SCI学术论文
2020年
[35] Jiang CY, Rye Y, Keenan TF and Wang H. An optimality-based model explains seasonal variation in C3 plant photosynthetic capacity. Global Change Biology. https://doi.org/10.1111/gcb.15276.
[34] Paillassa J, Wright IJ, Prentice IC, Pepin S, Smith NG, Ethier G, Westerband AC, Lamarque LJ, Wang H, Cornwell WK and Maire Vincent. When and where soil is important to modify the carbon and water economy of leaves. New Phytologist. doi: 10.1111/nph.16702.
[33] Franklin O, Harrison SP, Dewar R, Farrior CE, Brännström A, Dieckmann U, Pietsch S, Falster D, Cramer W, Loreau M, Wang H, Mäkelä A, Rebel KT, Meron E, Schymanski SJ, Rovenskaya E, Stocker BD, Zaehle S, Manzoni S, van Oijen M, Wright IJ, Ciais P, van Bodegom PM, Peñuelas J, Hofhansl F, Terrer C, Soudzilovskaia NA, Midgley G and Prentice IC. Organizing principles for vegetation dynamics. Nature Plants. 6: 444-453.
[32] Wang H*, Atkin OK, Keenan TF, et al. Acclimation of leaf respiration consistent with optimal photosynthetic capacity. Global Change Biology. 00: 1– 11.
[31] Qiao S, Wang H*, Prentice I C, et al. Extending a first-principles primary production model to predict wheat yields. Agricultural and Forest Meteorology. 287: 107932.
[30] Kettge J and 724 coauthors including Wang H. TRY plant trait database – enhanced coverage and open access. Global Change Biology. 26: 119-188.
[29] Stocker BD, Wang H, Smith NG, Harrison SP, Keenan F, Sandoval D, Davis T and Prentice IC. P-model v1.0: An optimality-based light use efficiency model for simulating ecosystem gross primary production. Geoscientific Model Development. 13: 1545-1581.
2019年
[28] Liu YW, Piao SL, Gasser T, Ciais P, Yang H, Wang H, Keenan TF, Huang MT, Wan SQ, Song J, Wang K, Janssens IA, Peñuelas J, Huntingford C, Wang XH, Arain MA, Fang YY, Fisher JB, Huang MY, Huntzinger DN, Ito A, Jain AK, Mao JF, Michalak AM, Peng CH, Poulter B, Schwalm C, Shi XT, Tian HQ, Wei YX, Zeng N, Zhu Q and Wang T. Field-experiment constraints on the enhancement of the terrestrial carbon sink by CO2 fertilization. Nature Geoscience. 12: 809-814.
[27] Guo YR, Peng CH, Zhu Q, Wang M, Wang H, Peng SH and He HL: 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] Jin JX, Ma XH, Chen H, Wang H, Kang XM, Wang XF, Wang Y, Yong B, Guo FS: Grassland production in response to changes in biological metrics over the Tibetan Plateau. Science of the Total Environment. 666: 641-651.
2018年
[25] Yang B, Peng CH, Harrison SP, Wei H, Wang H, Zhu Q, Wang M: Allocation Mechanisms of Non-Structural Carbohydrates of Robinia pseudoacacia L. Seedlings in Response to Drought and Waterlogging. Forests. 9:754.
[24] Smith NG, Keenan TF, Prentice IC, Wang H, Wright IJ, Niinemets U, Crous KY, Domingues TF, Guerrieri R, Ishida FY, Kattge J, Kruger EL, Maire V, Rogers A, Serbin SP, Tarvainen L, Togashi HF, Townsend PA, Wang M, Weerasinghe LK, Zhou SX: Global photosynthetic capacity is optimized to the environment. Ecology Letters. doi: 10.1111/ele.13210.
[23] Togashi HF, Atkin OK, Bloomfield KJ, Bradforde M, Cao KF, Dong N, Evans BJ, Fan ZX, Harrison SP, Hua Z, Liddell MJ, Lloyd J, Ni J, Wang H, Weerasinghe LK, Prentice IC: 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] Yang YZ, Wang H, Harrison SP, Prentice IC, Wright IJ, Peng CH, Lin GH: Quantifying leaf trait covariation and its controls across climates and biomes. New Phytologist. doi: 10.1111/nph.15422.
[21] Wang H*, Harrison SP, Prentice IC, Yang YZ, Bai F, Togashi HF, Wang M, Zhou SX, Ni J: The China Plant Trait Database: towards a comprehensive regional compilation of functional traits for land plants. Ecology. 99: 500.
2017年
[20] Wang H*, Prentice IC, Cornwell W, Davis T, Keenan TF, Wright IJ, Changhui Peng: A universal model for carbon dioxide uptake by plants. Nature Plants. 3: 734-741.
[19] Wright IJ, Dong N, Maire V, Prentice IC, Westoby M, Díaz S, Gallagher RV, Jacobs BF, Kooyman R, Law EA, Leishman MR, Niinemets U, Reich RB, Sack L, Villar R, Wang H, Wilf P: Global climatic drivers of leaf size. Science. 357: 917-921.
[18] Zhu QA, Peng CH, Ciais P, Jiang H, Liu JX, Bousquet P, Li SQ, Fang XQ, Zhou XL, Chen H, Liu SR, Lin GH, Gong P, Wang M, Wang H, Xiang WH, Chen J: 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] Nakamura A, Kitching RL, Cao M, Creedy TJ, Fayle TM, Freiberg M, Hewitt CN, Itioka T, Koh LP, Ma K, Malhi Y, Mitchell A, Novotny V, Ozanne CMP, Song L, Wang H, and Ashton LA: Forests and Their Canopies: Achievements and Horizons in Canopy Science. Trends in Ecology & Evolution. 32:438-451.
[16] Wang H*, Prentice IC, Keenan TF, Davis T, Wright IJ, Changhui Peng: Photosynthetic responses to altitude: an explanation based on optimality principles. New Phytologist. 213: 976-982.
2016
[15] Keenan TF, Prentice IC, Canadell JG, Williams CA, Wang H, Raupach M, Collatz GJ: Recent pause in the growth rate of atmospheric CO2 due to enhanced terrestrial carbon uptake. Nature Communication. 7: 13428 doi:10.1038/ncomms13428.
[14] Zhu Q, Peng C, Liu J, Jiang H, Fang X, Chen H, Niu Z, Gong P, Lin G, Wang M, Wang H, Yang Y, Chang J, Ge Y, Xiang W, Deng X and He JS: 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] Davis T, Prentice IC, Stocker BD, Whitley RJ, Wang H, Evans BJ, Gallego-Sala AV, Sykes MT, Cramer W: 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.
2015
[12] Yang YZ, Zhu QA, Peng CH, Wang H, Xue W, Lin GH, Wen ZM, Chang J, Wang M, Liu GB, Li SQ: A novel approach for modelling vegetation distributions and analysing vegetation sensitivity through trait-climate relationships in China. Scientific Reports. doi: 10.1038/srep24110.
[11] Lin Y, Belinda EM, Duursma RA, Prentice IC, Wang H, Baig S, Eamus D, de Dios VR, Mitchell P, Ellsworth DS., de Beeck MO, Wallin G, Uddling J, Tarvainen L, Linderson M-L, Cernusak LA, Nippert JB., Ocheltree TW., Tissue David T., Martin-StPaul NK., Rogers A, Warren JM., Angelis PD, Hikosaka K, Han Q, Onoda Y, Gimeno TE., Barton CVM, Bennie J, Bonal D, Bosc A, Löw M, Macinins-Ng C, Rey A, Rowland L, Setterfield SA, Tausz-Posch S, Zaragoza-Castells J, Broadmeadow MSJ, Drake JE, Freeman M, Ghannoum O, Hutley LB, Kelly JW, Kikuzawa K, Kolari P, Koyama K, Limousin J-M, Meir P, da Costa ACL, Mikkelsen TN, Salinas N, Sun W and Wingate L: Optimal stomatal behaviour around the world. Nature Climate Change. 5: 495-464.
[10] Yang Y, Zhu Q, Peng C, Wang H, Chen H: From plant functional types to plant functional traits: A new paradigm in modelling global vegetation dynamics. Progress in Physical Geography. 39: 514-535.
[9] Meng T-T, Wang H*, Harrison SP, Prentice IC, Ni J and Wang G: Responses of leaf traits to climatic gradients: adaptive variation vs. compositional shifts. Biogeosciences. 12: 1-14.
2014年
[8] Wang H*, Prentice IC, Davis TW: Biophysical constraints on gross primary production by the terrestrial biosphere. Biogeosciences. 11: 5987-6001.
[7] Atwell BJ, Wang H, Scafaro AP: Could abiotic stress tolerance in wild relatives of rice be used to improve Oryza sativa? Plant Science. 215-216: 48-58.
2013年
[6] Wang H*: A multi-model assessment of climate change impacts on the distribution and productivity of ecosystems in China. Regional Environmental Change. 14: 133-144.
[5] Wang H*, Prentice IC, Ni J: Data-based modelling and environmental sensitivity of vegetation in China. Biogeosciences. 10: 5817-5830.
2012年
[4] Wang H*, Prentice IC, Ni J: Global change and primary production in China: contrasting light- and water-use efficiency models. Biogeosciences. 9: 4689-4705.
[3] Kelley DI, Prentice IC, Harrison S, Wang H, Simard M, Fisher JB, Willis K: A comprehensive benchmarking system for evaluating global vegetation models. Biogeosciences. 10: 3313–3340.
2011年
[2] Wang H*, Ni J, Prentice IC: Sensitivity of potential natural vegetation in China to projected changes in temperature, precipitation and atmospheric CO2. Regional Environmental Change. 11: 715-727.
[1] Prentice IC, Meng T, Wang H, Harrison S, Ni J, Wang GH: Evidence for a universal scaling relationship of leaf CO2 drawdown along an aridity gradient. New Phytologist. 190: 169-180.