马燮铫 - 南京信息工程大学 - 水文与水资源工程学院

个人简介

教育经历学士(B. E.) 1981.9-1985.7 华东水利学院（现河海大学）陆地水文硕士(M. E.) 1989.9-1993.7 同上水文与水资源博士(D. S.) 1995.4-1999.6 名古屋大学大气水圈科学工作经历助教(Assistant Prof.) 1985.8-1991.11 河海大学(Hohai Univ.) 讲师(Lecture) 1991.12-1993.10 同上研究员(Research Scientist) 2000.2-2007.3 海洋研究开发机构（JAMSTEC）主任研究员(Senior Scientist) 2007.4-2016.5 同上团队副首席(Sub Leader) 2005.12-2009.3 同上团队首席(Team Leader) 2009.4-2014.3 同上副部长(Deputy Director) 2014.4-2016.5 同上教授(Professor) 2016.6- 南京信息工程大学（NUIST）

研究领域

从事大气-陆面之间水热交换机理的研究，并以此为基础构建了分布式流域水文模型，广泛应用于各种尺度（数百平方公里至数百万平方公里）和各种气候带（温带至寒带）的流域。

近期论文

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1. X. Ma and W. Cheng, 1996: A modeling of hydrological processes in a large low plain area including lakes and ponds，J. Japan Soc. Hydrol. & Water Resour., 9, 320-329. Doi: 10.3178/jjshwr.9.320. 2. X. Ma, T. Hiyama, Y. Fukushima and T. Hashimoto, 1998: A numerical model of the heat transfer for permafrost regions, J. Japan Soc. Hydrol. & Water Resour. 11, 346-359. Doi: 10.3178/jjshwr.11.346. 3. X. Ma, Y. Fukushima, T. Hashimoto, T. Hiyama and T. Nakashima, 1999: Application of a simple SVAT model in a mountain catchment under temperate humid climate, J. Japan Soc. Hydrol. & Water Resour. 12, 285-294. Doi:10.3178/jjshwr.12.285. 4. X. Ma, Y. Fukushima, T. Hiyama, T. Hashimoto and T. Ohata, 2000: A macro-scale hydrological analysis of the Lena River basin, Hydrol. Process., 14, 639-651. Doi: 10.1002/(SICI)1099-1085(20000228)14:3<639::AID-HYP959>3.0.CO;2-0. 5. X. Ma, Y. Fukushima and T. Ohata, 2001: Hydrological modelling of river ice processes in cold region. IAHS Publ., 270, 327-331. 6. X. Ma and Y. Fukushima, 2002: A numerical model of the river freezing process and its application to the Lena River. Hydrol. Process., 16, 2131-2140. Doi: 10.1002/hyp.1146. 7. L.C. Bowling, D.P. Lettenmaier, B. Nijssen, L.P. Graham, D.B. Clark, M.E. Maayar, R. Essery, S. Goers, F. Habets, B. Hurk, J. Jin, D. Kahan, D. Lohmann, X. Ma, S. Mahanama, D. Mocko, O. Nasonova, P. Samuelsson, A.B. Shmakin, K. Takata, D. Verseghy, P. Viterbo, Y. Xia, Y. Xue, Z. Yang, 2003: Simulation of high latitude hydrological processes in the Torne-Kalix basin: PILPS Phase 2(e) 1: Experiment description and summary intercomparisons. Global and Planetary Change, 38, 1-30. Doi: 10.1016/S0921-8181(03)00003-1. 8. B. Nijssen, L.C. Bowling, D.P. Lettenmaier, D.B. Clark, M.E. Maayar, R. Essery, S. Goers, F. Habets, B. Hurk, J. Jin, D. Kahan, D. Lohmann, X. Ma, S. Mahanama, D. Mocko, O. Nasonova, P. Samuelsson, A.B. Shmakin, K. Takata, D. Verseghy, P. Viterbo, Y. Xia, Y. Xue, Z. Yang, 2003: Simulation of high latitude hydrological processes in the Torne-Kalix basin: PILPS Phase 2(e) 2: Comparison of model results with observations. Global and Planetary Change, 38, 31-53. Doi:10.1016/S0921-8181(03)00004-3. 9. X. Ma, T. Yasunari, T. Ohata, L. Natsagdorj, G. Davaa and D. Oyunbaatar, 2003: Hydrological regime of the Selenge River basin, Mongolia. Hydrol. Process., 17, 2929-2945. Doi: 10.1002/hyp.1442. 10. X. Ma, T. Yasunari, T. Ohata, and Y. Fukushima, 2005: The influence of river ice on spring runoff in the Lena River, Siberia. Ann. Glaciol., 40, 123-127. Doi: 10.3189/172756405781813744. 11. Y. Sato, X. Ma, M. Matsuoka and Y. Fukushima, 2007: Impacts of human activity on long-term water balance in the middle-reaches of the Yellow River basin. IAHS Publ., 315, 85-91. 12. Y. Sato, X. Ma, J. Xu, M. Matsuoka, H. Zheng, C. Liu and Y. Fukushima, 2008: Analysis of long-term water balance in the source area of the Yellow River basin. Hydrol. Process., 22, 1618-1629. Doi: 10.1002/hyp.6730. 13. Y. Sato, A. Onishi, Y. Fukushima, X. Ma, J. Xu, M. Matsuoka and H. Zheng, 2009: An integrated hydrological model for the long-term water balance analysis of the Yellow River basin, China. In: From Headwaters to the Ocean: Hydrological changes and watershaeds mangment (eds. ), Taylor and Francis, London, pp. 209-215. 14. X. Ma, Y. Fukushima, T. Yasunari, M. Matsuoka, Y. Sato, F. Kimura and H. Zheng, 2010: Examination of the water budget in upstream and midstream regions of the Yellow River, China. Hydrol. Process., 24, 618-630. Doi:10.1002/hyp.7556. 15. X. Ma, T. Yoshikane, M. Hara, Y. Wakazuki, H. Takahashi, F. Kimura, 2010: Hydrological response to future climate change in the Agano River basin, Japan. Hydrol. Res. Lett., 4, 25-29. Doi: 10.3178/HRL.4.25. 16. T. Yoshikane, M. Hara, X. Ma, H. Kawase and F. Kimura, 2011: Simulated Snow Water Equivalent Change between the 1980s and 1990s in the Sea of Japan Side Area Using a Regional Climate Model. J. Meteorol. Soc. Jpn., 89(3), 269-282. Doi:10.2151/jmsj.2011-307. 17. H. Takahashi, N. Ishizaki, H. Kawase, M. Hara, T. Yoshikane, X. Ma and F. Kimura, 2013: Potential impact of sea surface temperature on winter precipitation over the Japan Sea side of Japan: A regional climate modeling study. J. Meteorol. Soc. Jpn., 91(4), 471-488. Doi:10.2151/jmsj.2013-404. 18. X. Ma, H. Kawase, S. Adachi, M. Fujita, H. G. Takahashi, M. Hara, N. Ishizaki, T. Yoshikane, H. Hatsushika, Y. Wakazuki and F. Kimura, 2013: Simulating river discharge in a snowy region of Japan using output from a regional climate model. Adv. Geosci., 35, 55-60. Doi:10.5194/adgeo-35-55-2013. 19. Y. Wakazuki, M. Hara, M. Fujita, C. Suzuki, X. Ma and F. Kimura, 2015: Effect of climate change on the snow disappearance date in mountainous areas of central Japan. Hydrol. Res. Lett., 9, 20-26. Doi: 10.3178/hrl.9.20. 20. H. Takahashi, S. Adachi, T. Sato, M. Hara, X. Ma and F. Kimura, 2015: An oceanic impact of the Kuroshio on surface air temperature on the Pacific coast of Japan in summer: Regional H2O greenhouse gas effect. J. Clim., 28, 7128-7144. Doi:10.1175/JCLI-D-14-00763.1.