导航

科研成果-Achievements

论文-Publications

148Wang J., Dong C.*, Liu Q., Zou Q.(2022). Solitary Wave Simulated by the Water Column Collapsing Method.China Ocean Engineering.(Accepted)
147杨霄, 张永垂*, 夏长水, 董昌明*, 胡楠, 汪浩笛, 陈诗尧(2022).日本海中尺度涡旋时空变化特征研究[J]. 海洋学报, 2022, 44(x): 1-15. doi: 10.12284/hyxb2022035. (Accepted)
146Xia Q., Dong C.*, He Y.*, Li G., Dong, J. (2022). Lagrangian study of several long-lived Agulhas rings. Journal of Physical Oceanography. 10.1175/JPO-D-21-0079.1
145Xia Q., Li G.*, Dong C.* (2022). Global oceanic mass transport by coherent eddies. Journal of Physical Oceanography. 10.1175/JPO-D-21-0103.1
144Li G., Dong C., Pan J., Devlin A. T., Wang D.*(2022). Influence of the upper mixed layer depth on Langmuir turbulence characteristics. Journal of Oceanology and Limnology. (Accepted)
143Wang J., Bradon J. B., Dong C.*, Li C., Cao Y. (2022). Numerical, Simulation and Observational Data Analysis of Mesoscale Eddy Effects on Surface Waves in the South China Sea. Remote Sens. 14, 1463. https://doi.org/10.3390/rs14061463.
142Feng Y., Bradon J. B., Dong C.*, Zhao H.*, Yao Y, Yu Y. (2022). Marine heatwave events near Weizhou Island, Beibu Gulf in 2020 and their possible relations to coral bleaching. Science of the Total Environment, 823, 153414, http://dx.doi.org/10.1016/j.scitotenv.2022.153414.
141Bradon J. B., Sun W., Dong C.*, Wang D.(2022). Forecasting hurricane-forced significant wave heights using a long short-term memory network in the Caribbean Sea. Ocean Sci., 18, 419–436, https://doi.org/10.5194/os-18-419-2022.
140Bradon J. B., Dong C.*, Zhou S., Cao Y.(2021). Bidirectional Modeling of SurfaceWinds and Significant Wave Heights in the Caribbean Sea. J. Mar. Sci. Eng, 9, 547.
139Bethel B.J,Dong,C.*,and Wang,J. (2021) An Empirical Wind-Wave Model for Hurricane-Forced Wind Waves in the Caribbean Sea. Earth and Space Science,8(12),e2021EA001956. https://doi.org/10.1029/2021EA001956
138Cao Y., Dong C.*, Young I. R., Yang J.(2021). Global Wave Height Slowdown Trend during a Recent Global Warming Slowdown. Remote Sens., 13, 4096. https://doi.org/10.3390/rs13204096.
137Dong J., Fox-Kemper B., Zhu J.,  Dong C.*. (2021). Application of symmetric instability parameterization in the Coastal and Regional Ocean Community Model (CROCO). Journal of Advances in Modeling Earth Systems, doi: 10.1029/2020MS002302
136Dong J., Fox-Kemper B., Zhang H.,  Dong C.*.(2021). The scale and activity of symmetric instability estimated from a global submesoscale-permitting ocean model. Journal of Physical Oceanography, doi: 10.1175/JPO-D-20-0159.1
135Dong J., Jin M.*, Liu Y.,  Dong C. (2021). Interannual variability of surface salinity and Ekman pumping in the Canada Basin during summertime of 2003−2017. Journal of Geophysical Research: Oceans, 126, https://doi.org/10.1029/2021JC017176.
134Feng Y., Shi H., Hou G., Zhao H.*, Dong C.. 2021. Relationships between environmental variables and spatial and temporal distribution of jack mackerel (Trachurus japonicus) in the Beibu Gulf, South China Sea. PeerJ 9:e12337, http://doi.org/10.7717/peerj.12337
133Gao H., Zhao H.*, Han G., Dong C.(2021). Spatio-Temporal Variations of Winter Phytoplankton Blooms Northwest of the Luzon Island in the South China Sea[J]. Frontiers in Marine Science, 8:637499.
132Han G., Dong C.*, Yang J.,  Liu Y. (2021). Sri Lanka seasonal warm pools. Journal of  Oceanology and Limnology. 39, 437–446, https://doi.org/10.1007/s00343-020-0112-8.
131Han G., Dong C.*, Yang J., Sommeria J., Stegner A. Caldeira R. (2021). Strain Evolution  and Instability of an Anticyclonic Eddy From a Laboratory Experiment. Frontiers in Marine Science, 8: 645531, https://doi.org/10.3389/fmars.2021.645531.
130Ji Y., Xu G., Dong C.*, Yang J., Xia C.. 2021. Submesoscale eddies in the East China Sea detected from SAR images. Acta Oceanologica Sinica, 40(3): 18–26, doi:10.1007/s13131-021-1714-5
129Jiang X., Dong C.*, Ji Y., Wang C., Shu Y., Liu L.,  Ji, J. (2021). Influences of deep-water seamounts on the hydrodynamic environment in the Northwestern Pacific Ocean. Journal of Geophysical Research: Oceans, 126, e2021JC017396. https://doi.org/10.1029/2021JC017396.
128Liang J.*, Liu J., Benfield M., Justic D., Holstein D., Liu B., Hetland R., Kobashi D., Dong C, Dong W. (2021). Including the effects of subsurface currents on buoyant particles in Lagrangian particl  tracking models: Model development and its application to the study of riverborne plastics over the Louisiana/Texas shelf, Ocean Modelling,167: 101879, https://doi.org/10.1016/j.ocemod.2021.101879.
127Meng Y., Liu H.*, Lin P., Ding M., Dong C.(2021). Oceanic mesoscale eddy in the Kuroshio extension: Comparison of four datasets. Atmospheric and Oceanic Science Letters, 14.
126Sun W., Yang J., Tan W., Liu Y., Zhao B., He Y., Dong C.*. 2021. Eddy diffusivity and coherent mesoscale eddy analysis in the Southern Ocean. Acta Oceanologica Sinica, 40(10): 1–16, doi: 10.1007/s13131-021-1881-4
125Sun W., Liu Y., Chen G., Tan W., Lin X., Guan Y., Dong C.*. 2021. Three-dimensional properties of mesoscale cyclonic warm-core and anticyclonic cold-core eddies in the South China Sea. Acta Oceanologica Sinica, 40(10): 17–29, doi:10.1007/s13131-021-1770-x
124Teng F., Dong C.*, Ji J., Brandon J. B., Pan A., Xu C..(2021). Does the wind stress always damp an oceanic eddy? Geoscience Letters, 8:36, https://doi.org/10.1186/s40562-021-00206-7
123Tian Q.*, Xu K., Dong C., Yang S., He Y., Shi B.(2021). Declining sediment discharge in the Yangtze River from 1956 to 2017: Spatial and temporal changes and their causes. Water Resources Research, 57, e2020WR028645.
122Wang Q., Dong C.*, Li J., Yan J., Tian Q.(2021). Numerical Study of the Seasonal Salinity Budget of the Upper Ocean in the Bay of Bengal in 2014, Journal of Oceanology and Limnology, doi:10.1007/s00343-020-0285-1.
121Wang S., Feng M.*, Dong C.*, Zhu, W. (2021). Observations of SST-induced wind perturbations in the Leeuwin Current. Journal of Geophysical Research: Oceans, 126, e2020JC016993.
120 Wei X., Zhang Y., Dong C.*, Jin M., Xia C. 2021. An approach to determine coeffi cients of logarithmic velocity vertical profi le in the bottom boundary layer*. Journal of Oceanology and Limnology, https://doi.org/10.1007/s00343-021-0373-x
119Xu G., Xie W., Dong C.*,  Gao X. (2021). Application of Three Deep Learning Schemes Into Oceanic Eddy Detection. Frontiers in Marine Science, 8: 672334, https://doi.org/10.3389/fmars.20210.672334
118You Z., Liu L., Bradon J. B., Dong C.*. 2021. Feature Comparison of Two Mesoscale Eddy Datasets Based on Satellite Altimeter Data. Remote Sens. 14, 116. https://doi.org/10.3390/rs14010116
117Zhang Y., Song M.*, Dong C.,  Liu J. (2021). Modeling turbulent heat fluxes over Arctic sea ice using a maximum-entropy-production approach. Advances in Climate Change Research, 12(4):517-526, Science, 8: 645531, https://doi.org/10.3389/fmars.2021.645531.
116Zhao H., Feng Y., Dong C., Li Z.∗. 2021. Spatiotemporal distribution of Decapterus maruadsi in spring and autumn in response to environmental variation in the northern South China Sea. Regional Studies in Marine Science, 45:101811. https://doi.org/10.1016/j.rsma.2021.101811
115Zhou S., Xie W., Lu Y., Wang Y., Zhou Y., Hui N., Dong C.* (2021). ConvLSTM-Based Wave Forecasts in the South and East China Seas. Frontiers in Marine Science, 8: 680079, https://doi.org/10.3389/fmars.2021.680079.
114Zhou S., Bethel B.J., Sun W., Zhao Y., Xie W., Dong C.* (2021). Improving Significant Wave Height Forecasts Using a Joint Empirical Mode Decomposition–Long Short-Term Memory Network. Journal of Marine Science and Engineering, 9: 744, https://doi.org/10.3390/jmse9070744.
113Cao Y., Li C., Dong C.* (2020). Atmospheric Cold Front-Generated Waves in the Coastal Louisiana[J]. Journal of Marine Science and Engineering, 8(11):900.
112Dong J., Fox‐Kemper B., Zhang H.,  Dong C. *(2020). The scale of submesoscale baroclinic instability globally. J. Phys. Oceanogr, 1-58, doi:10.1175/JPO-D-20-0043.1.
111Dong J., Fox‐Kemper B., Zhang H., Dong C.* (2020). The seasonality of submesoscale energy production, content, and cascade. Geophysical Research Letters, 47, e2020GL087388. https://doi.org/10.1029/2020GL087388.
110Ji J., Ma J., Dong C.*, John C.H. Chiang, Chen D. (2020). Regional Dependence of Atmospheric Responses to Oceanic Eddies in the North Pacific Ocean. Remote Sensing, 12(7): 1161-1178.doi:10.3390/rs12071161.
109Kuang Z., Song Z,*, Dong C.. 2020. Study on the Future Projection of  Global Sea Surface Temperature over 21st Century Using a Biases Correction Model Based on Machine Learning. Climate Change Research Letters, 9(4):270-284. DOI: 10.12677/ccrl.2020.94031. 匡志远, 宋振亚*, 董昌明.(2020). 基于机器学习订正模型的未来百年全球海表温度预估研究[J]. 气候变化研究快报, 9(4):270-284. DOI: 10.12677/ccrl.2020.94031.
108Lim K , Dong C.*, Liu H., Wu R. (2020). Effects of Model Coupling on Typhoon Kalmaegi (2014) Simulation in the South China Sea. Atmosphere, 11(4), 432, doi:10.3390/atmos11040432
107Liu X.*, Wang D., Su J., Chen D., Lian T., Dong C. Liu T.(2020). On the vorticity balance over steep slopes: Kuroshio intrusions northeast of Taiwan, Journal of Physical Oceanography, doi: 10.1175/jpo-d-19-0272.1
106Wang H.,Dong C.*, Yang Y., Gao X., (2020). Parameterization of Wave-Induced Mixing Using the Large Eddy Simulation (LES) (I). Atmosphere, 11:207, doi:10.3390/amos11020207
105Wang J., Dong C.*, Yu K.,(2020). The influences of the Kuroshio on wave characteristics and wave energy distribution in the East China Sea. Deep-Sea Research Part I, doi:10.1016/j.dsr.2020.103228
104Xu J., Cao Y., Yang Y., Dong C., Wang J., Zhu W.(2020). Numerical simulation of multi-scale temporal variations of sea surface wind and wave field in the offshore area of the northern Jiangsu province[J]. Advancesin Marine Science, 2020,38(4):600-623. 徐瑾, 曹玉晗, 杨永增, 董昌明, 王锦, 朱伟军*.(2020). 2016年苏北近海风场和波浪场多时间尺度变化的数值模拟研究[J]. 海洋科学进展, 38(4):600-623.
103Yang X , Xu G , Liu Y , Sun W., Dong C.*(2020). Multi-Source Data Analysis of Mesoscale Eddies and Their Effects on Surface Chlorophyll in the Bay of Bengal[J]. Remote Sensing, 12(21):3485.
102Zhang Y., Dong C., Chen X.*, Wang Y.(2020). Observation of submesoscale turbulence in a cyclonic eddy. Ocean Dynamics, doi:10.1007/s10236-020-01349-5
101Wei Z., Zheng Q., ..., Dong C., et al. Physical oceanography research in China over past 70 years:Overview of development history and academic achievements[J]. Haiyang Xuebao,2019, 41(10):23–64,doi:10.3969/j.issn.0253−4193.2019.10.003.
魏泽勋*, 郑全安, ...,
董昌明等, (2019). 中国物理海洋学研究70 年:发展历程、学术成就概览[J]. 海洋学报, 41(10): 23–64, doi: 10.3969/j.issn.0253?4193.2019.10.003.
100Chen L., Dong C., Wang G.*, (2019). GOCI-Observed Chlorophyll Belts Associated With Sea-Surface Fronts in the East China Sea. IEEE Geoscience and Remote Sensing Letters, doi: 10.1109/LGRS.2019.2947175
99Dong C.*, Gao X., Zhang Y., Yang J., Zhang H., Chao Y., (2019). Multiple-scale Variations of Sea Ice and Ocean Circulation in the Bering Sea Using Remote Sensing Observations and Numerical Modeling, Remote Sensing, 11, 1484; doi:10.3390/rs11121484.
98Dong C.*, Lim K.,(2019). Rossby Waves,  Encyclopedia of Ocean Sciences (Third Edition). Volume 3, Pages 650-655, https://doi.org/10.1016/b978-0-12-409548-9.11442-3
97Dong J., Robertson R., Dong C.*, Hartlipp P. S., Zhou T., Shao Z., et al. (2019). Impacts of mesoscale currents on the diurnal critical   latitude dependence of internal tides: A numerical experiment based on Barcoo   Seamount. Journal of Geophysical Research: Oceans, 124. https://doi.org/10.1029/2018JC014413
96Gao X., Dong C.*, Liang J., Yang J., Li G., Wang D., McWilliams J. (2019). Convective instability-induced mixing and its parameterization using large eddy simulation, Ocean Modeling,137: 40–51.
95Han G., Dong C.*, Li J., Yang J., Wang Q., Liu Y., J. Sommeria, (2019),.SST Anomalies in the Mozambique Channel Using Remote Sensing and Numerical Modeling Data, Remote Sens. 11, 1112; doi:10.3390/rs11091112
94Liao G.*, Xu X., Dong C., Chao H., Wang T., (2019). Three-Dimensional Baroclinic Eddies in the Ocean: Evolution, Propagation, Overall Structures, and Angular Models. Journal of Physical Oceanography,  doi: 10.1175/JPO-D-18-0237.1
93Robertson R.*, Dong C., (2019). An evaluation of the performance of vertical mixing parameterizations for tidal mixing in the Regional Ocean Modeling System (ROMS). Geoscience Letters, 6:15, doi:10.1186/s40562-019-0146-6.
92Sun W., Dong C.*, Tan W., He Y., (2019). Statistical Characteristics of Cyclonic Warm-Core Eddies and Anticyclonic Cold-Core Eddies in the North Pacific Based on Remote Sensing Data. Remote Sensing, 11:208, doi:10.3390/rs11020208.
91Wang, S., Zhu W., Ma J., Ji J., Yang J., Dong C.* , (2019). Variability of the Great Whirl and Its Impacts on Atmospheric Processes, Remote Sens. 11, 322; doi:10.3390/rs11030322.
90Xu G., Cheng C.,Yang W., Xie W., Kong L., Hang R., Ma F., Dong C.*, Yang J., (2019). Oceanic Eddy Identifcation Using an AI Scheme, Remote Sensing, 11, 1349, doi:10.3390/rs111111349.
89Xu G., Dong C.*, Liu Y., Gaube P., Yang J. (2019). Chlorophyll Rings around ocean Eddies in the North Pacific, Scientific Reports, 9:2056 | https://doi.org/10.1038/s41598-018-38457-8
88Xu G., Han G., Dong C.*, Yang J., Brad D.Y., (2019). Observing and Modeling the Response of Placentia Bay to an Extratropical Cyclone. Atmosphere, 10:724, doi:10.3390/atmos10110724.
87Yu K., Liu H., Chen Y., Dong C.*, Dong J., Yan Y., Wang D., (2019). Impacts of the mid-latitude westerlies anomaly on the decadal sea level variability east of China. Climate Dynamics, 53:5985, doi:10.1007/s00382-019-04909-8.
86Yu Y., Dong C.*, Shan H., Zou B., (2019). Statistical analysis of intensity variations in tropical cyclones in the East China Sea passing over the Kuroshio. Journal of Oceanology and Limnology, doi:10.1007/s00343-019-9069-x
85Zhang Y., Chen X.*, Dong C.*, (2019). Anatomy of a Cyclonic Eddy in the Kuroshio Extension Based on High-Resolution Observations. Atmosphere, 10: 553, doi:10.3390/atmos10090553
84Lu X., Dong C.*, Li G.. 2018. Variations of typhoon frequency and landfall position in the East China Sea from 1951 to 2015. Trans. Atmos. Sci., 41(4):433-440, doi:10.13878/j.cnki.dqkxxb.20170803001.(in Chinese).
陆晓婕,
董昌明*, 李刚. (2018).1951-2015年进入东海的台风频数及登陆点的变化( )[J]. 大气科学报, 41(4): 433-440, doi:10.13878/j.cnki.dqkxxb.20170803001.
83Cao Y., Dong C.*, Uchiyama, Y., Wang, J., Yin, X. (2018). Multiple-scale variations of wind-generated waves in the Southern California Bight. Journal of Geophysical Research: Oceans, 123, 9340–9356. https://doi.org/10.1029/2018JC014505
82Dong C.*, Cao Y., McWilliams J. (2018). Island Wakes in Shallow Water. Atmosphere-Ocean, 56(2), 96-103.
81Dong C.*, Xu G., Han G.*, Chen N., He Y., Chen D. (2018). Identification of tidal mixing fronts from high-resolution along-track altimetry data. Remote Sensing of Environment, 209, 489-496.
80Ji J.,Dong C.*, Zhang B.*, Liu Y., Zou B., King G. P., et al. (2018). Oceanic eddy characteristics and generation mechanisms in the Kuroshio Extension region. Journal of Geophysical Research: Oceans, 123. https://doi.org/10.1029/2018JC014196
79Lin X., Dong C.*, Chen D. (2018). Cross-basin particle transport by a warm eddy southwest of Taiwan Island. Journal of Tropical Oceanography, 37(3), 9-18.doi:10.11978/2017077 (in Chinese).
林夏艳,
董昌明*,陈大可.(2018). 台湾岛西南部一个暖涡的跨海盆粒子输运. 海洋水文学, 37(3): 9-18, doi:10.11978/2017077.
78Ma J.*, Chadwick R., Seo K. H., Dong C., Huang G., Foltz G. R. (2018). Responses of the Tropical Atmospheric Circulation to Climate Change and Connection to the   Hydrological Cycle. Annual Review of Earth & Planetary Sciences, 46, 549-580.
77Shan H., Dong C.*, (2018). Atmospheric responses to oceanic mesoscale eddies based on an idealized model, Int J Climatol. , doi: 10.1002/joc.5908
76Shi H.  Cao Y., Dong C.* (2018). The Spatio-Temporal Evolution of River Island Based on Landsat Satellite Imagery, Hydrodynamic Numerical Simulation and Observed Data, remote sensing, 12.16, 10:2046
75Sun W., Dong C.*, Tan W., Liu Y., He Y., Wang J. (2018). Vertical Structure Anomalies of Oceanic Eddies and Eddy-Induced Transports in the South China Sea. Remote Sensing, 10(5), 795.
74Wang H., Yang Y., Dong C*. T. Su, B. Sun, B. Zou, (2018). Validation of an Improved Statistical Theory for Sea Surface Whitecap Coverage Using Satellite Remote Sensing Data, Sensors, 2018.10, 18(10),3306
73Xia Q., He Y.*, Dong C., Wei E. (2018). Prediction of the south china sea dipole using SSA-MEM. Atmosphere-ocean, 1-14.
72Zhang Y., Xu H.*, Qiao F., Dong C.* , (2018). Seasonal variation of the global mixed layer depth: Comparison between Argo data and FIO-ESM. Frontiers of Earth Science, 12(1), 24-36.
71Dong C.*, Jiang X., Xu G., Ji J., Lin X., Sun W., Wang S. (2017). Automated Eddy Detection Using Geometric Approach, Eddy Datasets and TheirApplication. Advances in Marine Science, 35(4):439-435, doi:doi:10.3969/ji.ssn.1671-6647.2017.04.001.
董昌明
* , 蒋星亮, 徐广珺, 季巾淋, 林夏燕, 孙文金, 王森. (2017). 海洋涡旋自动探测几何方法、涡旋数据库及其应用, 海洋科学进展, 35(4), 439-453.doi:doi:10.3969/ji.ssn.1671-6647.2017.04.001.
70Chen Y.*, Yu K., Dong C., He Z., Yan Y., Wang D.* , (2017).  Evaluation of Satellite-Altimetry-Derived Pycnocline Depth Products in the South China Sea. Remote Sensing, 9(8), 822.
69Chu X.*, Dong C., Qi Y. (2017). The influence of ENSO on an oceanic eddy pair in the South China Sea. Journal of Geophysical Research: Oceans, 122(3), 1643-1652.
68Ji J., Dong C., Zhang B.*, Liu Y. (2017). An oceanic eddy statistical comparison using multiple observational data in the Kuroshio Extension region. Acta Oceanologica Sinica, 36(3), 1-7.
67Jiang L., Dong C.*, Yin L. (2017). Cross-shelf transport induced by coastal trapped waves along the coast of East China Sea. Chinese Journal of Oceanology & Limnology (1), 1-11.
66Liu Y., Dong C.*, Liu X., Dong J. (2017). Antisymmetry of oceanic eddies across the Kuroshio over a shelfbreak. Scientific Reports, 7(1), 6761.
65Shan H., Dong C.* , (2017). The SST–wind coupling pattern in the East China Sea based on a regional coupled ocean–atmosphere model. Atmosphere-ocean, 55(4), 1-17.
64Shi H., Gao C., Dong C.*, Xia C., Xu G., (2017) . Variation of River Islands around a Large City along the Yangtze River from Satellite Remote Sensing Images. Sensors, 17(10):2213-.
63Sun W., Dong C.*, Wang R., Liu Y., Yu K. (2017). Vertical structure anomalies of oceanic eddies in the Kuroshio Extension region. Journal of Geophysical Research: Oceans, 122(2), 1476-1496.
62Yu K., Dong C.*, King G.* , (2017). Turbulent kinetic energy of the ocean winds over the Kuroshio  Extension from QuikSCAT winds (1999–2009).Journal of Geophysical Research: Oceans, 122(6), 4482-4499.
61Zhou Q., Hu G., Sun Y.*, Liu X., Song Y., Dong L., Dong C. (2017). Numerical research on evolvement of submarine sand waves in the Northern South China Sea. Frontiers of Earth Science, 11(1), 35-45.
60Li J., Liang C., Tang Y.*, Dong C., Chen D., Liu X., Jin W. (2016). A new dipole index of salinity anomalies of tropical Indian Ocean. Scientific Reports, 6:24260, doi:10.1038/srep24260.
59Liu X.*, Chen D., Dong C., He H., (2016). Variation of the Kuroshio intrusion pathways northeast of Taiwan using the Lagrangian method.Science China Earth Sciences, 59(2), 268-280.
58Ma J.*, Foltz G. R., Soden B. J., Huang G., He J., Dong C. (2016). Will surface winds weaken in response to global warming?. Environmental Research Letters, 11(12), 124012
57Ma J., Xu H.*, Dong C. (2016). Seasonal variations in atmospheric responses to oceanic eddies in the Kuroshio extension.Journal of Geophysical Research Atmospheres, 120(13), 6313-6330.
56Shan H., Guan Y.*, Huang J., Dong C. (2016). Trajectory patterns of the annual cycle of the heat centre of the Indo-Pacific warm pool. International Journal of Climatology, 37(2).
55Sun Y., Dong C.*, He Y.*, Yu K., Renault L., Ji J. (2016). Seasonal and interannual variability in the wind-driven upwelling along the Southern East China Sea coast.IEEE Journal of Selected Topics in Applied Earth Observations & Remote Sensing, 9(11), 5151-5158.
54Wang J.*, Dong C., He Y. (2016). Wave climatological study in the East China Sea. Continent Shelf Research, 120, 26-40.
53Chen G., Wang D.*, Dong C., Zu T., Xue H., Shu Y., et al. (2015). Observed deep energetic eddies by seamount wake. Scientific Reports, 5, 17416 , doi:10.1038/srep17416.
52Chen X., Liang C.*, Dong C., Zhou B., Liao G., Li J. (2015). Multiple-scale temporal variations and fluxes near a hydrothermal vent over the Southwest Indian Ridge. Frontiers of Earth Science, 9(4), 691-699.
51Chen X., Liang C.*, Dong C. 2015.  Detecion and flux estimation of hhydrothermal plumes in the Longqi hydrothermal field in the Southwest Indian Ocean. Journal of Marine Sciences, 33(4):43-52, doi:10.3969/j.issn,1001-909X.2015.04.005.
陈小丹, 梁楚进*,
 董昌明. (2015). 西南印度洋龙旂热液区羽流信号的检测与通量估算. 海洋学研究, 33(4):43-52, doi:10.3969/j.issn,1001-909X.2015.04.005.
50Dong C.*, Chen D., Ou H. W. (2015). Numerical study on tidally induced cross- frontal mean circulation. Atmosphere-Ocean, 53(3), 363-375.
49Li J., Liang C.*, Dong C., Jin W., Liao G., Zhou B., et al. (2015). Conversion of pressure to depth for moored instruments using a reference bottom mounted pressure sensor. Atmosphere-Ocean, 53(4), 377-382.
48Liao G., Zhou B., Liang C.*, Zhou H., Ding T., Wang Y., Dong C.(2015). Moored observation of abyssal flow and temperature near a hydrothermal vent on the Southwest Indian Ridge. Journal of Geophysical Research Oceans, 121(1), 836-860.
47Lin X., Dong,C.*, Chen,D., Liu,Y., Yang J., Zou B., et al. (2015). Three-dimensional properties of mesoscale eddies in the South China Sea based on eddy-resolving model output. Deep Sea Research Part I Oceanographic Research Papers, 99,46-64.
46Liu X., Dong C., Chen D.*, Su J. (2015). The pattern and variability of winter Kuroshio intrusion northeast of Taiwan.Journal of Geophysical Research Oceans, 119(8), 5380-5394.
45Ma J., Xu H.*, Dong C., Lin P., Liu Y. (2015). Atmospheric responses to oceanic Eddies in the Kuroshio Extension region. Journal of Geophysical Research: Atmospheres, 120: 6313-6330.
44Qin D., Wang J.*, Liu Y., Dong C.* , (2015). Eddy analysis in the Eastern China Sea using altimetry data. Frontiers of Earth Science, 9(4), 709-721.
43Xu G., Yang J.*, Dong C., Chen D., Wang J. (2015). Statistical study of submesoscale eddies identified from synthetic aperture radar images in the Luzon Strait and adjacent seas. International Journal of Remote Sensing, 36(18), 4621-4631.
42Yu K.*, Qu T., Dong C.*, Yan Y. (2015). Effect of subtropical mode water on the decadal variability of the subsurface transport through the Luzon Strait in the Western Pacific Ocean. Journal of Geophysical Research Oceans, 120(10).
41Cheng H., Liang C., Dong C., Liu Z. (2014). Temporal and spatial disreibution of local typhoon and non-local typhoon in the South China Sea. Journal of Marine Sciences, 32(1):19-30, doi:10.3969/j.issn.1001-909X.2014.01.003.
程撼*, 梁楚进,
 董昌明, 刘正礼. (2014). 南海土台风和非局地台风的对比研究. 海洋学研究, 32(1), 19-30.
40Dong C., Mcwilliams J. C., Liu Y., Chen D.* (2014). Global heat and salt transports by eddy movement. Nature Communications, 5(2), 3294.
39Liao G.*, Xu X., Liang C., Dong C., Zhou B., Ding T., et al. (2014). Analysis of kinematic parameters of internal solitary waves in the Northern South China Sea. Deep Sea Research Part I Oceanographic Research Papers, 94, 159-172.
38Liu, X., Dong, C., Chen, D., Su, J.(2014). The pattern and variability of winter Kuroshio intrusion northeast of Taiwan. Journal of Geophysical Research: Ocean, 119: 5380-5394, doi: 10.1002/2014JC009879.
37Ma J., Xu H., Dong C.* (2014). Atmospheric response to mesoscale oceanic eddies over the Kuroshio Extension: Case analyses of warm and cold eddies in winter [J]. Chinese Journal of Atmospheric Sciences (in Chinese), 38 (3): 438−452.
马静, 徐海明*,
 董昌明. (2014). 大气对黑潮延伸区中尺度海洋涡旋的响应——冬季暖、冷涡个例分析. 大气科学, 38(3), 438-452.
36Lazar A.*, Stegner A., Caldeira R., Dong C., Didelle H., Vuiboud S. (2013). Inertial instability of intense and stratified anticyclones. Part 2: lLaboratory experiments. Journal of Fluid Mechanics, 732, 485-509.
35Qiu S., Liang C.*, Dong C., Liu Z. (2013). Analysis of the temporal and spatial variations in the wind and wave over the South China Sea. Journal of Marine Sciences, 31(1), doi:1001-909X(2013)04-0001-09.
裘沙怡, 梁楚进*,
董昌明, 刘正礼. (2013). 南海海面风、浪场时空变化特征及其关系分析. 海洋学研究, 31(4), 1-9.
34Dickey T.*, Banner M. L., ..., Dong C., et al. (2012). Introduction to special section on recent advances in the study of optical variability in the near-surface and upper ocean. Journal of Geophysical Research Oceans, 117(C7), 50-60.
33Dong C.*, Lin X., Liu Y., Nencioli F., Chao Y., Guan Y., et al. (2012). Three-dimensional oceanic eddy analysis in the Southern California Bight from a numerical product. Journal of Geophysical Research Oceans, doi:10.1029/2011JC007354. 117, C00H14,
32Liu Y., Dong C., Guan Y.*, Chen D., Mcwilliams J., Nencioli F. (2012). Eddy analysis in the subtropical zonal band of the North Pacific Ocean. Deep-Sea Research Part I, 68(5), 54-67.
31Dong C.*, Liu Y., Lumpkin R., Lankhorst M., Chen D., McWilliams J., Guan Y. (2011). A scheme to identify loops from trajectories of ocean surface drifters: An Application in the Kuroshio Extension Region. Journal of Atmospheric and Oceanic Technology, 28, doi:10.1175/JTECH-D-10-050
30Dong C.*, Mcwilliams J. C., Hall A., Hughes M. (2011). Numerical simulation of a synoptic event in the Southern California Bight. Journal of Geophysical Research Oceans, 116, C05018, doi:10.1029/2010JC006578.
29Dong C.*, Nencioli F., Liu Y., Mcwilliams J. C. (2011). An automated approach to detect oceanic eddies from satellite remotely sensed sea surface temperature data. IEEE Geoscience & Remote Sensing Letters,8(6), 1055-1059.
28Watson J. R.*, Hays C. G., Raimondi P. T., Mitarai S., Dong C., Mcwilliams J.C., et al. (2011). Currents connecting communities: nearshore community similarity and ocean circulation. Ecology, 92(6), 1193-1200.
27Lazar A.*, Stegner A., Caldeira R., Pennel R., Dong C., Didelle H., Viboud S., (2010). Vortex Assymetry in Island Wakes. Hydralab III Joint User Meeting.
26Nencioli F.*, Dong C., Dickey T., Washburn L., Mcwilliams J. C. (2010). A vector geometry-based eddy detection algorithm and its application to a high-resolution numerical model product and high-frequency California Bight. Journal of Atmospheric & Oceanic Technology, 27(3), 564. radar surface velocities in the Southern
25Watson J. R.*, Mitarai S., Siegel D. A., Caselle J. E., Dong C., Mcwilliams J. C.(2010). Realized and potential larval connectivity in the Southern California Bight. Marine Ecology Progress, 401(6), 31-48.
24Dong C.*, Idica E. Y., Mcwilliams J. C. (2009). Circulation and multiple-scale variability in the southern california bight. Progress in Oceanography, 82(3), 168-19
23Dong C.*, Mavor T., Nencioli F., Jiang S., Uchiyama Y., McWilliams J., Dickey T., Ondrusek M., Dennis D., Zhang H. (2009). An ocean cyclonic eddy on lee side of Lanai Island, Hawaii, Journal of Geophysical Research Oceans, 114, C10008, doi:10.1029/2009JC005346.
22Jin X.*, Dong C., McWilliams J., Kurian J., Chelton D., Li Z. (2009). SST-Wind Interaction in coastal upwelling: oceanic simulation with empirical coupling, Journal of Physical Oceanography, 39, 2957-2970, doi: 10.1175/2009JPO4205.1.
21Mitarai S.*, Siegel D. A., Watson J. R., Dong C., Mcwilliams J. C. (2009). Quantifying connectivity in the coastal ocean with application to the Southern California Bight. Journal of Geophysical Research Oceans, 114, C10026, doi:10.1029/2008JC005166.
20Sangra P.*, Pascual A., ..., Dong C., et al. (2009). The Canary Eddy Corridor: A major pathway for long-lived eddies in the subtropical North Atlantic. Deep Sea Research Part I   Oceanographic Research Papers, 56(12), 2100-2114.
19Wang X., Chao Y*., Dong C., Farrara J., Li Z., Mcwilliams J. C., et al. (2009). Modeling tides in monterey bay, California. Deep-Sea Research Part II, 56(3), 219-231
18Blaas M., Dong C., Marchesiello P., Mcwilliams J.*, Stolzenbach K. (2007). Sediment-transport modeling on Southern Californian shelves: A ROMS case study. Continental Shelf Research, 27(6), 832-853.
17Dong C.*, Mcwilliams J. C., Shchepetkin A. F. (2007). Island wakes in deep water. Journal of Physical Oceanography, 37(4), 962-981.
16Dong C.*, Mcwilliams J. C. (2007). A numerical study of island wakes in the Southern California Bight. Continental Shelf Research, 27(9), 1233-1248.
15Dong C., Oey L. Y.* (2005). Sensitivity of coastal currents near point conception to forcing by three different winds: ECMWF, COAMPS, and Blended SSM/I ECMWF Buoy Winds. Journal of Physical Oceanography,35(7), 1229-1244.
14Dong C.*, Houghton, R., Ou, H. W., Chen, D., Ezer, T. (2004). Numerical study of the diapycnal flow through a tidal front with passive tracers. Journal of Geophysical Research Oceans, 109, C05029, doi:10.1029/2003JC001969.
13Dong C.*, Ou H. W., Chen D., Visbeck M. (2004). Tidal induced cross-frontal circulation: Analytical Study, Journal of Physical Oceanography, 34, 293-305.
12Li X.*, Dong C., Clemente-Colon P., Pichel W., Friedman K. (2004). Synthetic aperture radar observation of the sea surface imprints of upstream atmospheric solitons generated by flow impeded by an island, Journal of Physical Oceanography, 109, C02016, doi: 1029/2003/JC002168.
11Ou H. W.*, Dong C., Chen D. (2003). Tidal diffusivity: A mechanism for frontogenesis. Journal of Physical Oceanography, 33(4), 840-847.
10Chen D.*, Ou H. W., Dong C. (2001). A model study of internal tides in coastal frontal zone. Journal of Physical Oceanography, 33(1), 170-187.
9Ou H. W.*, Dong C., Chen D. (2000). On the tide-induced property flux: Can it be locally counter gradient? Journal of Physical Oceanography., 30, 1472-1477.
8Dong C., Yuan Y., Zhang Q. (1997). Study on the fluid dynamical mechanism for the formation of tidal current sand ridges in shelf seas. Oceanologia et Linmologia Sinica, 28(supplement):199-204.
董昌
明, 袁业立, 张庆华. (1997). 浅海潮流沙脊的流体动力学成因. 海洋与湖沼, 28: 58-65.
7Dong C.*, Yuan Y., Zhang Q.(1997). Cascade theoretical model of turbulence secondary flows. Oceanologia et Linmologia Sinica, 28(supplement):199-204.
董昌明
*, 袁业立, 张庆华. (1997). 湍次级流动的级串理论模型. 海洋与湖泊, 28: 199-204.
6Dong C.*, Chen S., Zhang Q., Yuan Y. (1996). On multiple solutions to a low-spectrum model of oceanic current driven by the boundary force-the bimodality of the kuroshio  south of Japan. Chinese Journal of Oceanology and Limnology, 14(2), 113-120, doi:10.1007/BF028
5Dong C.*, Yuan Y. (1996). Theoretical Basis of Satellite Altimeter-derived Sea Surface Height Temporal Anomaly Inversion for Mean Fields. Avta Oceanologica Sinica, 18(3):53-57.
董昌明*
, 袁业立. (1996). 卫星高度计海面高度时间距平场反演平均场的理论基础. 海洋学报, 18(3), 53-57.
4Dong C.*, Zhang Q. (1995). On further application of the thin-jet model into the bimodality of Kuroshio. Oceanologia et Linmologia Sinica, 26(5): 567-569.
董昌明
*, 张庆华. (1995). 窄急流模式在黑潮双流态中应用的进一步研究. 海洋与湖泊, 26(5), 566-569.
3Dong C.*, Zhang Q. (1995). Dynamical Characteristics of the bimodality of Kuroshio. Avta Oceanologica Sinica. 17(1):130-136.
董昌明
*, 张庆华. (1995). 黑潮双流态特征的动力学研究. 海洋学报, 17(1): 130-136.
2Dong C.*, Yuan Y. (1994). Advances in the Research on the Dynamics of Circulation in the Southern Ocean. Journal of Oceanography of Huanghai & Bohai Seas, 12(4):34-38.
董昌明
*, 袁业立. (1994). 南大洋环流动力学研究动态. 黄渤海海洋, 12(4):34-38.
1Zhang Q.*, Dong C. (1993). On the Corelation of the Diluted Water of Yangzi River and Ecological Environment of Its Adjacent Oceanic Area. Advances in Marine Science, 3: 27-29.
张庆华*
, 董昌明. (1993). 长江冲淡水与邻近海域生态环境的关系[J]. 海洋科学进展, 3, 27-29.


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