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·Ouyang Z., D. Qi, L. Chen, T. Takahashi, W. Zhong, M.D. DeGrandpre, B. Chen, Z. Gao, S. Nishino, A. Murata, Heng Sun, L.L. Robbins, M. Jin, W. Cai, (2020), Sea ice loss amplifies summer-time decadal CO2 increase in the western Arctic Ocean. Nature Climate Change, accepted.
·Watenabe E., M., Jin, H., Hayashida, J., Zhang (2019), Multi-model intercomparison of the pan-Arctic ice-algal productivity on seasonal, interannual, and decadal timescales. J. Geophys. Res. Oceans, 124, 9053-9084. https://doi.org/10.1029/2019JC015143.
·Ji. R., M., Jin, Y., Li, Y., Kang, C., Kang, (2019), Variability of primary production among basins in the East/Japan Sea: role of water column stability in modulating nutrient and light availability. Progress in Oceanography, 178, 102173, https://doi.org/10.1016/j.pocean.2019.102173.
·Elliott S., S. Burrows, P. Cameron-Smith, F. Hoffman, E. Hunke, N. Jeffery, Y. Liu, M. Maltrud, Z. Menzo, O. Ogunro, L. Roekel, S. Wang, M. Brunke, M. Jin, R. Letscher, N. Meskhidze, L. Russell, I. Simpson, D. Stokes, and O. Wingenter (2018), Does marine surface tension have global biogeography? addition for the OCEANFILMS package. Atmoshpere, 9(6), 216; dio:10.3390/atmos9060216.
·Jin, M., C. Deal, W. Maslowski, P. Matrai, A. Roberts, R. osinski, Y. J. Lee, M. Frants, S. Elliott, N. Jeffery, E. Hunke, S. Wang (2018), Effects of model resolution and ocean mixing on forced ice-ocean physical and biogeochemical simulations using global and regional system models. J. Geophys. Res. Oceans, 123, 358-377, https://doi.org/10.1002/2017JC013365.
·Elliott, S., N. Jeffery, E. Hunke, C. Deal, M. Jin, S. Wang, E.E. Smith and S. Oestreicher (2017), Strategies for the simulation of sea ice organic chemistry: Arctic tests and development, Geosciences, 7, 52:1-38; doi:10.3390/geosciences7030052.
·Li, Y., R. Ji, S. Jenouvier, M. Jin, J. Stroeve (2016), Synchronicity between ice retreat and phytoplankton bloom in circum-Antarctic polynyas, Geophysical Research Letter, 43, doi:10.1002/2016GL067937.
·Lee, Y. J., P.M. Matrai, M.A.M. Friedrichs, V. S., Saba, O.Aumont, M. Babin, E.T. Buitenhuis, M. Chevallier, L. Mora, M. Desert, J.P. Dunne, I.H. Ellingsen, D. Fredman, R. Froun=in, M. Gehlen, T. Gorgues, T. LLyina, M. Jin, J.G. John, J. Lawrence, M. Manizza, C.E. Menkes, C. Perruche, V. LeFouest, E.E. Popova, A. Romanou, A. Samuelsen, J. Schwinger, R. Seferian, C.A. Stock, J.Tjiputra, L.B. Tremblay, K. Ueyoshi, M. Vichi, A. Yool and J. Zhang (2016), Net primary productivity estimates and environmental variables in the Arctic Ocean: An assessment of coupled physical-biogeochemical models, J. Geophys. Res. Oceans, 121, 8635-8669, doi:10.1002/2016JC011993.
·Jin, M., E. E. Popova, J. Zhang, R. Ji, D. Pendleton, Ø. Varpe, A. Yool, and Y. J. Lee (2016), Ecosystem model intercomparison of under-ice and total primary production in the Arctic Ocean, J. Geophys. Res. Oceans, 121, 934-948, doi:10.1002/2015JC011183.
·Steiner, N. S., T. Sou, C. Deal, J. M. Jackson, M. Jin, E. Popova, W. Williams, and A. Yool (2016), The future of the subsurface chlorophyll-a maximum in the Canada Basin - A model intercomparison, J. Geophys. Res. Oceans, 121, 387-409, doi:10.1002/2015JC011232.
·Jin M., J., Hutchings, and Y., Kawaguchi (2015), Sensitivity study of subgrid scale ocean mixing under sea ice using a two-column ocean grid in climate model CESM. Frontiers of Earth Science, vol. 9(4): 594-604, doi:10.1007/s11707-014-0489-9.
·Wang, J., K. Mizobata, X. Bai, H. Hu, M., Jin, Y. Yu, M. Ikeda, W. Johnson, W., Perie, and A. Fujisaki (2014), A modeling study of coastal circulation and landfast ice in the nearshore Beaufort and Chukchi seas using CIOM, J. Geophys. Res. Oceans, 119, doi:10.1002/2013JC009258.
·Ji R., M., Jin and O., Varpe, (2013), Sea ice phenology and timing of primary production pulses in the Arctic Ocean. Global Change Biology, doi: 10.1111/gcb.12074, 19, 734-741.
·Deal, C.J., N. Steiner, J. Christian, J. Clement Kinney, S. Elliott, G. Gibson, M. Jin, W. Lee, S.Lee, W. Maslowski, J. Wang, and E. Watanabe, 2013. Progress and challenges in biogeochemicalmodeling of the Pacific Arctic Region, In: (eds) Grebmeier, J.M. and W. Maslowski, The Pacific Arctic Region: Ecosystem Status and Trends in a Rapidly Changing Environment, Springer, Dordrecht, p 393-446.
·Jin M., J., Hutchings, Y., Kawaguchi, and T., Kikuchi (2012), Ocean mixing with lead-dependent subgrid scale brine rejection parameterization in climate model. Journal of Ocean University of China, 11(4): 473-480, doi: 10.1007/s11802-012-2094-4.
·Elliott, S., C. Deal, G. Humphries, E. Hunke, N. Jeffery, M. Jin, M. Levasseur, and J. Stefels (2012), Pan-Arctic simulation of coupled nutrient-sulfur cycling due to sea ice biology: Preliminary results, J. Geophys. Res., 117, G01016, doi:10.1029/2011JG001649.
·Popova, E. E., A. Yool, A. C. Coward, F. Dupont, C. Deal, S. Elliott, E. Hunke, M. Jin, M. Steele, and J. Zhang (2012), What controls primary production in the Arctic Ocean? Results from an intercomparison of five general circulation models with biogeochemistry, J. Geophys. Res., 117, C00D12, doi:10.1029/2011JC007112.
· Jin M., C. Deal, S.H. Lee, S. Elliott, E. Hunke, M. Maltrud and N. jeffery (2012), Investigation of Arctic sea ice and ocean primary production for the period 1992 to 2007 using a 3-D global ice-ocean ecosystem model. Deep-Sea Research II, 81-84: 28-35, doi: 10.1016/j.dsr2.2011.06.003.
·Deal C., M., Jin, S., Elliott, E., Hunke, M., Maltrud, and N., Jeffery, 2011. Large-scale modeling of primary production and ice algal biomass within arctic sea ice resulted from the 1992 model simulation. Journal of Geophysical Research-Ocean, Vol. 16, C07004, doi: 10.1029/2010JC006409.
·Clainche,Y.L.Vezina A., Levasseur, M.,Cropp R., Gunson, J., Vallina, S.,Vogt, M.,Lancelot, C., Allen, I., Archer, S., Bopp, L., Deal, C., Elliott, S., Jin, M., Malin, G., Schoemann, V., Simo, R., Six, K., and Stefels, J., 2010. A first appraisal of prognostic ocean DMS models and prospects for their use in climate models. Global Biogeochemical Cycles, doi: 10.1029/2009GB003721.
·Lee, S., Jin, M., Whitledge, T.E., 2010. Comparison of bottom sea-ice algal characteristics from coastal and offshore regions in the Arctic Ocean. Polar Biology, doi:10.1007/s00300-010-0820-1.
·Wu, J.,Rember, R., Jin, M., Boyle, E.A., and Flegal, R.A., 2010. Isotopic evidence for the source of lead in the North Pacific Abyssal Water. Geochimica et Cosmochimica Acta, doi:10.1016/j.gca.2010.05.017, 74, 4629-4638.
·Jin M., C.J. Deal, J. Wang, and C.P. McRoy, 2009. Response of lower trophic level production to long-term climate change in the southeastern Bering Sea. Journal of Geophysical Research, 114, C04010, doi:10.1029/2008JC005105.
·Wu J. and M. Jin, 2009. Competitive ligand exchange voltammetric determination of iron organic complexation in seawater: examination of accuracy using computer simulation and elimination of artifacts in ideal two-ligand case using iterative non-linear multiple regression. Marine Chemistry, 114, 1-10. doi:10.1016/j.marchem.2009.03.001.
·Jin M., C.J. Deal, and J. Wang, 2008. A coupled ice-ocean ecosystem model for 1-D and 3-D applications in the Bering and Chukchi Seas. Chinese Journal of Polar Science, 19(2), 218-229.
·Wang J., M. Jin, J. Takahasi, T. Suzuki, I.V. Polyakov, K. Mizobata, M. Ikeda, F.J. Saucier, and M. Meier, 2008. Modeling Arctic Ocean heat transport and warming episodes in the 20th century caused by the intruding Atlantic Water. Chinese Journal of Polar Science, 19(2), 159-167.
·Deal, C., M. Jin and J. Wang, 2008. The significance of water column nitrification in the southeastern Bering Sea. Chinese Journal of Polar Science, Vol. 19, No. 2, 185-192.
·Wang J., K. Mizobata, H. Hu, M. Jin, S. Zhang, W. Johnson, K. Shimada, and M. Ikeda, 2008. Modeling seasonal variations of ocean and sea ice circulation in the Beaufort and Chukchi Seas: A model-data fusion study. Chinese Journal of Polar Science, 19(2), 168-184.
·Jin, M., J. Wang, K. Mizobata, H. Hu, K. Shimada 2008. Observations and modeling of ice-ocean conditions in the coastal Chukchi and Beaufort Seas. Acta Oceanologica Sinica, Vol 27, No. 3, 79-87.
·Jin, M., C. Deal, J. Wang, V. Alexander, R. Gradinger, S. Saitoh, T. Iida, Z. Wan, and P. Stabeno, 2007. Ice-associated phytoplankton blooms in the southeastern Bering Sea. Geophysical Research Letters, 34, L06612, doi:10.1029/2006GL028849.
·Holloway, G., F. Dupont, E. Golubeva, S. Hakkinen, E. Hunke, M. Jin, M. Karcher, F. Kauker, M. Maltrud, M. A. Morales Maqueda, W. Maslowski, G. Platovc, D. Stark, T. Suzhki, M. Steele, J. Wang, J. Zhang. 2007. Water properties and circulation in Arctic Ocean models. . Journal of Geophysical Research-Ocean, 112, C04S03, doi:10.1029/2006JC003642.
·Jin M., C.J. Deal, J. Wang, K.H. Shin, N. Tanaka, T.E. Whitledge, S.H. Lee, and R.R. Gradinger, 2006. Controls of the landfast ice-ocean ecosystem offshore Barrow, Alaska. Annals of Glaciology, Vol. 44, 63-72.
·Jin M., C.J. Deal, J. Wang, N. Tanaka, and M. Ikeda, 2006. Vertical mixing effects on the phytoplankton bloom in the southeastern Bering Sea mid-shelf. Journal of Geophysical Research, 111, C03002,doi:10.1029/2005JC002994.
·Wang J., Q., Liu, M., Jin, M., Ikeda and F. J., Saucier, 2005. A Coupled Ice-Ocean Model in the Pan Arctic and North Atlantic Ocean: Simulations of Seasonal Cycles. Journal of Oceanography, Vol. 61, 213-233.
·Wang, J., M. Jin, D.L. Musgrave, and M. Ikeda, 2004. A Hydrological Digital Elevation Model (DEM) for Freshwater Discharge into the Gulf of Alaska. Journal of Geophysical Research, 109, C07009, doi:10.1029/2002JC001430.
·Jin M., J. Wang, 2004, Interannual variability and sensitivity study of ocean circulation in Prince William Sound, Alaska from 1995-1998. Continental Shelf Research, Vol. 24, Issue 3, 393-411. doi:10.1016/j.csr.2003.10.012.
·Wang J., M. Jin, E. V. Patrick, J.R. Allen, C. Mooers, D.L. Eslinger and T. Cooney, 2001, Numerical simulations of the seasonal circulation patterns and thermohaline structures of Prince William Sound, Alaska. Fisheries Oceanography, 10 (supplement 1): 132-148.
·Wang J., V. Patrick, J. Allen, S. Vaughan, C. Mooers, M. Jin, 1999, Modeling seasonal ocean circulation of Prince William Sound, Alaska using freshwater of a line source, Coastal Engineering and Marina Developments, 57-66.
·Jin, M., J. Zhang, Y. Yuan, 1998, Analysis of the Bathymetric Features Using SAR Image: An example from the Southern North Sea. Chin. J. Oceanol. Limnol. Vol.16, No.2, 128-136.
·Wang, Z., Xu, B., Jin M., Zou, E., Li, F. (1998), A numerical prediction model of the strong thermocline in the Bohai and the Huanghai Seas. Acta Oceanologica Sinica, 17(2), pp. 141-154.
·金梅兵,1997, 近岸溢油的全动力预测方法研究。海洋环境科学, vol.16, No.1,30-36.
·金梅兵,袁业立,1997, 利用SAR影象探测海底地形的数学物理反问题的提法与解法,海洋与湖沼,增刊, Vol.28, 27-31.
·金梅兵,袁业立,1997, SAR影象对海底地形变化的可视度的仿真模拟与分析,海洋与湖沼,增刊, Vol.28, 21-26.
·金梅兵,姜太良, 1997, 东海三维正压潮流场数值模拟,中国海洋学文集, Vol.8, 1-13.
·金梅兵,姜太良, 佘军,1997, 东海风暴潮和天文潮非线性耦合作用的三维数值模拟,中国海洋学文集, Vol.8, 21- 30.
·金梅兵,姜太良, 1997, 珠海伶仃洋大桥工程掀 沙环境影响预测,中国海洋学文集, Vol.8, 47-57.
·金梅兵,姜太良, 1997, 三维斜压海流的一种隐式差分方法,中国海洋学文集, Vol.8, 14-20.
·姜太良, 金梅兵1997, 东海溢油漂移数值模拟,中国海洋学文集, Vol.8, 31-37.
·Jin, M., Z. Wang, and B. Xu, 1993, Three-dimensional numerical prediction of vertical temperature structure of the Huanghai and the Bohai Seas. Acta Oceanological Sinica, vol.12, No.4, 511-520.
·Wang Z., M. Jin, E. Zou and B. Xu, 1993, The inversion of the Equatorial Undercurrent in the western tropical Pacific during 1986/1987 EI Nino event. Acta Oceanologica Sinica, 12(4): 487-498.