同自然灾害抗争是人类生存发展的永恒课题。
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钟霖浩

姓名:

钟霖浩

性别:


职称:

研究员

学位:

博士

电话:

010-62845800

传真:

Email

linhaozhong@ninhm.ac.cn

邮编:

100085

地址:

北京市海淀区西三旗安宁庄路1

更多信息:

男,19779月出生,江西南昌人,国家自然灾害防治研究气象灾害研究中心,研究员,中心负责人,国家灾研院“气候异常灾害链预警技术”创新团队首席科学家。

研究方向为气候动力学和水循环,围绕旱涝等气候灾害的水汽输送问题,开展气候动力学和水循环研究,自主建立的水汽定量化溯源模型并成功应用于中国区域旱涝机制和北极增暖与中纬度响应研究。先后主持科研项目10项,含国家自然科学基金5项,包括青年基金1项、面上项目3项、气象联合基金重点项目1项。已正式发表学术论文60余篇,在EGUAOGS等多个国际会议做口头报告。

简历:

20241月至今,应急管理部国家自然灾害防治研究院气象灾害研究中心,研究员,气象灾害研究中心副主任

20233-20241月,应急管理部国家自然灾害防治研究院气象灾害研究中心,研究员,气象灾害研究中心临时负责人

202111-20233月,应急管理部国家自然灾害防治研究院气象灾害研究中心,副研究员,气象灾害研究中心临时负责人

20081月-202111月,    中国科学院大气物理研究所东亚区域气候环境重点实验室,副研究员

20197月,University of Alaska FairbanksUniversity of California, Los Angeles (UCLA),美国,访问学者

201710月,Pennsylvania State UniversityState University of New York, Albany美国,访问学者

20175月,University of Hamburg, 德国,访问学者

20057月-200712月,中国科学院大气物理研究所云降水物理与强风暴实验室,            助理研究员

20009月–20056月,中国海洋大学海洋环境学院大气科学系,硕-博连读研究生,                  博士学位

19969月–20006月,青岛海洋大学(现中国海洋大学)海洋环境学院海洋气象系,              本科,学士学位

任职:

应急管理部国家自然灾害防治研究院气象灾害研究中心副主任(主持工作)

研究方向:

气候动力学,水循环,极端天气气候

学科类别:

大气科学

承担科研项目情况:

1.         2024-2027,国家自然科学基金气象联合基金重点项目(U2342210)268万元,主持

2.         2023-2026,国家自然科学基金面上项目(42275043), 55万元,主持

3.         2020-2023, 国家自然科学基金面上项目(41975099), 62万元,主持

4.         2013-2016,国家自然科学基金面上项目(41275064), 80万元,主持

5.         2008-2010,国家自然科学基金青年基金(40705016),19万元,主持

6.         2022-2025,国家重点研发计划项目专题(2022YFC3003004),63.4万元,主持

7.         2024-2026,国家自然灾害防治研究院创新团队项目,120万元,主持

8.         2023-2024,国家自然灾害防治研究院院长基金, 20万元,主持

9.         2010-2011, 中科院知识创新工程重要方向项目(Y062014601, 100万元,主持

10.     2020.10-2020.12, 南方海洋科学与工程广东省是实验室委托项目,50万元,主持

11.     2008-2011,国家自然科学基金重点项目(40730948),10万元,专题负责人

12.     2010-2014, 国家海洋局公益性专项(201005019),43万元,专题负责人

13.     2015-2019, 国家自然科学基金重点项目(41430533),40万元,专题负责人

14.     2007-2011,科技部“973”项目(2007CB411800),30万元,参加

15.     2016-2021,国家重点研发计划气候变化专项(2016YFA0600403),60万元,参加

16.     2018-2023,国家自然科学基金重大项目(41790473),60万元,参加

17.     2018-2023,中科院A类先导专项(XDA19070403, 80万元,参加

获奖及荣誉:

2006年度“山东省优秀博士论文”奖

共发表论文61篇,其中SCI论文53篇,CSCD论文8篇,第一/通讯作者SCI论文21篇、第一/通讯作者CSCD论文6篇(含1Scopus收录),另出版科普译著1部,软件著作权5个(第一开发人)。

论文情况(*为通讯作者):

1.          Zhong Linhao, Hua Lijuan*, Zhaohui Gong, Yao Yao, Lin Mu, 2022: Quantifying the Spatial Characteristics of the Moisture Transport Affecting Precipitation Seasonality and Recycling Variability in Central Asia, Advances in Atmospheric Sciences, doi: 10.1007/s00376-021-1383-5. SCI  IF=3.158

2.          Xiaoyu Tan, Zhong Linhao*, Lin Mu*, Zhaohui Gong, 2022: Tropical and Polar Oceanic Influences on the Cold Extremes in East Asia: Implications of the Cold Surges in 2020/2021Winter, Journal of Marine Science and Engineering, https:// doi.org/10.3390/jmse10081103. SCI  IF=2.744

3.          Zhong Linhao*, Hua Lijuan, Yao Yao, and Feng Jinming, 2021: Interdecadal aridity variations in Central Asia during 1950-2016 regulated by oceanic conditions under the background of global warming, Climate Dynamics, doi: 10.1007/s00382-021-05659-2. SCI  IF=4.486

4.          Yanan Chen, Dehai Luo, Linhao Zhong*, Yao Yao, 2021: Effects of Barents–Kara Seas ice and North Atlantic tripole patterns on Siberian cold anomalies, Weather and Climate Extremes, 34, 100385, DOI: 10.1016/j.wace.2021.SCIIF=5.338

5.          Zhong Linhao*, Hua Lijuan, Yao Yao, Feng Jinming, Zhao Tianbao, 2021: Moisture transport to a typical transitional climate zone in North China forced by atmospheric and oceanic internal variability under the background of global warming, International Journal of Climatology, doi: 10.1002/joc.6999. SCIIF=3.928

6.          Zhong, Linhao*, L.Hua,and Z.Yan,2020: Datasets of meteorological drought events and risks for the developing countries in Eurasia. Big Earth Data, 4(2): 191-223.DOAJ, Scopus

7.          Zhong Linhao*, Mu Lin, Li Jing, Wang Jiaying, Yin Zhe, and Liu Darong, 2020: Early Prediction of the 2019 Novel Coronavirus Outbreak in the Mainland China Based on Simple Mathematical Model, IEEE Access, 8: 51761-51769. SCIIF=3.745

8.          Li Jing, Mu Lin, Zhong Linhao*, 2021: Distinct tropical Pacific sea surface temperature anomaly regimes enhanced under recent global warming. International Journal of Climatology, https://doi.org/10.1002/joc.6712. SCIIF=3.928

9.          Zhong Linhao*, Hua Lijuan, Ma Zhuguo, Yao Yao, 2019: A quantitative study of moisture transport variation on the interdecadal variation of the summer precipitation in South China from 1979 to 2015, Climate Dynamics, 53:4743-4761. SCIIF=4.486

10.       Zhong Linhao*, Hua Lijuan, and Luo Dehai, 2018: Local and external moisture sources for the Arctic warming over the Barents-Kara Seas, Journal of Climate, 31(5): 1963-1982. SCIIF=5.707

11.       Hua Lijuan, Zhong Linhao*, and Ma Zhuguo, 2017: Decadal transition of moisture sources and transport in northwestern China during summer from 1982 to 2010. Journal of Geophysical Research: Atmospheres, 122(23): 12522-12540. SCI IF=3.821

12.       Hua Lijuan, Zhong Linhao*, Ke Zongjian, 2017: Characteristics of the precipitation recycling ratio and its relationship with regional precipitation in China, Theoretical and Applied Climatology, 127(3-4), 513-531. SCIIF=2.882

13.       Zhong Linhao*, Hua Lijuan, and Luo Dehai, 2016: The Eddy–Mean Flow Interaction and the Intrusion of Western Boundary Current into the South China Sea–Type Basin in an Idealized Model. J. Phys. Oceanogr., 46, 2493–2527. SCIIF=3.318

14.       Hua Lijuan, Zhong Linhao*, Ke Zongjian, 2016: Precipitation recycling and soil–precipitation interaction across the arid and semi-arid regions of China, International Journal of Climatology, 36: 3708-3722. SCIIF=3.928

15.       Zhong Linhao*, Hua Lijuan and Feng Shide, 2012: A statistical analysis on the different features of TC extratropical transition over land and ocean, Journal of Tropical Meteorology, 18(2), 228-241. SCIIF=0.75

16.       Mu Lin, Zhong Linhao*, Hua Lijuan, and Song Jun, 2011: Low-frequency variability of a semi-closed sea induced by the circulation in an adjacent ocean in a wind-driven, quasi-geostrophic, eddy-resolving simulation. Ocean Dynamics, 2011, 61, 1459-1473. SCIIF=1.887

17.       Zhong Linhao*, Hua Lijuan and Feng Shide, 2009: A climatology of extratropical transition of tropical cyclones in the western North Pacific, Journal of Tropical Meteorology, 2009, 15(2), 130-147. SCIIF=0.75

18.       Zhong Linhao*, Feng Shide, Dong Ping, and Gao Shouting, 2006: Lattice Boltzmann Schemes for the nonlinear Shrödinger equation. Physical Review E, 74(1), 036704. SCIIF=2.296

19.       Zhong Linhao*, Feng Shide, Luo Dehai, and Gao Shouting, 2006: Wind-driven, double-gyre ocean circulation in reduced gravity, 2.5-layer, lattice Boltzmann model. Advances in Atmospheric Sciences, 23(4), 561-578. SCIIF=2.583

20.       钟霖浩*,罗德海,冯士德,高守亭,2006: 准地转大洋风生环流的格子Boltzmann数值模拟. 地球物理学报,49(5):1257-1270. SCIIF=0.811

21.       Zhong Linhao*, Feng Shide, and Gao Shouting, 2005: Wind-driven Ocean Circulation in shallow water lattice Boltzmann model. Advances in Atmospheric Sciences, 22(3), 349-358. SCIIF=2.583

22.       Zhong Linhao*, Luo Dehai, and Feng Shide, 2004: A lattice Boltzmann modeling for the western boundary current in a linear wind-driven quasi-geostrophic model. Journal of Hydrodynamics, 16(5): 596-602. SCIIF=2.265

23.       陈剀,钟霖浩*,华丽娟,陈文2020:华西秋雨趋势变化的年代际转折及其成因分析. 气候与环境研究. 25(1): 90-102. CSCD

24.       付强,钟霖浩*,罗德海,2016: 冬季北美大西洋地区温带气旋的活动特征及与NAO的关系,海洋通报,201635(1), 46-53. CSCD

25.       周雅娟, 钟霖浩*, 华丽娟, 2016 北大西洋海表面温度锋与大西洋风暴路径及大气大尺度异常的关系研究. 气候与环境研究, 21 (4): 449−466. CSCD

26.       Huang Yawen, Hua Lijuan , Zhong Linhao* and Feng Shide, 2016: Characteristics of mesoscale eddies in the South China Sea, Journal of University of Chinese Academy of Sciences, 33(1), 97-106. CSCD

27.       Zhong Rui, Zhong Linhao*, Hua Lijuan, and Feng Shide, 2014: A Climatology of the Southwest Vortex during 1979–2008, Atomspheric and Oceanic Science Letters,7(6),577-583. CSCD

28.       Yao Yao*, Zhuo Wenqin, Luo Dehai, Ian Simmonds, Luo, Binhe, Zhong Linhao, Huang Fei, 2024: Impact of Pacific blocking on the intraseasonal winter sea ice seesaw between the Bering and Okhotsk Seas. Atmospheric Research, 107227. DOI: 10.2139/ssrn.4524752. SCIIF=5.5

29.       Yang Yang, Lin Zhaohui, Luo Lifeng, Zhong Linhao, Jiang Dabang, 2023: Variation of surface air temperature induced by enhanced land–atmosphere coupling during 1981−2020 in Xinjiang, Northwest China. Journal of Geophysical Research: Atmospheres, 128, e2022JD037983. SCI IF=4.4

30.       Wang Yongli, Shi Lamei, Shi Zitong, Yao Qichao, Wang Zhou, Zhong Linhao*, 2023: Assessing the fire-modified meteorology of the grassland and forest intersection zone in Mongolia using the WRF-Fire Model. Fire, 6, 443. SCI IF=3.2

31.       Yao Yao*, Zhuo Wenqin, Luo Dehai, Ian Simmonds, Luo Binhe, Zhong Linhao, Huang Fei, 2023: Intraseasonal winter sea ice seesaw between the Bering and Okhotsk Seas due to North Pacific blocking. Atmospheric Research, http://dx.doi.org/10.2139/ssrn.4524752. SCI IF=5.5

32.       Che Zhihui, Mu Lin, Zhong Linhao, 2023: A Pan–North Pacific wintertime surface air temperature pattern influenced by the SST anomalies over the Kuroshio and Oyashio extension. Journal of Climate, 36, 5619−5640. SCI IF=4.9

33.       Yao Yao, Zhuo Wenqin, Gong Zhaohui, Luo Binhe, Luo Dehai, Zheng Fei, Zhong Linhao, Huang Fei, Ma Shuangmei, Zhu Congwen, ZhouTianjun, 2023: Extreme cold events in North America and Eurasia in November−December 2022: a potential vorticity gradient perspective. Advances in Atmospheric Sciences, 40, 953−962. SCI IF=5.8

34.       Ying Kairan, Jiang Dabang, Zheng Xiaogu, Carsten S. Frederiksen, Peng Jing, Zhao Tianbao, Zhong Linhao, 2023: Seasonal predictable source of the East Asian summer monsoon rainfall in addition to the ENSO–AO. Climate Dynamics, 60(7−8), 2459−2480. SCIIF=4.6

35.       Huang Wenshuo, Hua Lijuan, Zhong Linhao, Yang Yang, Gong Zhaohui, 2023: Recent Opposite Trends of Atmospheric Rivers over East Asia and Western North Pacific Driven by the Pacific Decadal Oscillation. Journal of Geophysical Research: Atmospheres, DOI: 10.1029/2023JD039147 SCI IF=4.4

36.       Lijuan Hua, Tianbao Zhao, Linhao Zhong, 2022: Future changes in drought over Central Asia under CMIP6 forcing scenarios, Journal of Hydrology: Regional Studies, 43, 101191,https://doi.org/10.1016/j.ejrh.2022.101191. SCI  IF=5.437

37.       Huang Ru, Zhu Haifeng, Liang Eryuan, Achim Bäruning, Zhong Linhao, et al., 2022: Contribution of winter precipitation to tree growth persists until the late growing season in the Karakoram of northern Pakistan, Journal of Hydrology,  607:127513, doi: 10.1016/j.jhydrol.2022.127513. SCIIF=6.708

38.       Yao Yao, Zhang Wenqi, Luo Dehai, Zhong Linhao, and Pei Lin, 2022: Seasonal Cumulative Effect of Ural Blocking Episodes on the Frequent Cold events in China during the Early Winter of 2020/21. Advances in Atmospheric Sciences, 39, 609–624 (2022). https://doi.org/10.1007/s00376-021-1100-4. SCI  IF=3.158

39.       Li Muyuan, Yao Yao, Simmonds Ian, Luo Dehai, Zhong Linhao, and Pei Lin, 2021: Linkages between the atmospheric transmission originating from the North Atlantic Oscillation and persistent winter haze over Beijing, Atmospheric Chemistry and Physics, 21, 18573–18588, https://doi.org/10.5194/acp-21-18573-2021. SCI  IF=6.546

40.       Chen Yanan, Luo Dehai, Zhong Linhao, 2021: North Atlantic multidecadal footprint of the recent winter warm Arctic–cold Siberia pattern. Climate Dynamics. https://doi.org/10.1007/s00382-021-05698-9. SCIIF=4.486

41.       Che Zhihui, Yao Yao, Zhong Linhao. 2020: Wintertime sea surface temperature front around the Kuroshio Extension and its impact on North Pacific blocking. International Journal of Climatology.1–22. SCIIF=3.928

42.       Li Muyuan, Yao Yao, Simmonds Ian, Luo Dehai, Zhong Linhao, and Chen Xiaodan. 2020: Collaborative impact of the NAO and atmospheric blocking on European heatwaves, with a focus on the hot summer of 2018. Environmental Research Letters 15 (11). SCIIF=6.096

43.       Li Muyuan, Luo Dehai, Simmonds Ian, Dai Aiguo, Zhong Linhao, and Yao Yao. 2020: Anchoring of atmospheric teleconnection patterns by Arctic Sea ice loss and its link to winter cold anomalies in East Asia. International Journal of Climatology. https://doi.org/10.1002/joc.6637. SCIIF=3.928

44.       Zhou, Lilong, Feng Jinming, Hua Lijuan, and Zhong Linhao, 2020:  Extending square conservation to arbitrarily structured C-grids with shallow water equations. Geosci. Model Dev., 2020. 13(2): 581-595. SCIIF=5.240

45.       Luo Meng, Feng Jinming, Xu Zhongfeng, Chen Liang, Wang Jun, Wang Yongli, Lin Shan, Zhong Linhao, 2020: Decadal winter temperature changes in East Asia during 1958-2001 and the contributions of internal variability and external forcing, Journal of Geophysical Research: Atmospheres, DOI: 10.1029/2019JD031840. SCIIF=3.821

46.       Li Muyuan, Dehai Luo, Yao Yao, and Zhong Linhao. 2020: Large-scale atmospheric circulation control of summer extreme hot events over China. International Journal of Climatology 40 (3):1456-1476. SCI IF=3.928

47.       Li Muyuan, Yao Yao, Luo Dehai, and Zhong Linhao, 2019: The Linkage of the Large-Scale Circulation Pattern to a Long-Lived Heatwave over Mideastern China in 2018. Atmosphere, 10(2), 89. SCIIF=2.397

48.       Luo Dehai, Zhang Wenqi, Zhong Linhao, and Dai Aiguo (2019) A Nonlinear Theory of Atmospheric Blocking: A Potential Vorticity Gradient View. Journal of the Atmospheric Sciences, 76(8): 2399-2427. SCIIF=3.194

49.       Luo Binhe, Luo Dehai, Wu Lixin, Zhong Linhao, and I. Simmonds, 2017: Atmospheric circulation patterns which promote winter Arctic sea ice decline. Environmental Research Letters,12(5), 054017. SCIIF=6.096

50.       Luo Dehai, Yao Yao, Dai Aiguo, I. Simmonds, and Zhong Linhao, 2017: Increased Quasi Stationarity and Persistence of Winter Ural Blocking and Eurasian Extreme Cold Events in Response to Arctic Warming. Part II: A Theoretical Explanation. Journal of Climate, 30, 3569-3587. SCIIF=5.707

51.       Luo Dehai, Zhong Linhao, and Christian L. E. Franzke, 2015: Inverse Energy Cascades in an Eddy-Induced NAO-Type Flow: Scale Interaction Mechanism. Journal of the Atmospheric Sciences, 72, 3417–3448. SCI IF=3.194

52.       Luo Dehai, Cha Jing, Zhong Linhao and Dai Aiguo, 2014: A nonlinear multiscale interaction model for atmospheric blocking: The eddy-blocking matching mechanism. Quarterly Journal of the Royal Meteorological Society, 140(683), 1785-1808. SCIIF=3.471

53.       Deng Guo, Zhou Yushu, Zhong Linhao, Wei Mozheng, 2012: Effect of initial perturbation of land surface processes on tropical cyclone forecast, Journal of Tropical Meteorology, 412-421. SCIIF=0.75

54.       Hua Lijuan, Ma Zhuguo, and Zhong Linhao, 2011: A comparative analysis of primary and extreme characteristics of dry or wet status between Asia and North America, Advances in Atmospheric Sciences, 28(2),352-362. SCIIF=2.583

55.       Luo Dehai, Zhong Linhao, Ren Rongcai, and Wang Chunzai, 2010: Spatial pattern and zonal shift of the North Atlantic Oscillation. Part II: Numerical experiments, Journal of Atmospheric Sciences, 67, 2827-2853. SCIIF=3.194

56.       Luo Dehai, Zhu Zhihui, Ren Rongcai, Zhong Linhao, Wang Chunzai, 2010: Spatial Pattern and Zonal Shift of the North Atlantic Oscillation. Part I: A Dynamical Interpretation. Journal of Atmospheric Sciences, 67, 2805–2826. SCIIF=3.194

57.       Luo Dehai, Gong Tingting, and Zhong Linhao, 2008: Dynamical Relationship between the Phase of North Atlantic Oscillation and the Meridional Excursion of a Preexisting Jet: An Analytical Study, Journal of Atmospheric Sciences, 65(6), 1838-1858. SCIIF=3.194

58.       冯士德, 钟霖浩, 高守亭, Dong Ping, 2007: 格子Boltzmann模型平衡分布边界条件和多棱柱排列渗流流场的数值模拟, 物理学报, 56(3), 1238-1244. SCIIF=0.732

59.       Feng Shide, Dong Ping, and Zhong Linhao, 2006: A lattice Boltzmann model for two-dimensional magetohydrodynamics, Chinese Physics Letters, 23(10), 2823-2826. SCIIF=1.080

60.       冯劭华, 罗德海, 钟霖浩, 2015: 黑潮延伸体中尺度涡年代际变化与北太平洋风暴轴变化之间的关系, 大气科学, 39(5): 861-874.CSCD

61.       牟林, 宋军, 钟霖浩, 王兰宁, 李欢, 李琰, 2011: 不同CO2浓度背景下格陵兰-苏格兰海脊溢流水变化机制,科学通报,5623),1910-1919. CSCD

译著

钟霖浩,姚遥等,2021:《风暴背后-天气中的数学》,机械工业出版社。

软件著作权

1.         EDRM-CAS拉格朗日拓展动力大气水循环定量化诊断软件(2019SR1278995

2.         MLQG-CAS涡分辨多层准地转大洋风生环流模式(2019SR1278985

3.         大洋环流约化重力浅水模式软件(2020SR1647244

4.         中科大气海洋涡旋识别追踪软件(2020SR1647017

5.         大气多尺度动力过程分解软件 2020SR1647322

科学专利: