y. Onoda, T. E. Gimeno, C. V. M. Barton, J. Bennie, D. Bonal, A. Bosc, M. Löw, C. Macinins-Ng, A. Rey, L. Rowland, S. A. Setterfield, S. Tausz-Posch, J. Zaragoza-Castells, M. S. J. Broadmeadow, J. E. Drake, M. Freeman, O. Ghannoum, L. B. Hutley, J. W. Kelly, K. Kikuzawa, P. Kolari, K. Koyama, J-M. Limousin, P. Meir, A. C. L. da Costa, T. N. Mikkelsen, N. Salinas, W. Sun and L. Wingate: Optimal stomatal behaviour around the world. Nature Climate Change. 5: 495-464.

10. Y. Yang, Q. Zhu, C. Peng, H. Wang, H. Chen: From plant functional types to plant functional traits: A new paradigm in modelling global vegetation dynamics. Progress in Physical Geography. 39: 514-535.

9. T-T. Meng, H.Wang, S. P. Harrison, I. C. Prentice, J. Ni and G. Wang: Responses of leaf traits to climatic gradients: adaptive variation vs. compositional shifts. Biogeosciences. 12: 1-14.

2014

8. H.Wang, I. C. Prentice, T. W. Davis: Biophysical constraints on gross primary production by the terrestrial biosphere. Biogeosciences. 11: 5987-6001.

7. B. J. Atwell, H. Wang, A. P. Scafaro: Could abiotic stress tolerance in wild relatives of rice be used to improve Oryza sativa? Plant Science. 215-216: 48-58.

2013

6. H. Wang: A multi-model assessment of climate change impacts on the distribution and productivity of ecosystems in China. Regional Environmental Change. 14: 133-144.

5. H. Wang, I. C. Prentice, J. Ni: Data-based modelling and environmental sensitivity of vegetation in China. Biogeosciences.(10):5817-5830.

2012

4. H. Wang, I. C. Prentice, J. Ni: Global change and primary production in China: contrasting light- and water-use efficiency models.;Biogeosciences.(9):4689-4705.

3. D. I. Kelley, I. C. Prentice, S. Harrison, H.Wang, M. Simard, J. B. Fisher, K. Willis: A comprehensive benchmarking system for evaluating global vegetation models. Biogeosciences. 10: 3313–3340.

2011

2. H.Wang, J. Ni, I. C. Prentice: Sensitivity of potential natural vegetation in China to projected changes in temperature, precipitation and atmospheric CO2. Regional Environmental Change. 11: 715-727.

1. I. C. Prentice, T. Meng, H. Wang, S. Harrison, J. Ni, G. H. Wang: Evidence for a universal scaling relationship of leaf CO2 drawdown along an aridity gradient. New Phytologist. 190: 169-180.

1. 澳大利亚科学研究基金委ARC项目 Leaf and wood physiology and biomass allocation as drivers of plant growth 2022-2024 在研

2. THE ERIC AND WENDY SCHMIDT FUND FOR STRATEGIC INNOVATION Land Ecosystem Models based On New Theory, obseRvations, and ExperimEnts (LEMONTREE). 2021-2026 在研

3. 国家自然科学基金委 优秀青年项目 植物功能性状与植被模拟。2020-2023 在研

4. 国家自然科学基金委 面上项目 木本植物性状权衡关系的机制研究。2021-2023 在研

5. 科学技术部高技术研究发展中心 重点专项 全球能量循环和水循环关键参数的立体观测与遥感反演。2018-2023 在研

6. 国家自然科学基金委 集成项目 青藏高原典型生态系统碳氮水循环过程及其气候效应。2019-2022 结题

7. 国家自然科学基金 光合能力环境响应及其大尺度模拟。结题

8. 国家重点实验室基金课题 黄土高原土壤侵蚀与旱地农业 新一代全球植被动态模型研发。结题

Next-generation vegetation model based on functional traits

Developing a first-principles based NPP model with eco-physiological optimality

Dynamic Vegetation Models- The Next Generation