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References to Papers Associated with POM

(Including models derived from POM such as ECOM and NCOM, Turbulence schemes, Forecasting Systems, Numerics, Data Analysis, etc.)

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Records found: 108

Aguirre, C., Garreaud, R. D., & Rutllant, J. A. , Surface ocean response to synoptic-scale variability in wind stress and heat fluxes off south-central Chile. . Dyn. Atmospheres and Oceans, 65, 64-85., 2014

Aiki, H. and R. J. Greatbatch, A new expression for the form stress term in the vertically Lagrangian mean framework for the effect of surface waves on the upper ocean circulation. J. Phys. Oceanogr., DOI:10.1175/JPO-D-12-0228.1, 2014

Allard, R., Rogers, E., Martin, P., Jensen, T., Chu, P., Campbell, T., et al., The US Navy coupled ocean-wave prediction system. . Oceanography, 27(3), 92-103., 2014

Berntsen, J., Oey, L. Y., Ezer, T., Greatbatch, R., Xue, H., & Miyazawa, Y. , Editorial—the 5th International workshop on modeling the ocean (IWMO 2013).. Ocean Dynamics, 64(10), 1531-1534., 2014

Bolaños, R., J. V. T. Sørensen, A. Benetazzo, S. Carniel, and M. Sclavo, Modelling ocean currents in the Northern Adriatic Sea. Cont. Shelf Res., doi:10.1016/j.csr.2014.03.009, 2014

Burnett, W., S. Harper, R. Preller, G. A. Jacobs, and K. LaCroix, Overview of Operational Ocean Forecasting in the US Navy: Past, Present and Future.. Rep. No. NRL/JA/7300-14-2038. NRL STENNIS, OCEANOGRAPHY DIV., 2014

Butler, K., Kafali, C., & Jain, V. , Cyclone Risk from Wind, Flood, and Storm Surge Perils in Australia: A Comprehensive Model. . Bridges, 10, 9780784412626-076., 2014

Byron, C. J., A. J. Pershing, J. D. Stockwell, H. Xue, J. Kocik, Migration model of post-smolt Atlantic salmon (Salmo salar) in the Gulf of Maine. Fisheries Oceanography, doi:10.1111/fog.12052, 2014

Byun, D. S., Wang, X. H., Hart, D. E., & Zavatarelli, M. , Review of PAR parameterizations in ocean ecosystem models. . Estuarine, Coastal and Shelf Science. doi:10.1016/j.ecss.2014.05.006, 2014

Byun, D. S., Wang, X. H., Hart, D. E., & Zavatarelli, M. , Review of PAR parameterizations in ocean ecosystem models. . Estuarine, Coastal and Shelf Science, doi:10.1016/j.ecss.2014.05.006, 2014

Carrier, M. J., H. Ngodock, S. Smith, G. Jacobs, P. Muscarella, T. Ozgokmen, B. Haus, B. Lippha, Impact of Assimilating Ocean Velocity Observations Inferred from Lagrangian Drifter Data Using the NCOM-4DVAR. Monthly Weather Rev., 142(4), 1509-1524, 2014

Chang, Y. L., & Oey, L. Y. , Analysis of STCC eddies using the Okubo–Weiss parameter on model and satellite data. . Ocean Dynamics, 64(2), 259-271., 2014

Chang, Y.-L. and L.-Y. Oey, Instability of the North Pacific Subtropical Countercurrent. J. Phys. Oceanogr., 44(3), 818-833, 2014

Chen G. and H. Xue, Westward intensifications in marginal seas. Ocean Dynamics, doi:10.1007/s10236-014-0691-z, 2014

CHEN, Y. Z., ZHAN, J. M., LUO, Y. Y., Wai, O. W., & TANG, L. , Responses of thermal structure and vertical dynamic structure of South China Sea to Typhoon Chanchu. . J. Hydrodynamics, Ser. B, 26(3), 458-466., 2014

Chust, G., Allen, J., Bopp, L., Schrum, C., Holt, J., Tsiaras, K., ... & Irigoien, X. , Biomass changes and trophic amplification of plankton in a warmer ocean. . Global change biology, 20(7), 2124-2139., 2014

Chust, G., Allen, J., Bopp, L., Schrum, C., Holt, J., Tsiaras, K., ... & Irigoien, X. , Biomass changes and trophic amplification of plankton in a warmer ocean. Global change biology, 20(7), 2124-2139., 2014

Ciappa, A. C., The controversial path of Atlantic Water in the Eastern Mediterranean. Progress in Oceanography 123, 74-83., 2014

Cooke, M. A., Demirov, E., & Zhu, J. , A model study of the relationship between sea-ice variability and surface and intermediate water mass properties in the Labrador Sea. . Atmosphere-Ocean, 52(2), 142-154., 2014

Cooke, M. A., Demirov, E., & Zhu, J. , A model study of the relationship between sea-ice variability and surface and intermediate water mass properties in the Labrador Sea. . Atmosphere-Ocean, 52(2), 142-154, 2014

De Dominicis, M., S. Falchetti, F. Trotta, N. Pinardi, L. Giacomelli, E. Napolitano, Leopoldo , A relocatable ocean model in support of environmental emergencies. Ocean Dynamics 64( 5), 667-688., 2014

de la Vara, A., Topper, R., Meijer, P., & Wortel, R., Model study of the Mediterranean-Atlantic water exchange prior to the Messinian Salinity Crisis. . EGU General Assembly Conference Abstracts (Vol. 16, p. 7043)., 2014

Esau, I, Indirect air–sea interactions simulated with a coupled turbulence-resolving model. Ocean Dynamics, 64(5), 689-705, 2014

Ezer, T. and L. P. Atkinson, Accelerated flooding along the U. S. East Coast: On the impact of sea level rise, tides, storms, the Gulf Stream and the North Atlantic Oscillations. . Earth's Future, 2(8), 362-382, doi:10.1002/2014EF000252., 2014

Fujisaki, A., Mitsudera, H., Wang, J., & Wakatsuchi, M. , How does the Amur River discharge flow over the northwestern continental shelf in the Sea of Okhotsk?. . Progress in Oceanography, doi:10.1016/j.pocean.2014.04.028, 2014

Ghantous, M. and Babanin, A. V., One-dimensional modelling of upper ocean mixing by turbulence due to wave orbital motion, . Nonlin. Proc. Geophys., 21, 325-338, doi:10.5194/npg-21-325-2014, 2014

Gould, R. W., McCarthy, S. C., Coelho, E., Shulman, I., & Richman, J. G. , Combining satellite ocean color and hydrodynamic model uncertainties in bio-optical forecasts. . J. Applied Remote Sensing, 8(1), 083652-083652., 2014

Grigoriev, A. V., & Zatsepin, A. G. , Numerical Modeling of Water Dynamics of Russian Zone of the Black Sea within the Framework of Operational Oceanography Tasks. . Journal of Coastal Development, 17(1)., 2014

Hamidi, S. A., Bravo, H. R., Klump, J. V., Beletsky, D., & Schwab, D. J., Hydrodynamic Model for Green Bay, Lake Michigan. . Bridges, 10, 9780784412312-144., 2014

Hamidi, S. A., Bravo, H. R., Klump, J. V., Beletsky, D., & Schwab, D. J., Hydrodynamic Model for Green Bay, Lake Michigan. Bridges, doi:10, 9780784412312-144, 2014

Han, L., An error evaluation on the vertical velocity algorithm in POM. Acta Oceanolog. Sinica, 33(7), pp 12-20 , 2014

HAN, L., & YUAN, Y. L. , An ocean circulation model based on Eulerian forward-backward difference scheme and three-dimensional, primitive equations and its application in regional simulations. . Journal of Hydrodynamics, Ser. B, 26(1), 37-49., 2014

Hei, P-F, G. Zhou, D-D Jia, Y. T. Ye, and K. Lei, σ-sharpen immersed boundary method (σ-SIBM)-New method for solving the horizontal pressure-gradient force (PGF) problem of σ-coordinate . Science China Earth Sciences: 1-11, doi:10.1007/s11430-014-4841-4, 2014

Hjelmervik, K. and K. T. Hjelmervik , Time-calibrated estimates of oceanographic profiles using empirical orthogonal functions and clustering. Ocean Dynamics, 64(5), 655-665, 2014

Holleman, R. C. and M. T. Stacey, Coupling of Sea Level Rise, Tidal Amplification, and Inundation. J. Phys. Oceanogr., 44(5), 1439-1455, 2014

Hsu, C.-T., H. Xue and F. Chai, Effects of NEC Transport and Bifurcation Latitude on Japanese Eel Larval Migration. American Fisheries Society 144th Annual Meeting, 2014

Huang, W., S. C. Hagen, P. Bacopoulos and F. Teng, Sea-Level Rise Effects on Hurricane-Induced Salinity Transport in Apalachicola Bay. J. Coastal Res. Special Issue 68, 49-56, 2014

Hughes, C. J., Air-sea momentum flux in a coupled ocean-wave model and its impact on the ocean response to a hurricane. Doctoral dissertation, U. Rhode Island, 2014

Hyun-Sook, K., L., C., Tallapragada, V., Iredell, D., Sheinin, D., Tolman, H. L., G., Vera M., Performance of Ocean Simulations in the Coupled HWRF-HYCOM Model. J. Atmos. Ocean. Technol., 31(2), 545-559., 2014

Iwasaki, S., Isobe, A., & Kako, S. I. , Atmosphere–Ocean Coupled Process along Coastal Areas of the Yellow and East China Seas in Winter.. Journal of Climate, 27(1), 155-167., 2014

Iwasaki, S., Isobe, A., Kako, S., Atmosphere-Ocean Coupled Process along Coastal Areas of the Yellow and East China Seas in Winter. J. Clim., 27 (1), 155-167., 2014

Izhitskiy, A. S., Zavialov, P. O., Roget, E., Huang, H. P., & Kurbaniyazov, A. K. , On thermohaline structure and circulation of the Western Large Aral Sea from 2009 to 2011: Observations and modeling. . J. Marine Systems, 129, 234-247. http://www.sciencedirect.com/science/article/pii/S0924796313001516, 2014

Jakacki, J., & Golenko, M., Estimation of the potential leakage of the chemical munitions based on two hydrodynamical models implemented for the Baltic Sea. . EGU General Assembly Conf. (Vol. 16, p. 5995)., 2014

Jiang, M., D. G. Borkman, P. S. Libby, D. W. Townsend, M. Zhou, Nutrient input and the competition between Phaeocystis pouchetii and diatoms in Massachusetts Bay spring bloom. J. Mar. Sys.,134, 29-44, doi:10.1016/j.jmarsys.2014.02.011, 2014

Kantha, L., H. Tamura, and Y. Miyazawa, Comment on “Wave-turbulence interaction and its induced mixing in the upper ocean” by Huang and Qiao. J. Geophys. Res., 119, doi:10.1002/2013JC009318, 2014

Kim, H. S., Lozano, C., Tallapragada, V., Iredell, D., Sheinin, D., Tolman, H. L., ... & Sims, J. , Performance of Ocean Simulations in the Coupled HWRF–HYCOM Model. . J. Atmos. Ocean. Technol., 31(2), 545-559., 2014

Korotenko, K. A., Osadchiev, A. A., Zavialov, P. O., Kao, R. C., & Ding, C. F. , Effects of bottom topography on dynamics of river discharges in tidal regions: case study of twin plumes in Taiwan Strait. . Ocean Science Discussions, 11(2), 1149-1189., 2014

Korotenko, K. A., Osadchiev, A. A., Zavialov, P. O., Kao, R. C., & Ding, C. F. , Effects of bottom topography on dynamics of river discharges in tidal regions: case study of twin plumes in Taiwan Strait. Ocean Science Discussions, 11(2), 1149-1189, 2014

Korres, G., M. Ntoumas, M. Potiris, G. Petihakis, Assimilating Ferry Box data into the Aegean Sea model. J. Mar. Sys., doi:10.1016/j.jmarsys.2014.03.013, 2014

Krylov, A. L., Nosov, A. V., & Kiselev, V. P. , Modeling radionuclide migration in complex nonuniform water bodies using the POMRad model system. . Russian Meteorology and Hydrology, 39(1), 29-37., 2014

Krylov, A. L., Nosov, A. V., and Kiselev, V. P. , Modeling radionuclide migration in complex nonuniform water bodies using the POMRad model system. Russian Meteorology and Hydrology, 39(1), 29-37, 2014

Kržič, A., Djurdjević, V., & Tošić, I. , Future Changes in Drought Characteristics in Serbia.. Proc. DailyMeteo. org/2014 Conference (p. 45)., 2014

Li, F., L. Cao, H. Wu, and J. Zhao, Combined SVM-PLS Method for Predicting Estrogenic Activities of Organic Chemicals in the Coastal water. J Coast Dev 17: 388. doi: 10.4172/1410-5217.1000388, 2014

Li, Y., Peng, S., Wang, J., & Yan, J., Impacts of nonbreaking wave‐stirring‐induced mixing on the upper ocean thermal structure and typhoon intensity in the South China Sea.. J. Geophys. Res., doi:10.1002/2014JC009956, 2014

Ma, W., F. Chai, P. Xiu, H. Xue and J. Tian, Simulation of export production and biological pump structure in the South China Sea. Geo-Marine Letters, doi:10.1007/s00367-014-0384-0, 2014

Malanotte-Rizzoli, P., Artale, V., Borzelli-Eusebi, G. L., Brenner, S., Crise, A., Gacic, M., Kress, N., et al., Physical forcing and physical/biochemical variability of the Mediterranean Sea: a review of unresolved issues and directions for future research . Ocean Sci., 10, 281-322, doi:10.5194/os-10-281-2014, 2014

Martins, R. S., de Camargo, R., & Gasalla, M. A. , The São Paulo shelf (SE Brazil) as a nursery ground for Doryteuthis plei (Blainville, 1823)(Cephalopoda, Loliginidae) paralarvae: a Lagrangian particle-tracking Individual-Based Model approach. . Hydrobiologia, 725(1), 57-68., 2014

Martins, R. Silvestre, R. de Camargo, and M. A. Gasalla, The São Paulo shelf (SE Brazil) as a nursery ground for Doryteuthis plei (Blainville, 1823)(Cephalopoda, Loliginidae) paralarvae: a Lagrangian particle-tracking Individual-Based Model approach. Hydrobiologia 725.1, 57-68, 2014

Mendoza, C., Mancho, A. M., & Wiggins, S. , Lagrangian descriptors and the assessment of the predictive capacity of oceanic data sets. . Nonlinear Processes in Geophysics, 21(3), 677-689., 2014

Mihanovic, H., G. Beg Paklar, M. Orlic, Resonant excitation of island-trapped waves in a shallow, seasonally stratified sea. . Cont. Shelf Res., 77, 24-37, 2014

Miyama, T. and Y. Miyazawa , Short-term fluctuations south of Japan and their relationship with the Kuroshio path: 8- to 36-day fluctuations. Ocean Dynamics, doi:10.1007/s10236-014-0701-1, 2014

Nan, F., H. Xue and F. Yu, Kuroshio intrusion into the South China Sea: A review. Progress Oceanogr., doi:10.1016/j.pocean.2014.05.012, 2014

Nayak, R. K., Salim, M., Mitra, D., Sridhar, P. N., Mohanty, P. C., & Dadhwal, V. K., Tidal and Residual Circulation in the Gulf of Khambhat and its Surrounding on the West Coast of India.. J. Indian Society Rem. Sens., 1-12., 2014

Nelko, V., A. Saha and V. P. Chua, On the tidally driven circulation in the South China Sea: modeling and analysis. Ocean Dynamics, doi:10.1007/s10236-013-0687-0, 2014

Niwa, Y., & Hibiya, T. , Generation of baroclinic tide energy in a global three-dimensional numerical model with different spatial grid resolutions.. Ocean Modelling, doi:10.1016/j.ocemod.2014.05.003, 2014

O'Donncha, F., E. Ragnoli, and F. Suits, Parallelisation study of a three-dimensional environmental flow model. Computers & Geosciences 64, 96-103., 2014

O'donncha, F., Ragnoli, E., & Suits, F., Parallelisation study of a three-dimensional environmental flow model. Computers & Geosciences, 64, 96-103, 2014

Oey, L.-Y., Y.-L. Chang, Y.-C. Lin, M.-C. Chang, S. Varlamov, Y. Miyazawa, Cross Flows in the Taiwan Strait in Winter. J. Phys. Oceanogr., 44(3), 801-817, 2014

Oliver, E. C., Intraseasonal variability of sea level and circulation in the Gulf of Thailand: the role of the Madden–Julian Oscillation. . Climate Dynamics, 42(1-2), 401-416., 2014

Peng, M., Schmalz, J. R. A., & Zhang, A., Towards the Development of the National Ocean Service San Francisco Bay Operational Forecast System. . J. Marine Science and Engineering, 2(1), 247-286., 2014

Pimenta, F.M., Kirwan, A.D., Jr., The response of large outflows to wind forcing . Continental Shelf Research, 89, pp. 24-37, 2014

Qiang, W., W. Zhou, D. Wang , Implementation of new time integration methods in POM. Ocean Dynamics, doi:10.1007/s10236-014-0707-8, 2014

Quattrocchi, G., P. De Mey, N. Ayoub, V. D. Vervatis, C. E. Testut, G. Reffray, J. Chanut, and Y. Drillet, Characterisation of errors of a regional model of the Bay of Biscay in response to wind uncertainties: a first step toward a data assimilation system suitable for coastal sea domains. J. of Oper. Oceanography, 7(2), 25-34, 2014

Sannino, G., Garrido, J. S., Liberti, L., & Pratt, L., Exchange Flow through the Strait of Gibraltar as Simulated by a σ‐Coordinate Hydrostatic Model and az‐Coordinate Nonhydrostatic Model. . The Mediterranean Sea: Temporal Variability and Spatial Patterns, 25-50., 2014

Sannino, G., Garrido, J. S., Liberti, L., and Pratt, L. , Exchange Flow through the Strait of Gibraltar as Simulated by a σ‐Coordinate Hydrostatic Model and az‐Coordinate Nonhydrostatic Model. . The Mediterranean Sea: Temporal Variability and Spatial Patterns, 25-50., 2014

Saramul, S. and Ezer, T., On the dynamics of low latitude, wide and shallow coastal system: Numerical simulations of the Upper Gulf of Thailand. Ocean Dynamics, 64, 557-571, doi:10.1007/s10236-014-0703-z, 2014

Saramul, S. and T. Ezer, Spatial variations of sea level along the coast of Thailand: Impacts of extreme land subsidence, earthquakes and the seasonal monsoon. Global & Planetary Change, 122, 70-81, doi:10.1016/j.gloplacha.2014.08.012, 2014

Sehili, A., G. Lang, and C. Lippert , High-resolution subgrid models: background, grid generation, and implementation. Ocean Dynamics, 64(4), 519-535, 2014

Shinsuke, I., A. Isobe, and S. Kako, Atmosphere-Ocean Coupled Process along Coastal Areas of the Yellow and East China Seas in Winter. . Journal of Climate, 27(1), 2014

Shu, Y., J. Chen, J. Yao, J. Pan, W. Wang, H. Mao, D. Wang, Effects of the Pearl River plume on the vertical structure of coastal currents in the Northern South China Sea during summer 2008. Ocean Dynamics, 64(12), 1743-1752, doi:10.1007/s10236-014-0779-5, 2014

Sun, X., Xie, L., Semazzi, F. H., & Liu, B., A Numerical Investigation of the Precipitation over Lake Victoria Basin Using a Coupled Atmosphere-Lake Limited-Area Model. Advances in Meteorology, doi:10.1155/2014/960924, 2014

Sun, Xia, An Investigation of the Role of Lake Surface Temperature on Precipitation Over Lake Victoria Basin using a Limited-area Numerical Model.. Master of Science, NCSU, 2014

Sun, Xia., An Investigation of the Role of Lake Surface Temperature on Precipitation Over Lake Victoria Basin using a Limited-area Numerical Model. Master of Science, NCSU, 2014

Velazquez-Muñoz, F. A., Martínez, J. A., & Durazo, R. , Numerical Simulation of Ocean Response by Offshore Wind Stress Events. . Exper. Comp. Fluid Mech. (pp. 93-110). Springer International Pub, 2014

Wang, C., & Malanotte-Rizzoli, P. , Diagnosis of physical and biological controls on phytoplankton distribution in the Sargasso Sea. . J. Ocean University of China, 13(1), 32-44., 2014

Wang, D., Shu, Y., Xue, H., Hu, J., Chen, J., Zhuang, W., ... & Xu, J. , Relative contributions of local wind and topography to the coastal upwelling intensity in the northern South China Sea. . J. Geophys, Res.: Oceans, 119(4), 2550-2567., 2014

Wang, D., Y. Shu, H. Xue, J. Hu, J. Chen, W. Zhuang, T.T. Zu, and J. Xu , Relative contributions of local wind and topography to the coastal upwelling intensity in the northern South China Sea, J. Geophys. Res. Oceans, 119, doi:10.1002/2013JC009172. . J. Geophys. Res., 119, doi:10.1002/2013JC009172, 2014

Wang, J., and L.-Y. Oey, Inter-annual and decadal fluctuations of the Kuroshio in East China Sea and connection with surface fluxes of momentum and heat. Geophys. Res. Lett., 41, doi:10.1002/2014GL062118., 2014

Wang, J., Eicken, H., Yu, Y., Bai, X., Zhang, J., Hu, H.,& Overland, J. E. , Abrupt Climate Changes and Emerging Ice-Ocean Processes in the Pacific Arctic Region and the Bering Sea. . The Pacific Arctic Region (pp. 65-99). Springer Netherlands., 2014

Wang, L., & Gan, J. , Delving into three-dimensional structure of the west Luzon eddy in a regional ocean model.. Deep Sea Res., doi::10.1016/j.dsr.2014.04.011, 2014

Wang, L., & Gan, J. , Delving into three-dimensional structure of the west Luzon eddy in a regional ocean model. Deep Sea Research Part I, doi:10.1016/j.dsr.2014.04.011, 2014

Wang, Q., S. Danilov, D. Sidorenko, R. Timmermann, C. Wekerle, X. Wang, T. Jung, and J. Sch, The Finite Element Sea Ice-Ocean Model (FESOM) v. 1.4: formulation of an ocean general circulation model. Geosci., 7, 663-693, 2014

Wang, X., C. Wang, G. Han, W. Li and X. Wu, Effects of tropical cyclones on large-scale circulation and ocean heat transport in the South China Sea. Clim. Dyn., 43(12), 3351-3366, 2014

Wang, X., Wang, C., Han, G., Li, W., & Wu, X. , Effects of tropical cyclones on large-scale circulation and ocean heat transport in the South China Sea. . Climate Dynamics, 1-16., 2014

Xu, F.-H. and L.-Y. Oey, State analysis using the Local Ensemble Transform Kalman Filter (LETKF) and the three-layer circulation structure of the Luzon Strait and the South China Sea. Ocean Dynamics, 64(9), 905-923, 2014

Xu, S., Huang, X., Zhang, Y., Hu, Y., & Yang, G., A customized GPU acceleration of the Princeton Ocean Model. . Architectures and Processors (ASAP), IEEE 25th Intern. Conf., 2014

Xu, S., X. Huang, Y. Zhang, Y. Hu, H. Fu, and G. Yang, Porting the Princeton Ocean Model to GPUs, In: Algorithms and Architectures for Parallel Processing.. Springer Intern. Publ. , pp. 1-14. , 2014

Yablonsky, R. M., Ginis, I., Thomas, B., Tallapragada, V., Sheinin, D., and Bernardet, L. , Description and Analysis of the Ocean Component of NOAA's Operational Hurricane Weather Research and Forecasting (HWRF) Model. J. Atmos. Ocean. Technol., doi:10.1175/JTECH-D-14-00063.1, 2014

Zambon, J., B., R. He, and J. C. Warner, Investigation of hurricane Ivan using the coupled ocean–atmosphere–wave–sediment transport (COAWST) model. Ocean Dynamics 64(11) 1535-1554, 2014

Zavialov, P., Korotenko, K., Osadchiev, A., Kao, R. C., Ding, C. F., Influence of bottom topography on dynamics of river plumes in semi-enclosed domains: Case study in Taiwan Strait. . EGU Gen. Assem. Conf. (Vol. 16, p. 1914)., 2014

Zeng, L., W. T. Liu, H. Xue, P. Xiu, and D. Wang , Freshening in the South China Sea during 2012 revealed by Aquarius and in situ data . J. Geophys. Res., 119, 8296–8314, doi:10.1002/2014JC010108, 2014

Zhang, W.-Z., F. Chai, H-S Hong and H. Xue, Volume transport through the Taiwan strait and the effect of synoptic events. Cont. Shelf Res., 88, 117-125, 2014

Zhang, X., G. Han, D. Li, X. Wu, W. Li and P. C. Chu, Variational Estimation of Wave-affected Parameters in a Two-equation Turbulence Model. J. Atm. Oceanic Tech., doi:/10.1175/JTECH-D-14-00087.1, 2014

Zhang, X., Han, G., Wang, X., & Zhang, L. , Effects of Stokes production on summer ocean shelf dynamics. . Acta Oceanologica Sinica, 33(1), 24-34., 2014

Zhang, Y. Q., Leng, Q. L., Hu, Z. J., Zhu, Z. C., Zhang, W. J., & Bian, S. H., Study of Storm Surge Numerical Simulation in the Bohai Sea. . Advanced Materials Research (Vol. 989, pp. 2288-2291), 2014

Zhao, L., Chen, Z., & Lee, K. , Evaluation of Numerical Modeling Methods for the Management of Produced Water Discharges in the Coastal Region with a Canadian Case Study. . Envir. Modeling & Assessment, 19(1), 57-70., 2014

Zou, L., & Zhou, T. , Simulation of the western North Pacific summer monsoon by regional ocean–atmosphere coupled model: impacts of oceanic components. . Chinese Science Bulletin, 59(7), 662-673., 2014

Zou, L., & Zhou, T., Simulation of the western North Pacific summer monsoon by regional ocean–atmosphere coupled model: impacts of oceanic components. Chinese Science Bulletin, 59(7), 662-673, 2014