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姓 名:
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刘慧 |
性 别:
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女 |
职 务:
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职 称:
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副研究员 |
学 历:
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博士 |
通讯地址:
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广州市天河区兴科路723号 |
电 话:
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020-37081975 |
邮政编码:
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510650 |
传 真:
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电子邮件:
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hui.liu@scbg.ac.cn |
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研究领域: |
植物生理生态学:植物功能性状(重点关注水力性状)在不同尺度如何协调和适应环境。
演化生理生态学:结合物种的功能性状、分布环境和系统发育探讨植物的演化规律。
一直从事植物生理生态学、演化生态学的研究。以植物功能性状为切入点,在物种水平、演化类群、生物区系和全球尺度上系统研究不同植物类群的适应机制和演化模式。主要学术贡献有:1) 提出了全球尺度水分梯度-水力性状协同假说,拓展了植物水分生理生态学的研究尺度 (Science Advances, 2019; New Phytologist, 2021等);2) 阐明了不同类群(禾本科和木兰科)的地理分布及适应策略,揭示了功能性状的演化生态位保守性 (New Phytologist, 2022; Journal of Experimental Botany, 2015; 2019等);3) 构建了动植物分布数据库和演化模型,发现了全球物种气候生态位演化规律的一致性 (Nature Ecology & Evolution, 2020; Journal of Biogeography, 2016等)。
共发表SCI论文44篇,中文核心论文16篇;近5年发表SCI论文34篇,其中唯一第一作者论文8篇,共一和通讯3篇,论文总他引1321次,h-index 19 (Google Scholar 2022.05)。主持国家自然科学基金2项,科技部重点研发子任务1项,教育部、广东省和广州市项目3项、中科院项目若干,参与申请木兰科新品种2个。长期为20余个国际国内主流期刊审稿,多次在国内外学术会议上做报告。2018年广州市珠江科技新星、2019年中科院青年创新促进会、2021年中科院特聘研究基础原创类骨干岗位、2022年SCI期刊Plant Diversity(IF=3.359)编委。
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承担科研项目情况: |
主持国家自然科学基金2项,科技部重点研发子任务1项,教育部、广东省和广州市项目3项、中科院项目若干,参与申请木兰科新品种2个。
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社会任职: |
1. 国家自然科学基金评审专家、广东省科学技术厅科技咨询专家。
2. 国内外学术杂志审稿:为Nature Ecology & Evolution, Nature Communications, New Phytologist等国际期刊审稿,长期为《植物生态学报》等国内期刊审稿。
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获奖及荣誉: |
1. 2019年,入选“中国科学院青年创新促进会”
2. 2018年,获“广州市珠江科技新星”人才称号
3.2016年,获“第十五届中国生态学大会青年优秀报告奖”
4.2013、2017、2019、2020、2021年,中科院华南植物园职工年度考核优秀,“十三五”(2016-2020)期间科研业绩评估优秀。
5. 2011年,获Yang Hanxi Rising Ecologist Award-中华海外生态学者协会
6. 2011年,获Chinese Student Awards奖学金-the Great Britain-China Educational Trust (GBCET)
7.2008年,国家留学基金委 “UK/China Scholarships for Excellence programme”
8. 2007年,中国科学院三好学生
9.2005年,北京师范大学优秀毕业生
10.2004年,北京师范大学三好学生、优秀团干部、一等专业奖学金;二等国家奖学金
11.2003年,北京师范大学优秀共青团员、一等专业奖学金
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代表论著: |
A) 5篇代表论文
1. Liu, H., Ye, Q., Simpson, K.J., Cui, E., Xia, J. (2022) Can evolutionary history predict plant plastic responses to climate change? New Phytologist, online.
2. Liu, H., Ye, Q., Gleason, S.M., He, P., Yin, D. (2021) Weak tradeoff between xylem hydraulic efficiency and safety: climatic seasonality matters. New Phytologist, 229, 1440-1452.
3. Liu, H., Ye, Q., Wiens, J. (2020) Climatic-niche evolution follows similar rules in plants and animals. Nature Ecology & Evolution, 4, 753–763.
4. Liu, H., Gleason, S.M., Hao, G.Y., Hua, L., He, P.C., Goldstein, G. Ye, Q. (2019) Hydraulic traits are coordinated with maximum plant height at the global scale. Science Advances, 5, eaav1332.
5. Liu, H., Taylor, S.H., Xu, Q.Y., Lin, Y.X., Hou, H., Wu, G.L., Ye, Q. (2019) Life history is a key factor explaining functional trait diversity among subtropical grasses, and its influence differs between C3and C4species. Journal of Experimental Botany, 70, 1567-1580.
B) 其他第一/通讯作者SCI论文(含共同第一/共同通讯作者)
1. Liu, H. & Osborne, C. P. (2015) Water relations traits of C4grasses depend on phylogenetic lineage, photosynthetic pathway, and habitat water availability. Journal of Experimental Botany, 66, 761-773.
2. Liu, H., Lundgren, M., Freckleton, R.P., Xu, Q. & Ye, Q. (2016) Uncovering the spatio-temporal drivers of species trait variances: a case study of Magnoliaceae in China. Journal of Biogeography, 43, 1179-1191.
3. Liu, H., Osborne, C.P., Yin, D.Y., Freckleton, R.P., Jiang, G.M., Liu, M.Z. (2019) Phylogeny and ecological processes influence grass coexistence at different spatial scales within the steppe biome. Oecologia, 191, 25-38.
4. Zhang, X.#, Liu, H.#, Luo, X., Xiao, M., Xiang, P., Chen, M., … Wen, D. (2022). Contrasting responses in growth, photosynthesis and hydraulics of two subtropical tree species to cadmium contamination as affected by elevated CO2 and nitrogen addition. Science of The Total Environment, 155858.
5. Wang, C.#, Liu, H.#, Zhu, L., Ren, H., Yan, J., Li, Z., & Zhang, H. (2021). Which traits are necessary to quickly select suitable plant species for ecological restoration? Ecological Solutions and Evidence, 2, e12102.
6. Li, K., Wang, J., Qiao, L., Zheng, R., Ma, Y., Chen, Y., Hou, X., Du, Y., Gao, J., Liu, H.* (2020). Diversity of reproductive phenology among subtropical grasses is constrained by evolution and climatic niche. Frontiers in Ecology and Evolution, 8, 181.
7. Zhu, S.D.#, Liu, H.#, Xu, Q.Y., Cao, K.F., Ye, Q. (2016) Are leaves more vulnerable to cavitation than branches? Functional Ecology, 30, 1740-1744.
8. Liu, H.#, Xu, Q.#, He, P., Santiago, L.S., Yang, K. & Ye, Q. (2015) Strong phylogenetic signals and phylogenetic niche conservatism in ecophysiological traits across divergent lineages of Magnoliaceae. Scientific Reports, 5, 12246.
9. Liu, H., Xu, Q., Lundgren, M.R., Ye, Q. (2017) Different water relations between flowering and leaf periods: a case study in flower-before-leaf-emergence Magnolia species. Functional Plant Biology, 44, 1098-1110.
10. Liu, H., Zhu, L.W., Xu, Q.Y., Lundgren, M.R., Yang, K.M., Zhao, P., Ye, Q. (2018) Ecophysiological responses of two closely related Magnoliaceae genera to seasonal changes in subtropical China. Journal of Plant Ecology, 11, 434-444.
11. Xu, Q.Y.#, Liu, H.#, Ye, Q. (2017) Intraspecific variability of ecophysiological traits of four Magnoliaceae species growing in two climatic regions in China. Plant Ecology, 218, 407-415.
12. Liu, H., Edwards, E., Freckleton, R., Osborne, C. (2012) Phylogenetic niche conservatism in C4 grasses. Oecologia, 170, 835-845.
13. Liu, H., Jiang, G.M., Zhuang, H.Y., Wang, K.J. (2008) Distribution, utilization structure and potential of biomass resources in rural China: With special references of crop residues. Renewable & Sustainable Energy Reviews, 12, 1402-1418.
C) 第一/通讯作者非SCI论文(含共同第一/共同通讯作者):
1. 张浩萍, 宋柱秋, 叶楠, 陈新兰, 练琚愉, 刘慧* (2022) 中国南亚热带和北温带地区禾本科C3与C4草本植物花果期差异研究. 热带亚热带植物学报, doi: 10.11926/jtsb.4562
2. 赵乐文, 陈梓熠, 邹滢, 付子钊, 吴桂林, 刘小容, 罗琦, 林忆雪, 李雄炬, 刘智通, 刘慧* (2018) 九种维管植物水力性状的演化趋势. 植物生态学报, 42, 220-228.
D) 其他论文(仅列SCI论文):
1. Young, S. N. R., Dunning, L. T., Liu, H., Stevens, C. J., & Lundgren, M. R. (2022). C4trees have broader niches than their close C3relatives. Journal of Experimental Botany. doi: 10.1093/jxb/erac113
2. Liu, L., Chen, X., Ciais, P., Yuan, W., Maignan, F., Wu, J., Piao, S., Wang, Y., Wigneron, J.-P., Fan, L., Gentine, P., Yang, X., Gong, F., Liu, H., Wang, C., Tang, X., Yang, H., … Su, Y. (2022). Tropical tall forests are more sensitive and vulnerable to drought than short forests. Global Change Biology, 28:1583–1595.
3. Duan, C.Y., Li, M.Y., Fang, L.D., Cao, Y., Wu, D.D., Liu, H., … Hao, G.-Y. (2022). Greater hydraulic safety contributes to higher growth resilience to drought across seven pine species in a semi-arid environment. Tree Physiology, 42, 727–739.
4. Yang, X., Wu, J., Chen, X., Ciais, P., Maignan, F., Yuan, W., …Liu, H., … Wright?, S. J. (2021). A comprehensive framework for seasonal controls of leaf abscission and productivity in evergreen, broadleaved tropical and subtropical forests. The Innovation, 100154.
5. Li, R., Zhu, S., Lian, J., Zhang, H., Liu, H., Ye, W., & Ye, Q. (2021). Functional Traits Are Good Predictors of Tree Species Abundance Across 101 Subtropical Forest Species in China. Frontiers in Plant Science, 12, 1101.
6. Zhang, T., Liang, X., Ye, Q., BassiriRad, H., Liu, H., He, P., Wu, G., Lu, X., Mo, J., Cai, X., Rao, X., Yan, J., & Fu, S. (2021). Leaf hydraulic acclimation to nitrogen addition of two dominant tree species in a subtropical forest. Science of The Total Environment, 771, 145415.
7. Liang, X., Ye, Q., Liu, H., & Brodribb, T. J. (2021). Wood density predicts mortality threshold for diverse trees. New Phytologist, 229, 3053-3057.
8. Gao, J.G., Liu, H., Wang, N., Yang, J., & Zhang, X.L. (2020). Plant extinction excels plant speciation in the Anthropocene. BMC Plant Biology, 20(1), 430.
9. Wang, C.#, Zhang, H.#, Liu, H., Jian, S., Yan, J., & Liu, N. (2020). Application of a trait-based species screening framework for vegetation restoration in a tropical coral island of China. Functional Ecology, 34 (6), 1193-1204.
10. Liang, X.#, Zhang, T.#, Lu, X., Ellsworth, D.S., BassiriRad, H., You, C., Wang, D., He, P., Deng, Q., Liu, H., Mo, J., & Ye, Q. (2020). Global response patterns of plant photosynthesis to nitrogen addition: A meta-analysis. Global Change Biology, 26 (6), 3583-3600.
11. He, P., Gleason, S., Wright, I.J., Weng, E., Liu, H., Zhu, S., Lu, M., Luo, Q., Li, R., ... Ye, Q. (2019). Growing-season temperature and precipitation are independent drivers of global variation in xylem hydraulic conductivity. Global Change Biology, online.
12. Xu, Q. Y., Wang, D., Quan, G. M., Zhang, J. E., Li, R. H., & Liu, H. (2019). Pennisetum Hydridum’s Potential for Controlling Invasive Chromolaena Odorata. Sustainability, 11(21), 5990.
13. Hua, L., He, P., Goldstein, G., Liu, H., Yin, D., Zhu, S., & Ye, Q. (2019). Linking vein properties to leaf biomechanics across 58 woody species from a subtropical forest. Plant Biology, online.
14. Liu, X., Liu, H., Gleason, S.M., Goldstein, G., Zhu, S., He, P., Hou, H., Li, R. and Ye, Q. (2019). Water transport from stem to stomata: the coordination of hydraulic and gas exchange traits across 33 subtropical woody species. Tree physiology, 39, 1665-1674.
15. He, P., Wright, I.J., Zhu, S., Onoda, Y., Liu, H., Li, R., et al. (2019) Leaf mechanical strength and photosynthetic capacity vary independently across 57 subtropical forest species with contrasting light requirements. New Phytologist, 223: 607-618.
16. Liang, X., He, P., Liu, H., Zhu, S., Uyehara, I. K., Hou, H., Wu, G., Zhang, H., You, Z., Xiao, Y. & Ye, Q. (2019) Precipitation has dominant influences on the variation of plant hydraulics of the native Castanopsis fargesii (Fagaceae) in subtropical China. Agricultural and Forest Meteorology, 271, 83-91.
17. Zhang, H., Chen, H. Y. H., Lian, J., John, R., Li, R.H., Liu, H., Ye, W.H., Berninger, F. & Ye, Q. (2018) Using functional trait diversity patterns to disentangle the scale-dependent ecological processes in a subtropical forest. Functional Ecology, 32, 1379-1389.
18. Zhang, H., John, R., Zhu, S., Liu, H., Xu, Q., Qi, W., Liu, K., Chen, H. Y. & Ye, Q. (2018) Shifts in functional trait–species abundance relationships over secondary subalpine meadow succession in the Qinghai–Tibetan Plateau. Oecologia, 188, 547-557.
19. Wu, G., Liu, H., Hua, L., Luo, Q., Lin, Y., He, P., Feng, S., Liu, J. & Ye, Q. (2018) Differential responses of stomata and photosynthesis to elevated temperature in two co-occurring subtropical forest tree species. Frontiers in Plant Science, 9, 467.
20. Wu, G., Jiang, S., Liu, H., Zhu, S., Zhou, D., Zhang, Y., Luo, Q. & Li, J. (2018) Early direct competition does not determine the community structure in a desert riparian forest. Scientific Reports, 8, 4531.
21. Zhu, S.D., Chen, Y.J., Ye, Q., He, P.C., Liu, H., Li, R.H., Fu, P.L., Jiang, G.F. & Cao, K.F. (2018) Leaf turgor loss point is correlated with drought tolerance and leaf carbon economics traits. Tree Physiology, 38, 658-663.
22. Zhang, H, Zhu, S.D., John, R, Li, R.H., Liu, H., Ye, Q. (2017) Habitat filtering and exclusion of weak competitors jointly explain fern species assemblage along a light and water gradient. Scientific Reports, 7, 298.
23. Zhu, S.D., Li, R.H., Song, J., He, P.C., Liu, H., Berninger, F. & Ye, Q. (2016) Different leaf cost–benefit strategies of ferns distributed in contrasting light habitats of sub–tropical forests. Annals of Botany, 117, 497-506.
24. Wang, G.M., Jiang, G.M., Yu, S.L., Li, Y.H., Liu, H. (2008) Invasion possibility and potential effects of Rhus typhina on beijing municipality. Journal of Integrative Plant Biology, 50, 522-530.
25. Wang, G.M., Jiang, G.M., Zhou, Y.L., Liu, Q.R., Ji, Y.S., Wang, S.X., Chen, S.B., Liu, H. (2007) Biodiversity conservation in a fast-growing metropolitan area in China: a case study of plant diversity in Beijing. Biodiversity and Conservation, 16, 4025-4038.
26. Liu, J., Chen, Y., Guo, L.R., Gu, B., Liu, H., Hou, A.Y., Liu, X.F., Sun, L.X., Liu, D.Z. (2006) Stereotypic behavior and fecal cortisol level in captive giant pandas in relation to environmental enrichment. Zoo Biology, 25, 445-459.
教学科普:
1) 2022年为中山大学生命科学学院大四学生野外实践课程做讲座。
2) 2021年为中科院华南植物园第43期“琪林科学讲坛”做科普讲座。
3) 2020年为华东师范大学生态与环境科学学院大二学生讲授“生态系统模型”暑期课程。
4) 2019年任加州大学伯克利分校与周凯旋基金会的“未来科学家”项目导师。
5) 2017、2018年2次以客座教授身份赴宁波诺丁汉大学短期交流。
6) 2016-2018年任“广东实验中学拔尖科学人才培养班”校外导师。
7) 2015年,出版文章:C4植物的起源和扩张——持续百万年的生态故事. 生态智慧:生物多样性 (eds 伍业钢, 唐剑武 & 潘绪斌), pp. 115-122. 高等教育出版社, 北京.
会议报告(仅列重要会议)
1. 2021.05, 金华,第十一届现代生态学讲座暨第九届国际青年生态学者论坛,口头报告。
2. 2020.12, 广州,中科院华南植物园重点实验室学术年会,口头报告(优秀报告一等奖)。
3. 2020.12, 潍坊,第十届中国生态学家俱乐部学术论坛,口头报告(分会场主持)。
4. 2020.11, 勐仑,全国系统与进化植物学研讨会,口头报告。
5. 2020.11, 广州,第十九届中国生态学大会,口头报告(分会场主持)。
6. 2020.11, 长沙,第五届农业生态前沿青年论坛,口头报告。
7. 2020.10, 广州,第五届“地球-生态-资源-能源”青年学术沙龙(分会场主持)。
8. 2019.12, 广州,第一届暨南大学生态学青年学者论坛,口头报告(受邀)。
9. 2019.11, 保定,第九届中国生态学家俱乐部暨雄安生命科学论坛,口头报告。
10. 2019.10, 沈阳,中科院青年创新促进会学术年会,口头报告。
11. 2019.09, 北京,第一届中国生物地理学大会,口头报告。
12. 2017.07, 深圳,XIX International Botanical Congress,口头报告(受邀)。
13. 2017.07, 西宁,第三届陆地生态学青年学者学术研讨会,口头报告。
14. 2017.03, 香港,Graduate Consortium of Ecology and Conservation. 口头报告。
15. 2016.08, 兰州,第十五届中国生态学大会,口头报告(青年优秀报告奖)。
16. 2016.07, 沈阳,树木水分生理生态研讨会. Oral presentation.
17. 2016.05, 北京,International Biogeography Society Special Meeting. Poster.
18. 2015.05, 海口,热带植物生态、进化与保育国际会议暨第六届热带森林生态学学术研讨会,口头报告。
19. 2012.11, 广州,13th Conference of International Association of Botanical Gardens. Oral presentation.
20. 2011.12, London, UK, The 1st Annual Mini-Symposium on Plant Environmental Physiology. Oral presentation.
21. 2011.09, Sheffield, UK, British Ecological Society Annual Meeting 2011. Oral presentation.
22. 2011.08, 南京,第六届现代生态学讲座暨第二届国际青年生态学者论坛,口头报告(Yang Hanxi Rising Ecologist Award)。
23. 2011.07, Melbourne, Australia, XVIII International Botanical Congress. E-poster presentation.
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刘慧 |
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