王召民[河海大學海洋學院副院長]

個人經歷

1980年9月-1984年7月：南京大學大氣科學學院，學士學位。

1984年9月-1987年7月：南京大學大氣科學系，碩士學位（導師黃士松教授）；

1987年8月-1995年8月：南京大學大氣科學學院，講師。

1995年9月-1999年6月：加拿大麥吉爾大學大氣與海洋科學系，博士學位（導師L. A. MYSAK.教授 ）；

1999年6月-2001年7月：加拿大麥吉爾大學大氣與海洋科學系，博士後（導師L. A. MYSAK教授）；

2001年8月-2005年12月：加拿大麥吉爾大學大氣與海洋科學系，副研究員；

2006年1月-2011年12月：英國南極局，終身研究員；

2012年1月-2016年12月：南京信息工程大學，教授；

2017年1月起：河海大學海洋學院，教授。

研究領域

王召民教授

王召民教授長期從事氣候與海洋環流數值模式發展和套用研究，研究大氣-海洋-冰相互作用對極地和全球氣候的影響。研究了大洋環流突變形成機制；系統地分析了較複雜耦合氣候模式在南大洋的模擬現狀和偏差存在原因；套用全球高解析度海洋-海冰環流模式研究了全球大洋環流對大氣強迫變化的回響特徵及機理；研究了極地極端惡劣天氣引起的災害性冰情快速形成機理；研究了南北兩極相反氣候變化形成機理；領導研究團隊發展了一個超高解析度區域海洋-海冰-冰架耦合模式並開展了一系列研究。

他的研究興趣如下：

1.海洋環流與全球氣候變化；

2.極地氣候系統,大氣-海洋-冰相互作用；

3.海洋環流高解析度數值模擬；

4.氣候模式發展與氣候模擬。

表彰獎勵

王召民教授曾於南京大學獲南京大學傑出研究生獎，於麥吉爾大學獲麥吉爾大學北京紀念獎、麥吉爾大學Dean’s Honour List（傑出博士研究生獎）、麥吉爾大學Major Fellowship、麥吉爾大學Max Dunbar海洋獎等。

他獲得的其它表彰獎勵列舉如下：

1.Hidaka獎, 2003，日本海洋學會；

2. Tertia M.C. Hughes紀念獎（最佳博士論文獎）, 2000, 加拿大氣象與海洋學會；

3. 魁北克省Fonds pour la formation des chercheurs et l’aide à la recherche Fellowship，1998, 加拿大魁北克；

4. 麥吉爾大學北京紀念獎, 1997-1998, 加拿大麥吉爾大學。

學術活動

學術報告中的王召民教授

王召民教授是第一個被邀請在IUGG（四年一次國際地球物理界學術大會）作有關南大洋報告的華人；也被邀請成為聯合國政府間氣候變化委員會（IPCC）第五次報告評審專家。長期活躍於國際學術前沿，參與組織大型國際學術會議，並擔任國際雜誌評審；曾任國際南大洋氣候和生態系統科學指導委員會委員，現任中國冰凍圈學會理事，國際南極氣候與環境變化專家組成員，國際南極研究科學委員會中國代表，國際氣候委員會委員。

他的學術兼職情況如下：

1.國際南極氣候與環境變化專家組成員；

2.加拿大Atmosphere-Ocean編委；

3.德國、瑞士、比利時等國科學基金會特聘國際評審專家；

4.Nature出版集團Scientific Reports的Editorial Board Member；

5.國際南極研究科學委員會(Scientific Committeeon Antarctic Research，SCAR)中國代表（物理學）；

6.External reviewer of the book 'The Climate of Past Interglacials';

7.External reviewer of Chinese Polar Research Program2011;

8.Expert reviewer of IPCC Fifth Assessment Report Climate Change 2013: The Physical Science Basis.

論文論著

59 Soumik Basu, Xiangdong Zhang, Zhaomin Wang, Eurasian Winter Storm Activity at the End of the Century: A CMIP5 Multi-model Ensemble Projection,,Earth’s Future, 2017.

58 Chen Cheng, Zhaomin Wang, Chengyan Liu, and Ruibin Xia, Vertical modification ondepth-integrated ice shelf water plume modeling based on an equilibrium vertical profile of suspended frazil ice concentration, Journal of Physical Oceanography, 2017.

57 Liu, C., Z. Wang, C. Cheng, R. Xia, B. Li, and Z. Xie (2017), Modeling modified Circumpolar Deep Water intrusions onto the Prydz Bay continental shelf, East Antarctica, J. Geophys. Res. Oceans, 122, 5198–5217.

56 Yang Wu, Xiaoming Zhai, Zhaomin Wang, Decadal-mean impact of including ocean surface currents in bulk formula on surface air-sea fluxes and ocean general circulation. J. Climate, 2017.

55 Wu, Y., Z. Wang, and C. Liu (2017), On the response of the Lorenz energy cycle for the Southern Ocean to intensified westerlies, Journal of Geophysical Research: Oceans, 122.

54 Liu, C. Y., Z. M. Wang, B. R. Li, C. Cheng, and R. B. Xia, 2017: On the response of subduction in the South Pacific to an intensification of westerlies and heat flux in an eddy permitting ocean model. Adv. Atmos. Sci., 34(4), 521–531.

53 Zhaomin Wang, Yang Wu, Xia Lin, Chengyan Liu, Zelin Xie, Impacts of open-ocean deep convection in the Weddell Sea on coastal and bottom water temperature, Climate Dynamics, 2016.

52 Yang Wu, Xiaoming Zhai, Zhaomin Wang, Impact of Synoptic Atmospheric Forcing on the Mean Ocean Circulation, Journal of Climate, 2016.

51 Zhaomin Wang, Xiangdong Zhang, Zhaoyong Guan, Bo Sun, Xin Yang & Chengyan Liu An atmospheric origin of the multi-decadal bipolar seesaw. Scientific Reports 5, 8909; DOI:10.1038/srep08909 (2015).

50 Ye Wang, Xiaodong Yan, Zhaomin Wang. A preliminary study to investigate the biogeophysical impact of desertification on climate based on different latitudinal bands. International Journal of Climatology, Article first published online: 12 JUN 2015.

49 Zhaomin Wang, John Turner, Bo Sun, Bingrui Li & Chengyan Liu （2014），Cyclone-induced rapid creation of extreme Antarctic sea ice conditions， Scientific Reports4, 5317.

48 Ye Wang, Xiaodong Yan, Zhaomin Wang. Global warming caused by afforestation in the Southern Hemisphere. Ecological Indicators, 2014.

47 Ye Wang, Xiaodong Yan, Zhaomin Wang. Effects of regional afforestation on global climate. Journal of Water and Climate Change=, 2014.

46 Liu, Chengyan and Zhaomin Wang (2014), On the response of the Global Subduction Rate to global warming in coupled climate models, Advance in Atmospheric Sciences 31（1），211-218.

45 Ye Wang, Xiaodong Yan, Zhaomin Wang. Simulation of the influence of historical land cover changes on the global climate. Annales Geophysicae, 31, 995-1004, 2013.

44 Sallée, J.-B., E. Shuckburgh, N. Bruneau, A. J. S. Meijers, T. J. Bracegirdle, Z. Wang, and T. Roy (2013), Assessment of Southern Ocean water mass circulation and characteristics in CMIP5 models: Historical bias and forcing response, J. Geophys. Res. Oceans, 118.

43 Sallée, J.-B., E. Shuckburgh, N. Bruneau, A. J. S. Meijers, T. J. Bracegirdle, and Z. Wang (2013), Assessment of Southern Ocean mixed layer depths in CMIP5 models: Historical bias and forcing response, J. Geophys. Res. Oceans, 118.

42 Wang, Z. (2013), On the response of Southern Hemisphere subpolar gyres to climate change in coupled climate models, J. Geophys. Res. Oceans, 118, 1070–1086.

41 Bracegirdle, T. J., E. Shuckburgh, J.-B. Sallee, Z. Wang, A. J. S. Meijers, N. Bruneau, T. Phillips, and L. J. Wilcox (2013), Assessment of surface winds over the Atlantic, Indian, and Pacific Ocean sectors of the Southern Ocean in CMIP5 models: historical bias, forcing response, and state dependence, J. Geophys. Res. Atmos., 118, 547–562.

40 Meijers, A. J. S., E. Shuckburgh, N. Bruneau, J.-B. Sallee, T. J. Bracegirdle, and Z. Wang (2012), Representation of the Antarctic Circumpolar Current in the CMIP5 climate models and future changes under warming scenarios, J. Geophys. Res., 117, C12008.

39 T. Kuhlbrodt, R.S. Smith, Z. Wang, and J.M. Gregory，The influence of eddy parameterizations on the transport of the Antarctic Circumpolar Current in coupled climate models，Ocean Modelling，Vol.52-53,1-8， 2012

38 馬浩，王召民，史久新，南大洋物理過程在全球氣候系統中的作用，地球科學進展，第27卷4期，398-412頁，2012

37 Julian Gutt, Damaris Zurell, Thomas J. Bracegridle, William Cheung, Melody S. Clark, Peter Convey, Bruno Danis, Bruno David, Claude De Broyer, Guido di Prisco, Huw Griffiths, Rémi Laffont, Lloyd Peck, Benjamin Pierrat, Martin J. Riddle,Thomas Saucede, John Turner, Cinzia Verde, Zhaomin Wang, Volker Grimm, The use of correlative and dynamic species distribution modelling for ecological predictions in the Antarctic: a cross-disciplinary concept, Polar Research,2012, 31, 11091.

36 Wang, Z., T. Kuhlbrodt and M. P. Meredith, On the response of the Antarctic Circumpolar Current transport to climate change in coupled climate models， Journal of Geophysical Research，VOL. 116, C08011, 17 PP., 2011.

35 Graham, J. A., D. P. Stevens, K. J. Heywood, and Z. Wang, North Atlantic climate responses to perturbations in Antarctic Intermediate Water, Clim. Dyn., 2011, Volume 37, Numbers 1-2, Pages 297-311.

34 Wang, Z., (contributed to) Antarctic Climate Change and the Environment , Edited by Turner, J., Bindschadler, R.A., Convey, P., Di Prisco, G., Fahrbach, E., Gutt, J., Hodgson, D.A., Mayewski, P.A., and Summerhayes, C.P., Published in Cambridge by SCAR, ISBN 978-0-948277-22-1

33 Philip C. Reid, Astrid C. Fischer, Emily Lewis-Brown, Michael P. Meredith, Mike Sparrow, Andreas J. Andersson, Avan Antia, Nicholas R. Bates, Ulrich Bathmann, Gregory Beaugrand, Holger Brix, Stephen Dye, Martin Edwards, Tore Furevik, Reidun Gangstø, Hjálmar Hátún, Russell R. Hopcroft, Mike Kendall, Sabine Kasten, Ralph Keeling, Corinne Le Quéré, Fred T. Mackenzie, Gill Malin, Cecilie Mauritzen, Jón Ólafsson, Charlie Paull, Eric Rignot, Koji Shimada, Meike Vogt, Craig Wallace, Zhaomin Wang, and Richard Washington, Impacts of the Oceans on Climate Change. Advances in Marine Biology, Vol. 56, 2009, pp. 1-150.

32 Turner J., J. C. Comiso, G. J. Marshall, T. A. Lachlan-Cope, T. Bracegirdle, T. Maksym, M. P. Meredith, Z. Wang, A. Orr (2009), Non-annular atmospheric circulation change induced by stratospheric ozone depletion and its role in the recent increase of Antarctic sea ice extent, Geophys. Res. Lett., 36, L08502.

31 Wang, Z. and M. P. Meredith, 2008: Density-driven Southern Hemisphere subpolar gyres in coupled climate models, Geophysical Research Letters, 35, L14608.

30 Shi, ZhengGuo, XiaoDong Yan, ChongHua Yin and ZhaoMin Wang, 2007: Effects of historical land cover changes on climate, Chinese Science Bulletin, 52(18):2575-2583.

29 Yin, ChongHua, XiaoDong Yan, ZhengGuo Shi and ZhaoMin Wang, 2007: Simulation of the climatic effects of natural forcings during the pre-industrial era, Chinese Science Bulletin, 52(11):1545-1558.

28 Zhaomin Wang, 2007: Atlantic thermohaline circulation and abrupt climate changes, Advances in Climate Change Research, 3(1): 1-7.

27 Cochelin, A.-S. B., L. A. Mysak and Z. Wang, 2006: Simulation of long-term future climate changes with the Green McGill Paleoclimate Model: The next glacial inception. Climatic Change, 79:381-401.

26 Wang, Z. and L.A. Mysak, 2006: Glacial abrupt climate changes and Dansgaard-Oeschger oscillations in a coupled climate model. Paleoceanography, 21, PA2001,2006.
25 Papa, B., L. A. Mysak and Z. Wang, 2006: Intermittent ice sheet discharge events in northeastern North America during the last glacial period. Climate Dynamics, 26: 201-216.
24 Rahmstorf, S., M. Crucifix, A. Ganopolski, H. Goosse, I. Kamenkovich, R. Knutti, G. Lohmann, B. Marsh, L.A. Mysak, Z. Wang, and A. Weaver, 2005: Thermohaline circulation hysteresis: a model intercomparison. Geophysical Research Letters, 32, L23605.

23 Petoukhov, V., M. Claussen, A. Berger, M. Crucifix, M. Eby, A. Eliseev, T. Fichefet, A. Ganopolski, H. Goosse, I. Kamenkovich, I. Mokhov, M. Montoya, L. A. Mysak, A. Sokolov, P. Stone, Z. Wang and A. Weaver, 2005: EMIC intercomparison project (EMIP - CO2): Comparative analysis of EMIC simulations of current climate and equilibrium and transient responses to atmospheric CO2 doubling. Climate Dynamics, 25: 363-385.

22 Wang, Z., 2005: Two climatic states and feedbacks on thermohaline circulation in an Earth System Model of Intermediate Complexity. Climate Dynamics, 25: 299-314.

21 Wang, Z., A.-S. B. Cochelin, L. A. Mysak and Y. Wang, 2005: Simulation of the Last Glacial Inception with the Green McGill Paleoclimate Model. Geophys. Res. Lett., 32, L12705.

20 Wang, Y., L.A. Mysak, Z. Wang and V. Brovkin, 2005: The greening of the McGill Paleoclimate Model. Part II. Simulation of natural millennial-scale variability during the Holocene. Climate Dynamics, 24: 481-496.

19 Wang, Y., L.A. Mysak, Z. Wang and V. Brovkin, 2005: The greening of the McGill Paleoclimate Model. Part I: Improved land surface scheme with vegetation dynamics. Climate Dynamics, 24: 469-480.

18 Wang, Z., R.-M. Hu and L.A. Mysak, 2004: Reply to the comment (on 16) by A.J. Weaver and M. Eby. Atmosphere-Ocean, 42(4):295-296.

17 Wang, Z., R.-M. Hu, L.A. Mysak, J.-P. Blanchet and J. Feng, 2004: A parameterization of solar energy disposition in the climate system. Atmosphere-Ocean, 42: 113-125.

16 Wang, Z. and L. A. Mysak, 2002: Simulation of the Last Glacial Inception and Rapid Ice Sheet Growth in the McGill Paleoclimate Model, Geophys. Res. Lett., 29(23), 2102.

15 Smith, G, L. A. Mysak, Z. Wang and H. Blatter, 2002: McGill paleoclimate model ice sheet sensitivity to ice flow rate and discharge parameters. Climate Dynamics, 20, 315-325.

14 Wang, Z., L. A. Mysak and J. F. McManus, 2002: Response of the thermohaline circulation to cold climates, Paleoceanography, 17(1), 10.1029/2000PA00587.
13 Claussen, M., L. A. Mysak, A. J. Weaver, M. Crucifix, T. Fichefet, M.-F. Loutre, S. L. Weber, J. Alcamo, V. A. Alexeev, A. Berger, R. Calov, A. Ganopolski, H. Goose, G. Lohmann, F. Lunkeit, I. I. Mokhov, V. Petoukov, P. Stone and Z. Wang, 2002: Earth system models of intermediate complexity: Closing the gap in the spectrum of climate system models. Climate Dynamics, 18, 579-586.

12 S. C. Newbigging, L. A. Mysak and Z. Wang, 2001: A stabilizing atmospheric feedback on the ocean thermohaline circulation, The Global Atmosphere-Ocean System, 7, 347-364.

11 Wang, Z. and L. A. Mysak, 2001: Ice sheet-thermohaline circulation interactions in a climate model of intermediate complexity. Journal of Oceanography, 57, 481-494.

10 Mysak, L. A. and Zhaomin Wang, 2000: The McGill Paleoclimate Model (MPM): A New Earth System Model of Intermediate Complexity, Canadian Meteorological and Oceanographic Society Bulletin, 28, 104-109.

9 Wang, Z. and L. A. Mysak, 2000: Are there interannual-to-decadal scale oscillations associated with sea ice-thermohaline circulation interactions in a simple coupled atmosphere-ocean-sea ice model?. Scientia Meteorologica Sinica (in China), 20, 413-426.

8 Wang, Z. and L. A. Mysak, 2000: A simple coupled atmosphere-ocean-sea ice-land surface model for climate and paleoclimate studies. J. Climate, 13, 1150-1172.

7 Wang, Z. and S. Huang, 1996: Temporal-spatial characteristics of Antarctic and Arctic sea ice variability (In Chinese). Scientia Meteorologica Sinica, 16(4), 299-307.

6 Wang, G. and Z. Wang, 1996: Identification of persistent modes of anomalies and their impact on predictability in the barotropic atmosphere with orographic forcing (In Chinese). Chinese Journal of Atmosphere Sciences, 20, 207-215.

5 Wang, Z. and S. Huang, 1994: The responses of global atmosphere circulation to the anomalies of Antarctic sea ice in July (In Chinese). Scientia Meteorologica Sinica, 14(4), 311-321.

4 Wang, Z., Y. Ni and Q. Zhang, 1993: The mechanism of the intraseasonal oscillations in the observational atmosphere (In Chinese). Scientia Meteorologica Sinica , 13(3), 282-288.

3 Wang, Z. , Y. Ni and Q. Zhang, 1992: Diagnostic study for intraseasonal oscillations of the middle-high latitudes in the observational atmosphere (In Chinese). Scientia Meteorologica Sinica, 12(3), 266-276.

2 Zhang, Q., Y. Ni, W. Lin and Z. Wang, 1991: Diagnostic study for intraseasonal oscillations of the middle-high latitudes in a low resolution global spectral model (In Chinese). Acta Meteorologica Sinica, 5(4), 411-425.

1 Wang, Z. and S. Huang, 1989: Features of the tropospheric heating fields and the relation to drought or flood in the reaches of Yangtze river and Huaihe river (In Chinese). Scientia Meteorologica Sinica, 9(4), 353-368.