1.国家自然科学基金面上项目:功能性状和系统发育解释喀斯特峰丛洼地濒危植物群落构建机制,2021.1-2024.12,主持
2.国家自然科学基金面上项目:喀斯特峰丛洼地灌木功能性状适应退化异质生境的权衡机制,2019.1-2020.12,主持
3.广西区重点研发计划项目:九洲江流域农村污水减控关键技术研究与应用示范,2019.02-2022.1,主持
4.广西区重大专项子课题:喀斯特区域药用植物种植模式示范,2019.1-2021.12,主持
5.广西区自然科学基金面上项目:桂西北濒危植物单性木兰功能性状变异及其喀斯特生境适应策略,2020.1-2022.12,主持
6.中科院“西部之光”人才培养计划项目:桂西北喀斯特区核桃生长对土壤养分空间异质性的响应及分区调控研究,2015.1-2017.12,主持
7.广西区科技计划重点项目:广西农村养殖废弃污染物减控及资源化利用研究与示范,2015.1-2017.12,主持
8.中科院科技扶贫连续资助项目:广西环江县科技扶贫、产业培育及乡村振兴等, 2015.1-2025.12,骨干
9.国家重点研发计划课题:断陷盆地特色生态产业的培育、技术开发与示范,2016.7-2020.12, 骨干
10.中科院先导专项子专题:广西区森林生态系统固碳现状、速率、潜力和机制,2015.1-2018.12,骨干
1.Zhang H, Wang K.L, Zeng Z.X, Du H, Zou Z.G, Zeng F.P. Large-scale patterns of forest’s growth rate are mainly driven by climate variables and stand characteristics. Forest Ecology and Management, 2019, 435:120-127
2.Zhang H, Song T.Q, Wang K.L, Wang G.X, Liao J.X, Xu G.H, Zeng F.P. Biogeographical patterns of biomass allocation vary with climate, soil and forest characteristics in China. Environmental Research Letters. 2015,10: 044014
3.Zhang H, Wang K.L, Xu X.L, Song T.Q, Xu Y.F, Zeng F.P. Biogeographical patterns of biomass allocation in leaves, stems and roots in China’s forests. Scientific Reports. 2015,5, 15997; doi: 10.1038/srep15997
4.Zhang H, Song T.Q, Wang K.L, Yang H, Yue Y.M, Zeng Z.X, Peng W.X, Zeng F.P. Influences of stand characteristics and environmental factors on forest biomass and root-shoot allocation in southwest China. Ecological Engineering, 2016, 91:7-15
5.Zhang H, Song T.Q, Wang K.L, Du H, Yue Y.M, Wang G.X, Zeng F.P. Biomass and carbon storage in an age-sequence of Cyclobalanopsis glauca plantations in southwest China. Ecological Engineering. 2014,73:184-191
6.Zhang H, Wang K.L, Zeng Z.X, Zou Z.G, Xu Y.F, Zeng F.P. Multiple factors drive variation of forest root biomass in southwestern China. Forests. 2018, 9, 456; doi:10.3390/f9080456
7.Zhang H, Zeng Z.X, Zou Z.G, Zeng F.P. Climate, life form and family jointly control variation of leaf traits. Plants, 2019, 8, 286
8.Zhang H, Wang K.L, Zeng Z.X, Du H, Zeng F.P. Biomass and Carbon Sequestration by Juglans regia Plantations in the Karst Regions of Southwest China. Forests, 2017, 8, 103.
9.Zhang H, Song T.Q, Wang K.L, Wang G.X, Hu H, Zeng F.P. Prediction of crude protein content in rice grain with canopy spectral reflectance. Plant, Soil and Environment. 2012,58:514-520
10.Zhang H, Hu H, Zhang X.B, Zhu L.F, Zheng K.F, Jin Q.Y, Zeng F.P. Estimation of rice neck blasts severity using spectral reflectance based on BP-neural network. Acta Physiologiae Plantarum.2011,33:2461-2466
11.Zhang H, Hu Hao, Zhang Xiaobin, Wang Kelin, Song Tongqing, Zeng Fuping. Detecting Suaeda salsa L. chlorophyll fluorescence response to salinity stress by using hyperspectral reflectance. Acta Physiologiae Plantarum. 2012, 34:581-588
12.Zou Z.G, Zeng F.P, Wang K.L, Zeng Z.X, Zhang H*. Varieties matter when planning for poverty alleviation and ecological restoration in karst fruit cultivation areas. Sustainability. 2021, 13, 12211.
13.Zou Z.G, Zeng F.P, Wang K.L, Zeng Z.X, Tang H, Zhang H*. Evaluation and tradeoff analysis of ecosystem service for typical land-use patterns in the karst region of Southwest China. Forests. 2020,11,451; doi:10.3390/f11040451
14.Zou Z.G, Zeng F.P, Zeng Z.X, Du H, Tang H, Zhang H*. The variation in the stoichiometric characteristics of the leaves and roots of karst shrubs. Forests. 2021, 12, 852.
15.Zou Z.G, Zeng F.P, Wang K.L, Zeng Z.X, Zhao L.L, Du H, Zhang F, Zhang H*. Emergy and economic evaluation of seven typical agroforestry planting patterns in the karst region of Southwest China. Forests. 2019,10,138; doi:10.3390/f10020138