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何超
暨南大學氣象研究學者
何超,暨南大學氣象研究學者。
2005.09-2009.06 北京師範大學數學科學學院,數學與應用數學專業,理學學士
2014年7月-2017年10月,中國氣象局廣州熱帶海洋氣象研究所,從事科研工作。2016年晉陞副研究員
2017年11月-現在,暨南大學,環境與氣候研究院,從事科研和教學工作。2019年破格晉陞研究員
何超的研究方向為氣候動力學,揭示了副熱帶高壓和夏季風對全球變暖的緯向非均勻響應機制。
He C, Li T, Zhou W (2020) Drier North American monsoon in contrast to Asian-African monsoon under global warming. J Climate doi: 10.1175/JCLI-D-20-0189.1
He C, Zhou W (2020) Different enhancement of the East Asian summer monsoon under global warming and interglacial epochs simulated by CMIP6 models: Role of the subtropical high. J Climate doi: 10.1175/JCLI-D-20-0304.1
He Z, Wang W, Wu R, Kang I-S, He C, Li X, Xu K, Chen S (2020) Change in Coherence of Summer Rainfall Variability over the Western Pacific around the Early 2000s: ENSO Influence. J Climate 33 (3):1105-1119. doi:10.1175/jcli-d-19-0150.1
Dong X, He C (2020) Zonal displacement of the Western North Pacific subtropical high from early to late summer. Int J Climatol 40 (11):5029-5041. doi:10.1002/joc.6508
Wang Y, He C, Li T (2020) Impact of Global Warming on the Western North Pacific Circulation Anomaly during Developing El Niño. J Climate 33 (6):2333-2349. doi:10.1175/jcli-d-19-0588.1
Wang Y, He C, Li T (2020) Response of the anomalous western North Pacific anticyclone during El Niño mature winter to global warming. Clim Dynam 54 (1):727-740. doi:10.1007/s00382-019-05024-4
He C, Wang Y, Li T (2019) Weakened Impact of the Developing El Niño on Tropical Indian Ocean Climate Variability under Global Warming. J Climate 32 (21):7265-7279. doi:10.1175/jcli-d-19-0165.1
He C, Wang Z, Zhou T, Li T (2019) Enhanced latent heating over Tibetan Plateau as a key for the enhanced East Asian summer monsoon circulation under a warming climate. J Climate. 32 (11):3373-3388. doi:10.1175/JCLI-D-18-0427.1
Liu D, Pan N, Huang C, Zheng J, He C (2019) Cluster analysis of tropical cyclones affecting the Taiwan Strait. Int J Climatol. doi:10.1002/joc.6048
Wang X, Liu SC, Liu R, Shiu C-J, He C, Zhong X (2019) Observed changes in precipitation extremes and effects of tropical cyclones in South China during 1955–2013. Int J Climatol 39 (5):2677-2684. doi:doi:10.1002/joc.5980
He C, Zhou T, Li T (2019) Weakened anomalous western North Pacific anticyclone during El Niño decaying summer under a warmer climate: Dominant role of the weakened impact of tropical Indian Ocean on the atmosphere. J Climate. 32(1):213-230. doi:10.1175/JCLI-D-18-0033.1
He C, Liu R, Wang X, Liu SC, Zhou T, Liao W (2019) How does El Niño-Southern Oscillation modulate the interannual variability of winter haze days over eastern China? Sci Total Environ 651:1892-1902. doi:10.1016/j.scitotenv.2018.10.100
He C, Li T (2019) Does global warming amplify interannual climate variability? Clim Dynam. doi:10.1007/s00382-018-4286-0
Wang Y, He C, Li T (2019) Decadal change in the relationship between East Asian spring circulation and ENSO: Is it modulated by Pacific Decadal Oscillation? Int J Climatol 39 (1):172-187. doi:doi:10.1002/joc.5793 (聯合指導學生完成)
He C, Lin A, Gu D, Li C, Zheng B, Wu B, Zhou T (2018) Using eddy geopotential height to measure the western North Pacific subtropical high in a warming climate. Theor Appl Climatol 131 (1):681-691. doi:10.1007/s00704-016-2001-9
Zhou T, Chen X, Wu B, Guo Z, Sun Y, Zou L, Man W, Zhang L,He C(2017) A Robustness Analysis of CMIP5 Models over the East Asia-Western North Pacific Domain. Engineering 3 (5):773-778. doi:10.1016/j.eng.2017.05.018
Chen J, Wen Z, Wu R, Wang X,He C, Chen Z (2017) An interdecadal change in the intensity of interannual variability in summer rainfall over southern China around early 1990s. Clim Dynam 48 (1):191-207. doi:10.1007/s00382-016-3069-8
He C, Lin A, Gu D, Li C, Zheng B (2017) Formation mechanism for the amplitude of interannual climate variability in subtropical northern hemisphere: relative contributions from the zonal asymmetric mean state and the interannual variability of SST. Clim Dynam 48 (1):697-705. doi:10.1007/s00382-016-3105-8
He C, Lin A, Gu D, Li C, Zheng B, Zhou T (2017) Interannual variability of Eastern China Summer Rainfall: the origins of the meridional triple and dipole modes. Clim Dynam 48 (1):683-696. doi:10.1007/s00382-016-3103-x
He C, Wang L, Gu D, Lin A, Li C, Zheng B (2017) The fraction of East Asian interannual climate variability explained by SST in different seasons: an estimation based on 12 CMIP5 models. Atmos Sci Lett 18 (2):45-51. doi:10.1002/asl.722
He C, Wu B, Zou L, Zhou T (2017) Responses of the Summertime Subtropical Anticyclones to Global Warming. J Climate 30 (16):6465-6479. doi:10.1175/jcli-d-16-0529.1
Li G, Xie S-P,He C, Chen Z (2017) Western Pacific emergent constraint lowers projected increase in Indian summer monsoon rainfall. Nature Clim Change 7 (10):708-712. doi:10.1038/nclimate3387
Lin A, Zhang R,He C(2017) The relation of cross-equatorial flow during winter and spring with South China Sea summer monsoon onset. Int J Climatol 37 (13):4576-4585. doi:10.1002/joc.5106
He C, Wu B, Li C, Lin A, Gu D, Zheng B, Zhou T (2016) How much of the interannual variability of East Asian summer rainfall is forced by SST? Clim Dynam 47 (1):555-565. doi:10.1007/s00382-015-2855-z
鄭彬, 李春輝, 林愛蘭, 谷德軍,何超(2016) 南海夏季風活動指標的定義及應用. 熱帶氣象學報 32 (4):433-443
He C, Zhou T (2015) Decadal change of the connection between summer western North Pacific Subtropical High and tropical SST in the early 1990s. Atmos Sci Lett 16 (3):253-259. doi:10.1002/asl2.550
He C, Zhou T (2015) Responses of the Western North Pacific Subtropical High to Global Warming under RCP4.5 and RCP8.5 Scenarios Projected by 33 CMIP5 Models: The Dominance of Tropical Indian Ocean–Tropical Western Pacific SST Gradient. J Climate 28 (1):365-380. doi:10.1175/jcli-d-13-00494.1
He C, Zhou T, Lin A, Wu B, Gu D, Li C, Zheng B (2015) Enhanced or Weakened Western North Pacific Subtropical High under Global Warming? Scientific Reports 5:16771. doi:10.1038/srep16771
He C, Zhou T, Wu B (2015) The Key Oceanic Regions Responsible for the Interannual Variability of the Western North Pacific Subtropical High and Associated Mechanisms. J Meteor Res 29 (4):562-575. doi:10.1007/s13351-015-5037-3 (中文版:何超, 周天軍, 吳波 (2015) 影響夏季西北太平洋副熱帶高壓年際變率的關鍵海區及影響機制. 氣象學報 74 (5):940-951)
He C, Zhou T (2014) The two interannual variability modes of the Western North Pacific Subtropical High simulated by 28 CMIP5–AMIP models. Clim Dynam 43 (9-10):2455-2469. doi:10.1007/s00382-014-2068-x
He C, Zhou T, Zou L, Zhang L (2013) Two interannual variability modes of the Northwestern Pacific Subtropical Anticyclone in boreal summer. SCIENCE CHINA Earth Sciences 56 (7):1254-1265. doi:10.1007/s11430-012-4443-y
廣東省自然科學基金-博士啟動基金“西北太平洋海氣耦合過程對西太副高年際變率的影響及機理研究”,批准號:2014A030310432,執行年度:2015-2017 年 (主持)
國家自然科學基金-青年科學基金“夏季西北太平洋副熱帶高壓年際變率對全球變暖的響應及機理研究”,批准號:41505067,執行年度:2016-2018年 (主持)
科技部“全球變化及應對”重點專項“地球系統模式各分量模式及其耦合評估體系的發展與應用”第一課題的子課題“人為溫室氣體強迫下熱帶大尺度環流響應的不確定性研究”,批准號:2017YFA0604601,執行年度:2017-2022 (參與)
國家自然科學基金-面上項目“人為溫室氣體強迫下東亞-西太氣候年際變率的變化機制”,批准號:41875081,執行年度:2019-2022(主持)
2019年9月2日下午,暨南大學環境與氣候研究院何超副研究員在雲南大學資源環境與地球科學學院作了題為“副熱帶高壓和東亞夏季風對全球變暖的響應”的學術報告。大氣科學系各位教師,以及本科生和研究生參加了此次會議。何超博士圍繞“氣候變暖背景下,副熱帶高壓特別是西太副高將增強還是減弱?東亞夏季風環流如何變化?”以及“氣候變暖背景下,西太副高的年際變率特別是它與ENSO的關係會如何變化?”這些重要的科學問題,從影響副熱帶高壓和東亞夏季風的各個影響因子,從海氣相互作用,到青藏高壓大地形的影響以及海陸熱力差異等因子的分析,結合數值模式結果,全面介紹了最新的研究進展。