English
刘强
已经得到个称赞     给我点赞
  • 电子邮箱:
  • 入职时间:2023-06-12
  • 所在单位:遥感与测绘工程学院
  • 学历:博士研究生毕业
  • 办公地点:北辰楼325
  • 性别:
  • 学位:理学博士学位
  • 职称:教授
  • 在职信息:在岗
  • 毕业院校:北京大学
  • 学科:自然地理学
  • 个人简介
  • 研究方向
  • 社会兼职
  • 教育经历
  • 工作经历
  • 团队成员
  • 其他联系方式

刘强,本科毕业于南京信息工程大学,先后在北京师范大学和北京大学获得硕士和博士学位。曾担任比利时安特卫普大学博士后研究员,主持比利时弗兰德研究基金会资助的项目1项。于20236月入职南京信息工程大学,先后入选江苏特聘教授及国家海外高层次人才引进计划青年项目。研究聚焦植被物候对全球变化的响应机制,近年来在Nature CommunicationsPNASGlobal Change BiologyRemote Sensing of Environment等国际权威期刊发表学术论文40篇,其中9篇入选ESI高被引论文,总被引次数超过10000余次。研究成果被IPCC第六次评估报告引用,被众多国际知名学者正面评价和引证。获得比利时安特卫普大学优秀博士后、欧盟学术委员会玛丽居里行动计划卓越奖等多项奖励。

 

教育经历

12015.09-2019.06,北京大学,城市与环境学院,自然地理学,理学博士

22017.11-2018.05,比利时安特卫普大学,生物系,联合培养博士

32011.09-2014.06,北京师范大学,全球变化与地球系统科学研究院,全球环境变化,理学硕士

42007.09-2011.06,南京信息工程大学,遥感学院,遥感科学与技术,理学学士

 

工作经历

12023. 12-,南京信息工程大学,遥感与测绘工程学院,教授

22023.06-2023.11,南京信息工程大学,遥感与测绘工程学院,校聘教授

32019.10-2023.06,比利时安特卫普大学,生物系,博士后研究员

 

学术兼职

1SCI一区期刊《植物生态学报》编委

2SCI一区期刊《Journal of Plant Ecology》青年编委

 

主讲课程

《灾害遥感》《气象学与气候学》

学术论文

第一/通讯作者论文

1. Lu, Y., Miao, L., Agathokleous, E., Wang, G., Wang, D., Jiang, H., Chuai, X. and Liu, Q.*, 2026. Delayed senescence end prolongs leaf senescence duration in temperate China. Agricultural and Forest Meteorology, 377, 110938.

2. Miao, L., Yu, Z., Zhu, X., … Liu Q*, 2025. Grassland growth response to drought in dryland Inner Mongolia: insights from a two-decade analysis. Environmental Research Letters, 20, 074038.

3. Ji, C., Agathokleous, E., Ju, L., Yu, Z., Zhu, X., Jiang, T., Su, B., Wang, G., Tao, S., Miao, L.*, Sun, S.* and Liu, Q.*, 2025. Growing threat of climate-induced abrupt dry-wet transitions in Northern China. Atmospheric Research, 326, 108325

4. Liu, Q., Delpierre, N. and Campioli, M., 2024. Photoperiod alone does not explain the variations of leaf senescence onset across Europe. Agricultural and Forest Meteorology, 355, 110134.

5. Miao L, Ju L, Sun S, … Liu Q*, (2024) Unveiling the dynamics of sequential extreme precipitation-heatwave compounds in China. npj Climate and Atmospheric Science, 7, 67. (ESI高被引)

6. Miao, L., Zhang, Y., Agathokleous, E., Bao, G., Zhu, Z. and Liu, Q.*, 2024. Modeling with Hysteresis Better Captures Grassland Growth in Asian Drylands. Remote Sensing, 16, 1838.

7.  Zhang Y, Hong S, Liu Q*, Huntingford C, Peñuelas J, Ross S, . . . Piao S* (2023). Autumn canopy senescence has slowed down with global warming since the 1980s in the Northern Hemisphere. Communications earth & environment ,4, 173.

8. Liu Q, Piao S, Campioli M, Gao M, Fu Y H, Wang K, He Y, Li X and Janssens IA (2020) Modeling leaf senescence of deciduous tree species in Europe. Global Change Biology, 26, 4104-4118.

9. Liu Q, Piao S, Fu YH, Gao M, Peñuelas J, Janssens IA. (2019) Climatic warming increases spatial synchrony in spring vegetation phenology across the Northern Hemisphere. Geophysical Research Letters, 46, 1641-1650.

10. Liu Q, Piao S, Janssens IA, et al. (2018). Extension of the growing season increases vegetation exposure to frost. Nature Communications, 9, 426. (ESI高被引)

11. Liu Q, Fu YH, Zhu Z, et al. (2016). Delayed autumn phenology in the Northern Hemisphere is related to change in both climate and spring phenology. Global Change Biology, 22(11), 3702-3711. (ESI高被引)

12. Liu Q, Fu YH, Zeng Z, Huang M, Li X, Piao S. (2016). Temperature, precipitation, and insolation effects on autumn vegetation phenology in temperate China. Global Change Biology, 22(2), 644-655. (ESI高被引)

13. Liu Q*, Liang S, Xiao Z, Fang H. (2014). Retrieval of leaf area index using temporal, spectral, and angular information from multiple satellite data. Remote Sensing of Environment, 145, 25-37.

 

合作作者论文(筛选)

1. Yang, X., Tian, J., Ciais, P., Zhou, L., Reich, P.B., Wu, J., Shang, J., Chave, J., Lamour, J., Maréchaux, I., Fu, Y.H., Chen, J.M., Liu, J., Tao, S., Xiao, X., Xu, X., Su, Y., Zhang, H., Zhu, Z., Zhang, Y., Hao, D., Chen, L., Liu, Q., Lafortezza, R., Yan, K., Li, P., Li, X., Meir, P., Liu, H., Bonal, D., Nelson, B.W., Tang, H., Wang, J., Yu, K., Yuan, W., Wang, S. and Chen, X., 2026. Amazon rainforests are rejuvenating their canopies by producing more photosynthetically efficient young leaves under climate change. Nature Plants, 12, 520-531.

2. Li, W., Lu, H., Chen, J.M., Piao, S., Keenan, T.F., Miao, G., Liu, Q., Zang, Z., Xu, N., Liu, J., Cheng, Q., Wang, H., Wang, R., Ji, W., Zhu, P., Li, C., Xin, Q. and Gong, P., 2026. Enhanced effect of warming on the leaf-onset date of boreal deciduous broadleaf forest. Nature Climate Change. 16, 200-206.

3. Lang, W., Zhang, Y., Li, X., Meng, F., Liu, Q., Wang, K., Xu, H., Chen, A., Peñuelas, J., Janssens, I.A. and Piao, S., 2025. Phenological divergence between plants and animals under climate change. Nature Ecology & Evolution, 9, 261-272.

4. Zhu, C., Wang, G., Shao, Y., Dai, W., Liu, Q., Wang, S., Costa, A.C. and Cabral, P., 2025. Disentangling gross primary productivity drivers of forested areas in China and its climate zones from 1990 to 2018. Journal of Cleaner Production, 509, 145616.

5. Chen A, Huang L, Liu Q, Piao S (2021) Optimal temperature of vegetation productivity and its linkage with climate and elevation on the Tibetan Plateau. Global Change Biology, 27, 1942-1951.

6. Gao M, Wang X, Meng F, Liu Q, Li X, Zhang Y, Piao S (2020) Three-dimensional change in temperature sensitivity of northern vegetation phenology. Global Change Biology, 26, 5189-520

7. Song J, Wan S, Piao S, et al., Liu Q, et al., Zheng M (2019). A meta-analysis of 1,119 manipulative experiments on terrestrial carbon-cycling responses to global change. Nature Ecology & Evolution, 3, 1309-1320. (ESI高被引)

8. Piao, S., Zhang, X., Chen, A., Liu, Q., Lian, X., Wang, X., Peng, S. and Wu, X., 2019. The impacts of climate extremes on the terrestrial carbon cycle: A review. Science China Earth Sciences, 62, 1551–1563. (ESI高被引)

9. Gao M, Piao S, Chen A, Yang H, Liu Q, Fu YH, Janssens IA (2019) Divergent changes in the elevational gradient of vegetation activities over the last 30 years. Nature Communications, 10, 2970.

10. Piao S, Liu Q, Chen A, Janssens IA, et al. (2019) Plant phenology and global climate change: Current progresses and challenges. Global Change Biology, 25 (6), 1922-1940. (ESI高被引)

11.  Anav A, Liu Q, De Marco A, et al. (2018). The role of plant phenology in stomatal ozone flux modelling. Global Change Biology, 24(1), 235-248.

12. Wang X, Wang T, Guo H, et al., Liu Q, Piao S. (2018). Disentangling the mechanisms behind winter snow impact on vegetation activity in northern ecosystems. Global Change Biology, 24(4), 1651-1662.

13. Zhao C, Liu B, Piao S, et al., Janssens IA, et al., Liu Q, et al. (2017). Temperature increase reduces global yields of major crops in four independent estimates. Proceedings of the National Academy of Sciences, 114(35), 9326-9331. (ESI高被引)

14.  Piao S, Tan J, Chen A, et al., Liu Q, Janssens IA, et al. (2015). Leaf onset in the northern hemisphere triggered by daytime temperature. Nature Communications, 6, 6911. (ESI高被引)

15. Fu YH, Piao S, Vitasse Y, et al., Liu Q, Janssens IA. (2015). Increased heat requirement for leaf flushing in temperate woody species over 1980–2012: effects of chilling, precipitation and insolation. Global Change Biology, 21(7), 2687-2697.

16. Shen M, Piao S, Dorji T, Liu Q, et al. (2015). Plant phenological responses to climate change on the Tibetan Plateau: research status and challenges. National Science Review, 2(4), 454-467.

 

专著:

1)《中国气候与生态环境演变:2021(第一卷 科学基础)》第七章 陆地生态系统变化,7.4 物候

 

科研项目:

1)江苏特聘教授,2023 —2025,主持

2)国家自然科学基金优秀青年科学基金项目(海外),植被物候与气候变化,2024 —2026,主持

3)比利时弗兰德研究基金会资助项目, Towards a better model representation of vegetation autumn phenology of temperate -zone deciduous trees2020 —2023,主持

4)比利时科学政策部资助项目, The ECOPROPHET project2017 — 2022,参与,已结题


植被动态与气候变化、植被物候学、全球变化生态学

暂无内容

2019 南京信息工程大学·网络信息中心 NUIST备80008

您是第位访客 手机版 南京信息工程大学

最后更新时间:--