OFES (OGCM for the Earth Simulator) < OFES < Application Laboratory < JAMSTEC

Publications using the OFES data

  1. Sun, W., Y. Wang, M. Xie, Y. Pan, C. Li, J. Ji, Y. Yu, K. T. Choy, L. K. Sian, and C. Dong, 2026: Exploring the connection of marine heatwaves and mesoscale eddies in the South China Sea. J. Ocean. Limnol, online available.
  2. Chen, Y., F. Zhai, P. Li, Y. Gu, C. Liu, X. Wang, B. Yu, and J. Yan, 2026: Physical causes of significant spring marine heatwaves in the Yellow and East China Seas during 1982–2018. J. Geophys. Res. Oceans, 131 (3), e2026JC024059.
  3. da Silva Salimene, L., J. L. L. de Azevedo, L. R. de Oliveira, and A. L. Brum, 2026: Seasonal variability of eddy kinetic energy in the Brazil current, South Brazil Bight. Deep Sea Res. I, Oceanogra. Res. Papers, 227, 104645.
  4. Duan, L., J. Song, M. Yin, X. Wang, C. Liu, J. Kan, Z. Wang, F. Zhao, X. Li, and H. Yuan, 2026: A bacteriohopanetetrol stereoisomer in Western Pacific oxycline indicates anammox-driven nitrogen loss and warm eddy dynamics. Geochimica et Cosmochimica Acta., 416, 265–278.
  5. Liu, J., X. Li, T. Long, and M Wang, 2026: Decadal shifts in the modulation of ENSO on the Indian ocean basin mode. Terr Atmos Ocean Sci, 37, 7.
  6. Liu, Q. Y., M. Feng, H. Huang, D. Wang, W. Wang, Y. Masumoto, A. Schiller, and J. Chen, 2026: Eddy-current interaction in the Leeuwin current off the Southwest Coast of Australia. Clim. Dyn., 64 (2), 47.
  7. Matthews, S. A., K. Kaminsky, A. E. Cazares-Nuesser, J. M. Questel, L. Blanco-Bercial, J. Hirai, and M. D. Ohman, 2026: Influences of dispersal and environmental selection on zooplankton distributions across the upper 1000 m of the North Pacific. J. Biogeogra. , 53 (1), e70115.
  8. Prochko, T., and Y. Masumoto, 2026: Influences of meso-scale and submeso-scale variability on simulated subtropical mode water formation: comparing two different grid-resolutions. J. Oceanogra., 82 (1), 89–108.
  9. Usui, K., T. Tozuka, and M. F. Cronin, 2026: Importance of geostrophic shear on eddy-induced Ekman pumping: Verification by mesoscale eddies in the Kuroshio Extension region. J. Phys. Oceanogr., 56 (6), e250105.
  10. Wang, Z., and C. Liu, 2026: Subsurface eddies transited from surface eddies over non-parallel background Isopycnals. J. Phys. Oceanogr. , 56 (6), e250232.
  11. Zhang, J., Z. Zhang, H. Sasaki, Z. Jing, W. Zhao, and J. Tian, 2026: Seasonal variations and associated modulation mechanism of submesoscale processes in the western south China sea. Prog. Oceanogra., 245, 103744.
  12. Amri, F., I.P. Anwar, A.M. Rizal, R.B. Hatmaja, A. Eladawy, A.R. Kartadikeria, and T. Nakamura, 2025: The crucial role of strengthened heat transport through Halmahera Sea in eastern Indonesian seas heat buildup during 2020–2022 anomalous climatic events. Ocean Dyn. , 75 (8), 68.
  13. Bahiyah, A., Y. Masumoto, A. Wirasatriya, W. Mardiansyah, and I. Iskandar, 2025: Freshwater variability in the southern part of the Indonesian Maritime Continent during Indo-Pacific climate anomalies, revealed by high-resolution OGCM. J. Geophys. Res. Oceans, 130 (5), e2024JC021654.
  14. Hu, Y., X. Guo, Y. Sasai, E. Tsutsumi, A. Nishina, H. Nakamura, D. Hasegawa, and T. Matsuno, 2025: Nutrient supply to the euphotic layer by the advection and vertical mixing over the Kuroshio and Kuroshio Extension. Prog. Oceanogra., 237, 103544.
  15. Hu, Z., Z. Liu, X. Liu, T. Masuda, T. Shiozaki, Y. Yamada, H. Lin, B. Huang, K. Furuya, 2025: Nutrient dynamics modulated by diapycnal mixing and particle sinking pathways within an intrathermocline eddy in the tropical western North Pacific. Geophys. Res. Lett., , 52 , e2024GL113616.
  16. Hui, Y., L. Zhang, H. Sasaki, F. Wang, and D. Hu, 2025: Spatiotemporal features and generation mechanisms of submesoscale processes in the low-latitude western Pacific Ocean. J. Phys. Oceanogr., 55 (7), 815–829.
  17. Jiang, K., Y. Wang, Y. Sun, and J. Lan, 2025: The role of Luzon Strait transport in shallow meridional overturning circulation of South China Sea. Acta Oceanol. Sin. , 44 , 28–35.
  18. Koike, K., T. Tozuka, and Y. Sasai, 2025: How important is the damping effect of phytoplankton on ENSO?. Env. Res. Lett., 20 (11), 114094.
  19. Liang, W., S. Ding, K. Wang, S.-M. Long, Q. Liu, Y. Jin, and L. Xu, 2025: The weakening and poleward migration of the Southeastern Front associated with the South Indian Countercurrent from 1980 to 2023. J. Geophys. Res. Oceans, 130 (2), e2024JC021961.
  20. Liu, QY., and J. Shang, 2025: Modulating the ENSO—Indonesian throughflow relationship: a PDO footprint. Ocean Dyn. , 75 (12), 108.
  21. Matsuta, T., H. Mitsudera, T. Miyama, and H. Tomita, 2025:. Kuroshio surface water intrusion into the eastern part of the transition domain: its pathways and decadal variations. J. Oceanogr., 81 (5), 393–412.
  22. Nagura, M., and M. J. McPhaden, 2025: Bimonthly variability in zonal velocity at mid-depths of the equatorial Indian Ocean. J. Phys. Oceano., 55 (7), 865–881.
  23. Ogata, T., H. Aiki, F. Kobashi, and Y. Sasai, 2025: Nutrient and phytoplankton variability in the tropical and subtropical western North Pacific simulated using OFES2. J. Oceanogr., 81 (6), 515–534.
  24. Oke, P. R., T. Rykova, 2025: A data-driven approach to mesoscale ocean forecasting. Front. Mar. Sci., 12, 1729116.
  25. Peng, S., J. Callies, M. Nagura, and M. J. Mcphaden, 2025: Yanai waves in the deep East Indian Ocean observed with seismic ocean tomography. J. Phys. Oceano., 55 (4), 471–488.
  26. Sasaki, H., K. Kutsuwada, M. Nonaka, Y. Sasai, and T. Miyama, 2025: High sensitivity of sea surface temperature in the northwestern Pacific to atmospheric wind in the mid-latitude North Pacific in an eddying ocean model. J. Oceanogr., 81 (6), 463–484.
  27. Shu, Y., X. Lu, R. Xia, Q. Peng, and D. Wang, 2025: Heaving induced by PDO driving abyssal water decadal variability in the Eastern Philippine Sea. Geophys. Res. Lett., , 52 , e2025GL116364.
  28. Srinivas, G., C. Goyal, S. Mohan, S. G. Aparna, and J. S. Chowdary, 2026: Decadal variability and forcing mechanisms of the tropical Indian Ocean wind-driven circulation. Clim. Dyn., 64, 157.
  29. Wang, S., X. Guo, S. Kido, Y.-X. Qiao, and H. Sasaki, 2025: Revisiting the Kuroshio frontal eddies in the East China Sea: Insights from the eddy energy budget. J. Geophys. Res. Oceans, 130 (10), e2025JC022428.
  30. Wang, Y., Y. Luo, T. Qu, and X. Wang, 2025: A seesaw in the South Pacific western and eastern subtropical mode waters. Environ. Res. Lett., 20 (1), 014004.
  31. Wu, Y., G. Zhou, and S. Hu, S, 2025: Intensification of decadal variability in sea surface salinity in the western tropical Pacific. Geophys. Res. Lett., 52 (5), e2024GL113453.
  32. Xie, B., H. Sun, T. Liu, W. Jin, F. Lin, L. Meng, and Y. Wang. 2025: Formation of record-breaking 2015/2016 winter marine heatwave in the northwest South China Sea. Front. Mar. Sci., 12 , 1671389.
  33. Xu, L., J. Liu, Y. Ding, H. Sasaki, H. Cao, J. Dong, and L. Xing, 2025: Submesoscale effects on formation of the North Pacific Subtropical Mode Water. J. Phys. Oceanogr., 55 (5), 559–572.
  34. Zhai, F., H. Li, Y. Ma, Y. Wang, Y. Dong, Z. Liu, Y. Gu, and P. Li, 2025: The poleward expansion of the Hadley Cell has weakened the winter circulation in a midlatitude semi-enclosed shelf sea over the past six decades. Clim. Dyn., 63, 299.
  35. Arumí-Planas, C., S. Dong, R. Perez, M. J. Harrison, R. Farneti, and A. Hernández-Guerra, 2024: A multi-data set analysis of the freshwater transport by the Atlantic meridional overturning circulation at nominally 34.5°S. J. Geophys. Res. Oceans, 129 (6), e2023JC020558.
  36. Chen, X., J. Gan, C. Hui, and J. C. McWilliams, 2024, Parameterization of the vertical mixing for the Luzon Undercurrent in the northern western Pacific Ocean. J. Geophys. Res. Oceans, 129 (11), e2024JC021378.
  37. Gong H, F. Wang, F. Liu, L. Zhang, and D. Hu,2024: Vertical distribution of intraseasonal variation signals in the Kuroshio Current source area during 2018–2020. Front. Mar. Sci., 11, 1303565.
  38. Jing, W., Y. Luo, and R.H. Zhang, 2024: Low-frequency variability of upper-ocean temperature in the Central Pacific Subantarctic Mode Water formation region since the 1980s. Clim. Dyn., 62, 1–14.
  39. Hui, Y., L. Zhang, X. Yan, M. Li, F. Wang, and D. Hu, 2024: Energetics of eddy-mean flow interactions in the western tropical Pacific Ocean. Deep Sea Res. I: Oceanogra. Res. Papers, 208, 104294.
  40. Li, J., P. Bai, F. Zhai, Y. Gu, P. Li, C. Liu, and C. Yan, 2024: Decadal variation in winter-spring thermal front to the Zhejiang-Fujian coast and its mechanism. J. Geophys. Res. Oceans, 129 (6), e2023JC020671.
  41. Li, H., F. Zhai, Y. Dong, Z. Liu, Y. Gu, and P. Bai, 2024: Interannual-decadal variations in the Yellow Sea cold water mass in summer during 1958–2016 using an eddy-resolving hindcast simulation based on OFES2. Continental Shelf Res. , 257, 105223.
  42. Liu, X., H. Zhou, H. Liu, and W Yang, 2024: Characteristics and dynamics of the interannual eddy kinetic energy variation in the Western Equatorial Pacific Ocean. Prog. Oceanogra., 229, 103358.
  43. Lu, X., S. Hu, and J. Sprintall, 2024: The role of precipitation and salinity effect in multi-decadal changes and long-term trends of the Indonesian Throughflow. J. Climate , 37 (4), 1317–1331.
  44. Luo, Z., D. Yang, L. Xu, Y. Li, H. Zhang, J. Wang, and B. Yin, 2024: Baroclinic Rossby waves with phase lag cause seasonal upward-propagating signals in the mid-depth equatorial Pacific Ocean. J. Geophys. Res. Oceans, 129 (5), e2023JC020418.
  45. Matsuta, T., H. Mitsudera, Y. Masumoto, H. Sasaki, R. Furue, and T. Ogata, 2024: Enhanced eddy activity along the Subantarctic Front under intensified westerly winds. Ocean Dyn. , 74, 967–986.
  46. Meng, L., Y. Yan, L. Zhang, W. Xing, Y. Yu, and X. Xing, 2024: Characteristics and mechanism of winter marine heatwaves in the cold tongue region of the South China Sea. Front. Mar. Sci., 11, 1362805.
  47. Nagura, M., and M. J. McPhaden, 2024: Mixed Rossby gravity waves at mid-depths of the equatorial Indian Ocean. J. Phys. Oceanogr., 54 (8), 1787–1805.
  48. Ni ,X., Y. Qiu, W. Lin, T. Liu, and X. Lin. 2024: A study of the mixed layer warming induced by the barrier layer in the northern bay of Bengal in 2013. Remote Sens., 16 (19), 3742.
  49. Qian, X., L. Zhou, and J. Qin, 2024: Impact of horizontal resolution on simulating eddy-induced meridional heat transport in the southeast Indian Ocean. J. Geophys. Res. Oceans, 129 (12), e2024JC021554.
  50. Song, J., P. J. Klotzbach, Y. Dai, and Y. Duan, 2024: A Slowdown in translation speed of western North Pacific tropical cyclones undergoing rapid intensification. Geophys. Res. Lett., , 51 (18), e2024GL110220.
  51. Wang, M., SP. Xie, H. Sasaki, M. Nonaka, and Y. Du, 2024: Intensification of Pacific tropical instability waves over the recent three decades. Nat. Clim. Chang. , 14 (2), 163–170.
  52. Wang, Z., L. Zhang, L. Mu, Y. Hui, W. Song, W. Li, and D. Hu, 2024: Two types of intraseasonal variability with a vertical difference in the currents east of Luzon Island and their sources. J. Geophys. Res. Oceans, 129 (11), e2024JC021206.
  53. Wen, J., Z. Zhou, Y. Zhang, W. Yu, B. Chen, and X. Chen, 2024: Climate-related habitat variations of Humboldt squid in the eastern equatorial Pacific Ocean., J. Mar. Sys., 243, 103960.
  54. Xu J, Y. Yan, L. Zhang, W. Xing, L. Meng, Y. Yu, and C. Chen, 2024: Long-term trends and extreme events of marine heatwaves in the Eastern China Marginal Seas during summer. Front. Mar. Sci., 11, 1380963.
  55. Zhang, N., J. Lan, Y. Yu, Y. Zhang, and Y. He, 2024: Seasonal variations in eddy-induced atmospheric perturbations in the South China Sea. J. Climate , 37, 551– 567.
  56. Zhang, L., W. Song, Y. Hui, Z. Wang, and D. Hu, 2024: Subsurface eddies east of the Philippines: Geographic characteristics, vertical structures, volume and thermohaline transport. Prog. Oceanogra., 222, 103228.
  57. Zhang, Z., J. Wang, and F. Wang, F, 2024: A new subsurface precursor across the spring predictability barrier for the ENSO prediction. Deep Sea Res. I: Oceanogra. Res. Papers , 203, 104213.
  58. Zhong, W., G. Chen, and X. Chu, 2024: An eddy pair in the northwestern Bay of Bengal: Characteristics, dynamics and interannual variability. J. Geophys. Res. Oceans, 129 (2), e2023JC020383.
  59. Zhou H., L. Yu, J. Qin, X. Cheng, M. Chen, C. Dong, 2024: Study on the interannual variability of the Kerama Gap transport and its relation to the Kuroshio/Ryukyu Current system. Acta Oceanol. Sin., 43 (3), 1–14.
  60. Zhu, Q., and C. Wang, 2024: Contributions of Indo-Pacific forcings to interannual variability of the Indonesian Throughflow in the upper and lower layers. J. Geophys. Res. Oceans, 129 (1), e2023JC020306.
  61. Guo, H., Z. Chen, H. Yang, Y. Long, R. Zhu, Y. Zhang, Z. Jing, and C. Yang, 2023: Estimating the volume transport of Kuroshio Extension based on satellite altimetry and hydrographic data. J. Atmos. Oceanic Technol., 40, 1105–1118.
  62. Iskandar, M. R., Y. Jia, H. Sasaki, R. Furue, S. Kida, T. Suga, K. J. Richards, 2023: Effects of high-frequency flow variability on the pathways of the Indonesian Throughflow. J. Geophys. Res. Oceans, 128 (5), e2022JC019610.
  63. Jiang, K., Y. Wang, Y. Sun, and J. Lan, 2023: The seasonal variation of shallow meridional overturning circulation in the South China Sea and the related dynamics. Ocean Modell. , 186 , 102242.
  64. Jing, W., Y. Luo, Y. Wang, L. Xu, and D. Wu ,2023: Changes of upper-ocean temperature in the Southeast Indian Subantarctic Mode Water formation region since the 1950s. Clim. Dyn., 61, 2503–2519.
  65. Kun, Z., W. Qiang, Y. Baoshu, Y. Dezhou, and Y. Lina, 2023: Contribution of deep vertical velocity to deficiency of Sverdrup transport in the low-latitude North Pacific. J. Phys. Oceanogr., 53 (11), 2651–2668.
  66. Li A., Y. Zhang, M. Hong, J. Shi, and J. Wang, 2023: Relative importance of ENSO and IOD on interannual variability of Indonesian Throughflow transport. Front. Mar. Sci., 10, 1182255.
  67. Li, W., Q. Liu, W. Fang, T. Zu, and H. Chen, 2023: Interannual variability of eddy kinetic energy in the South China Sea related to two types of winter circulation events. J. Ocean. Limnol., 41, 831–851.
  68. Liu Y, Q. Ren, F. Yu, C. Wei, X. Diao, and F. Nan F, 2023; The vertical structure and variability of currents east of Philippines from mooring measurements during the 2015/2016 El Niño. Front. Mar. Sci., 10, 1113525.
  69. Matsuta, T., and Y. Masumoto, 2023: Energetics of the Antarctic Circumpolar Current. Part I: The Lorenz energy cycle and the vertical energy redistribution. J. Phys. Oceanogr. , 53 (6), 1467–1484.
  70. Nagura, M., and M. J. McPhaden, 2023: Dual frequency wind-driven mixed Rossby gravity waves in the equatorial Indian Ocean. J. Phys. Oceanogr., 53 (6), 1535–1553.
  71. Periáñez, R., U. Abascal-Ruíz, J. M. López-Gutiérrez, and M. Villa-Alfageme, 2023: Sediments as sinks and sources of marine radionuclides: Implications for their use as ocean tracers. Mar. Pollut. Bull., 194, 115316.
  72. Sekizawa, S., H. Nakamura, and Y. Kosaka, 2023: Interannual variability of the Australian summer monsoon sustained through internal processes: wind–evaporation feedback, dynamical air–sea interaction, and soil moisture memory. J. Climate, 36 (3), 983–1000.
  73. Su, F., R. Fan, F. Yan, M. Meadows, V. Lyne, P. Hu, X. Song, T. Zhang, Z. Liu, C. Zhou, T. Pei, X. Yang, Y. Du, Z. Wei, F. Wang, Y. Qi, and F. Chai, 2023: Widespread global disparities between modelled and observed mid-depth ocean currents. Nat. Commun., 14 (1), 2089.
  74. Sun W, M. An, J. Liu, J. Liu, J. Yang, W. Tan, KTCLK. Sian, J. Ji, Y. Liu, and C. Dong, 2023 Comparative analysis of four types of mesoscale eddies in the North Pacific Subtropical Countercurrent region - part II seasonal variation. Front. Mar. Sci., 10, 1121731.
  75. Wang, Q., L. Zeng, J. Chen, Y. He, Q. Liu, D. Sui, D. Wang, 2023: Phase shift of the winter South China Sea western boundary current over the past two decades and its drivers. Geophys. Res. Lett., , 50 (10), e2023GL103145.
  76. Wang, R., Q. Ren, F. Nan, and F. Yu, 2023: A relay of anticyclonic eddies transferring North Pacific subtropical mode water into the South China Sea. Front. Mar. Sci., 10, 1106721.
  77. Wang, Y., C. Zhang, S. Tian, Q. Chen, S. Li, J. Zeng, Z. Wei, and S Xie, 2023: Seasonal cycle of marine heatwaves in the northern South China Sea. Clim. Dyn., 61, 3367–3377.
  78. Yan, X., D. Kang, E. N. Curchitser, X. Liu, C. Pang, and L. Zhang, 2023: Seasonal variability of eddy kinetic energy along the Kuroshio Current. J. Phys. Oceanogr., 53 (7), 1731–1752.
  79. Yin, X., D. Yuan, X. Li, Z. Wang, Y. Li, C. Corvianawatie, A. K. Wardana, D. Surinati, A. Purwandana, M. F. A. Ismail, A. S. Budiman, A. Bayhaqi, P. Avianto, E. Kusmanto, P. D. Santoso, and Z. Arifin, 2023: Moored observations of the currents and transports of the Maluku Sea. J. Phys. Oceanogra., 53 (1), 3–18.
  80. Yuan, N., H. Mitsudera, and H. Sasaki, 2023: A study of the simulated climatological January mean upwelling in the northwestern Gulf of Alaska. Ocean Dyn., 73, 729–742.
  81. Zhu, Y., Y. Li, Y. Yang, and F. Wang, 2023: The role of eddy-wind interaction in the eddy kinetic energy budget of the Agulhas retroflection region. Env. Res. Lett. , 18, 104032.
  82. Adeagbo, O.S., Y. Du, T. Wang, and M. Wang, 2022: Eddy–mean flow interactions in the Agulhas leakage region. J. Oceanogr., 78, 151–161.
  83. An M., J. Liu, J. Liu, W. Sun, J. Yang, W. Tan, Y. Liu, KTCLK. Sian, J. Ji, and C. Dong, 2022: Comparative analysis of four types of mesoscale eddies in the north pacific subtropical countercurrent region – part I spatial characteristics. Front. Mar. Sci., 9, 1004300.
  84. Chen, G., W. Han, T. Zu, X. Chu, and J. Chen, 2022: The deep-penetrating South Equatorial Undercurrent in the tropical South Indian Ocean. Geophys. Res. Lett., , 49 (6), e2022GL098163.
  85. Chen, Y., F. Zhai, P. Li, Y. Gu, and K. Wu, 2022: Extreme 2020 summer SSTs in the northern South China Sea: implications for the Beibu Gulf coral bleaching. J. Clim., 35 (13), 4177–4190.
  86. Ding, Y., L. Xu, S.-P., Xie, H. Sasaki, Z. Zhang, H. Cao, and Y. Zhang,2022: Submesoscale frontal instabilities modulate large-scale distribution of the winter deep mixed layer in the Kuroshio-Oyashio Extension. J. Geophys. Res. Oceans, 127 (12), e2022JC018915.
  87. Furue R., 2022: A seasonal undercurrent along the northwest coast of Australia. Front. Mar. Sci., 8, 806659.
  88. Hui, Y., L. Zhang, Z. Wang, F. Wang, and D. Hu, 2022: Interannual modulation of subthermocline eddy kinetic energy east of the Philippines. J. Geophys. Res. Oceans, 127 (5), e2022JC018452.
  89. Li, J., and J. Lan, 2022: Seasonal variation of deep vertical velocity in the South China Sea. Ocean Modell., 172 , 101990.
  90. Liao, F., X. Liang, Y. Li, and M. Spall, 2022: Hidden upwelling systems associated with major western boundary currents. J. Geophys. Res. Oceans, 127 (3), e2021JC017649.
  91. Liao, F., X. H. Wang, and Z. Liu, 2022: Comparison of ocean heat content from two eddy-resolving hindcast simulations with OFES1 and OFES2, Geosci. Model Dev., 15, 1129–1153.
  92. Liu, Y., X, Zhang, Z. Sun, Z. Zhang, H. Sasaki, W. Zhao, and J. Tian, 2022: Region-dependent eddy kinetic energy budget in the northeastern South China Sea revealed by submesoscale-permitting simulations. J. Marine Sys., 235, 103797.
  93. Nagano, A, T. Hasegawa, K. Ariyoshi, and H. Matsumoto, 2022: Interannual bottom-intensified current thickening observed on the continental slope off the southeastern coast of Hokkaido, Japan, Fluids, 7 (2), 84.
  94. Sasai, Y., S. L. Smith, E. Siswanto, H. Sasaki, and M. Nonaka, 2022: Physiological flexibility of phytoplankton impacts modelled chlorophyll and primary production across the North Pacific Ocean , Biogeosciences 19 (20), 4865–4882.
  95. Sasaki, H., B. Qiu, P. Klein, M. Nonaka, and Y. Sasai, 2022: Interannual variations of submesoscale circulations in the subtropical northeastern Pacific. Geophys. Res. Lett., 49 (7), e2021GL097664.
  96. Sun W., M. An, J. Liu, J. Liu, J. Yang, W. Tan, C. Dong, and Y. Liu, 2022: Comparative analysis of four types of mesoscale eddies in the Kuroshio-Oyashio extension region. Front. Mar. Sci., 9, 984244.
  97. Tozuka, T., Y. Sasai, S. Yasunaka, H. Sasaki, and M. Nonaka, 2022: Simulated decadal variations of surface and subsurface phytoplankton in the upstream Kuroshio Extension region. Prog. Earth. Planet Sci., 9, 70.
  98. Wang, R., F. Nan, F. Yu, and B. Wang, 2022: Impingement of subsurface anticyclonic eddies on the Kuroshio mainstream east of Taiwan. J. Geophys. Res. Oceans, 127 (11), e2022JC018950.
  99. Wang, Q., B. Zhang, L. Zeng, Y. He, Z. Wu, and J. Chen, 2022: Properties and drivers of marine heatwaves in the northern South China Sea, J. Phys. Oceanogra., 52 (5), 917–927.
  100. Wang, Z, L. Zhang, Y. Hui, F. Wang, and D. Hu D, 2022: Two flavors of intraseasonal variability and their dynamics in the North Equatorial Current/Undercurrent region. Front. Mar. Sci., 9, 845575.
  101. Wu, J., L. Zhang, F. Wang, F., C. Kaluwin, and D. Hu, 2022: Currents off the Papua New Guinea coast during and after the El Niño of 2015–2016. J. Geophys. Res. Oceans, 127 (12), e2022JC018760.
  102. Xia, Y., and Y. Du, 2022: Mid-depth zonal velocity in the southern tropical Indian Ocean: striation-like structures and their dynamics. J. Phys. Oceanogra., 52 (11), 2825–2840.
  103. Xu, L., K. Wang, and B. Wu, 2022: Weakening and poleward shifting of the North Pacific subtropical fronts from 1980 to 2018, J. Phys. Oceanogra., 52(3), 399–417.
  104. Yan, X., D. Kang, C. Pang, L. Zhang, and H. Liu, 2022: Energetics analysis of the eddy–Kuroshio interaction east of Taiwan. J. Phys. Oceanogra., 52(4), 647–664.
  105. Yang, H., R. Zhu, Z. Chen, J. Li, and L. Wu, 2022: Temperature variability and eddy-flow interaction in the south of Oyashio Extension. J. Geophys. Res. Oceans, 127 (11), e2022JC019051.
  106. Yuan, D., X, Yin, X. Li, C. Corvianawatie, Z. Wang, Z., Y. Li, Y. Yang, X. Hu, J. Wang, S. Tan, D. Surinati, A. Purwandana, A. K. Wardana, M. F. A. Ismail, A. S. Budiman, A. Bayhaqi, P. Avianto, P. D. Santoso, E. Kusmanto, Dirhamsyah, Z. Arifin , and L. J. Pratt, 2022: A Maluku Sea intermediate western boundary current connecting Pacific Ocean circulation to the Indonesian Throughflow., Nat. Commun., 13(1), 2093.
  107. Biló, T. C., W. E. Johns, and J. Zhao, 2021: Dynamics of deep recirculation cells offshore of the deep western boundary current in the subtropical North Atlantic (15°–30°N). J. Phys. Oceanogra., 51 (1), 131–145.
  108. Dobashi, R., H. Ueno, Y. Okada, T. Tanaka, J. Nishioka, T. Hirawake, A. Ooki, S. Itoh, D. Hasegawa, Y. Sasai, H. Sasaki, and I. Yasuda, 2021: Observations of anticyclonic eddies in the western subarctic North Pacific. J. Oceanogr., 77 (2), 229–242.
  109. Duan, J., Y. Li, F. Wang, A. Hu, W. Han, L. Zhang, P. Lin, N. Rosenbloom, and G. A. Meehl, 2021: Rapid sea level rise in the southern hemisphere subtropical oceans. J. Clim., 34 (23), 9401–9423.
  110. Furue, R., M. Nonaka, and H. Sasaki, 2021: On the statistics of the zonal jets in the eastern equatorial Pacific and eastern North Pacific in an ensemble of eddy-resolving ocean general circulation model runs. Ocean Modell., 159, 101761.
  111. Hosoda, S., R. Inoue, M. Nonaka, H. Sasaki, Y. Sasai, and M. Hirano 2021: Rapid water parcel transport across the Kuroshio Extension in the lower thermocline from dissolved oxygen measurements by Seaglider. Prog. Earth Planet Sci., 8, 16.
  112. Hu, S., X. Lu, S. Li, F. Wang, C. Guan, D. Hu, L. Xin, and J. Ma, 2021: Multi-decadal trends in the tropical Pacific western boundary currents retrieved from historical hydrological observations. Sci. China Earth Sci., 64 (2).
  113. Huang, H., D. Wang, L. Yang, and K. Huang, 2021: Enhanced intraseasonal variability of the upper layers in the southern Bay of Bengal during the summer 2016. J. Geophys. Res. Oceans, 126 (7), e2021JC017459.
  114. Jing, W., and Y. Luo, 2021: Volume budget of Subantarctic Mode Water in the Southern Ocean from an ocean general circulation model. J. Geophys. Res. Oceans, 126 (10), e2020JC017040.
  115. Kido, S., M. Nonaka, and Y. Tanimoto, 2021: Sea surface temperature–salinity covariability and its scale-dependent characteristics. Geophys. Res. Lett., , 48 (24), e2021GL096010.
  116. Li, Z., H. Aiki, M. Nagura, and T. Ogata, 2021: The vertical structure of annual wave energy flux in the tropical Indian Ocean. Prog. Earth Planet Sci., 8, 43.
  117. Liu, L., H. Xue, and H. Sasaki, 2021: Diagnosing subsurface vertical velocities from high-resolution sea surface fields. J. Phys. Oceanogra., 51 (5), 1353–1373.
  118. Liu, H, Z. Wei, I. Richter, X. Nie, and C. Li, 2021: Influence of salinity and temperature gradients on the variability of the North Brazil Undercurrent. Front. Mar. Sci., 8, 744833.
  119. Matsumoto, K., Y. Sasai, K. Sasaoka, E. Siswanto, and M. C. Honda, 2021: The formation of subtropical phytoplankton blooms is dictated by water column stability during winter and spring in the oligotrophic northwestern North Pacific. J. Geophys. Res. Oceans, 126 (4), e2020JC016864.
  120. Matsuta, T., and Y. Masumoto, 2021: Modified view of energy budget diagram and its application to the Kuroshio extension region. J. Phys. Oceanogra., 51 (4), 1163–1175.
  121. Nagura, M., 2021: Spiciness anomalies of subantarctic mode water in the South Indian Ocean. J. Clim., 34 (10), 3927–3953.
  122. Nakamura, H., R. Inoue, A. Nishina, and T. Nakano, 2021: Seasonal variations in salinity of the North Pacific Intermediate Water and vertical mixing intensity over the Okinawa Trough. J. Oceanogr., 77 (2), 199–213.
  123. Shu, HW., H. Mitsudera, K. Yamazaki, T. Nakamura, T. Kawasaki, T. Nakanowatari, H. Nishikawa, and H. Sasaki, 2021: Tidally modified western boundary current drives interbasin exchange between the Sea of Okhotsk and the North Pacific. Sci. Rep., 11, 12037.
  124. Wang, X., X. Cheng, X. Liu, and D. Chen, 2021: Dynamics of eddy generation in the southeast tropical Indian Ocean. J. Geophys. Res. Oceans, 126 (3), e2020JC016858.
  125. Wang, R., Y. Hou, and Z. Liu, 2021: Energy sources generation and energy cascades along the Kuroshio east of Taiwan Island and the East China Sea. J. Mar. Sci. Eng., 9, 692.
  126. Wang, Q., Y. Wang, J. Sui, W. Zhou, and D. Li, 2021: Effects of weak and strong winter currents on the thermal state of the South China Sea. J. Climate, 34 (1), 313–325.
  127. Wang, Q., X. Yuan, D. Hu, and H. Sasaki, 2021: Stronger intraseasonal variability observed below the seasonal thermocline in the Kuroshio east of Taiwan during 2014 and 2015. J. Geophys. Res. Oceans, 126 (7), e2021JC017194.
  128. Wu, X., G. Li, W. Jiang, S. M. Long, and B. Lu, 2021: Asymmetric relationship between ENSO and the tropical Indian Ocean summer SST anomalies. J. Clim., 34 (14), 5955–5969.
  129. Xu, L., Y. Ding, and S.-P. Xie, 2021: Buoyancy and Wind driven Changes in Subantarctic Mode Water during 2004‐2019. Geophys. Res. Lett., 48 (8), e2021GL092511.
  130. Yan, H., R. Zhang, H. Wang, S. Bao, J. Chen, and G. Wang, 2021: A SQG-based dynamical-statistical framework to retrieve interior T/S from ocean surface. J. Geophys. Res. Oceans, 126 (10), e2020JC017139.
  131. Yang, Y., X. S. Liang, and H. Sasaki, 2021:Vertical coupling and dynamical source for the intraseasonal variability in the deep Kuroshio Extension. Ocean Dynamics, 71, 1069–1086.
  132. Yu W, J. Wen, X. Chen, and B. Liu, 2021: El Niño–Southern Oscillation impacts on jumbo squid habitat:Implication for fisheries management.Aquatic Conserv: MarFreshw Ecosyst.,31 (8), 2072–2083.
  133. Yu, W., J. Wen, X. Chen, Y. Gong, and B. Liu, 2021: Trans-Pacific multidecadal changes of habitat patterns of two squid species. Fisheries Res., 233, 105762.
  134. Zeng, L., E. P. Chassignet, X. Xu, and D. Wang, 2021: Multi-decadal changes in the South China Sea mixed layer salinity. Clim. Dyn., 57, 435–449.
  135. Zhang, L., Y. Hui, T. Qu, and D. Hu, 2021: Seasonal variability of subthermocline eddy kinetic energy east of the Philippines. J. Phys. Oceanogra., 51 (3), 685–699.
  136. Zhang, J., Z. Zhang, B. Qiu, X. Zhang, H. Sasaki, W. Zhao, and J. Tian,2021: Seasonal modulation of submesoscale kinetic energy in the upper ocean of the northeastern South China Sea. J. Geophys. Res. Oceans, 1 126 (11), e2021JC017695.
  137. Zhang, T., W. Wang, Q. Xie, K. Liu, D. Wang, X. Wu, X. Zhang, K. Xu and W. Yuan, 2021: A new presentation of the Indian Ocean shallow overturning circulation from a vertical perspective. Atmos. Ocean. Sci. Lett., 14 (5).
  138. Bao, S., H. Wang, R. Zhang, H. Yan, and J. Chen, 2020: Spatial and temporal scales of sea surface salinity in the tropical Indian Ocean from SMOS, Aquarius and SMAP. J. Oceanogra., 76 (5), 389–400.
  139. Biló, T. C., and W. E. Johns, 2020: The deep western boundary current and adjacent interior circulation at 24°–30°N: Mean structure and mesoscale variability. J. Phys. Oceanogr., 50 (9), 2735–2758.
  140. Chen, G., W. Han, X. Zhang, L. Liang, H. Xue, K. Huang, Y. He, J. Li, and D. Wang, 2020: Determination of spatiotemporal variability of the Indian Equatorial Intermediate Current. J. Phys. Oceanogr., 50 (11), 3095–3108.
  141. Hellweger, F. L., M. L. Jabbur, C. H. Johnson, E. van Sebille, and H. Sasaki, 2020: Circadian clock helps cyanobacteria manage energy in coastal and high latitude ocean. ISME J., 14 , 560–568.
  142. Kashino, Y., T. Hasegawa, F. Syamusdin, and I. Ueki, 2020: Temperature and salinity variability at intermediate depths in the western equatorial Pacific revealed by TRITON buoy data. J. Oceanogra., 76 (2), 121–139.
  143. Li, M., A. L. Gordon, L. K. Gruenburg, J. Wei, and S. Yang, 2020: Interannual to decadal response of the indonesian throughflow vertical profile to Indo‐Pacific forcing. Geophys. Res. Lett., 47 (11), e2020GL087679.
  144. Li, X., D. Yuan, Z. Wang, Y. Li, C. Corvianawatie, D. Surinati, A. Sandra, A. Bayhaqi, P. Avianto, E. Kusmanto, D. Dirhamsyah, and Z. Arifin, 2020: Moored observations of transport and variability of Halmahera Sea Currents. J. Phys. Oceanogr., 50 (2), 471–488.
  145. Nonaka, M., H. Sasaki, B. Taguchi, and N. Schneider, 2020: Atmospheric-driven and intrinsic interannual-to-decadal variability in the Kuroshio Extension jet and eddy activities. Front. Mar. Sci., 7:547442.
  146. Ogata, T., and M. Nonaka, 2020: Mechanisms of long‐term variability and recent trend of salinity along 137°E. J. Geophys. Res. Oceans, 125 (2), e2019JC015290.
  147. Ren, Q., Y. Li, F. Wang, J. Duan, S. Hu, and F. Wang, 2020: Variability of the Mindanao Current Induced by El Niño Events. J. Phys. Oceanogr., 50 (6), 1753–1772.
  148. Sasaki, H., S. Kida, R. Furue, H. Aiki, N. Komori, Y. Masumoto, T. Miyama, M. Nonaka, Y. Sasai, and B. Taguchi, 2020: A global eddying hindcast ocean simulation with OFES2. Geosci. Model Dev., 13, 3319–3336.
  149. Sasaki, H., B. Qiu, P. Klein, Y. Sasai, and M. Nonaka, 2020: Interannual to decadal variations of submesoscale motions around the North Pacific Subtropical Countercurrent. Fluids, 5 (3), 116.
  150. Turney, C. S. M., R. T. Jones, N. P. McKay, E. van Sebille, Z. A. Thomas, C.-D. Hillenbrand, and C. J. Fogwill, 2020: A global mean sea surface temperature dataset for the Last Interglacial (129–116 ka) and contribution of thermal expansion to sea level change. Earth Syst. Sci. Data, , 12 (4), 3341–3356.
  151. Wang, R., X. Chang, L. Xu, and J. Chen, 2020: Mesoscale eddy effects on the subduction of North Pacific eastern subtropical mode water. J. Geophys. Res. Oceans, 125 (5), e2019JC015641.
  152. Wang, J., K. Mao, and X. Chen, 2020: Assessment of several ocean reanalyzes about North Equatorial Current at 160° E. J. Mar. Sci. Eng., 8 (9), 648.
  153. Wang, Q., W. Zhou, L. Zeng, J. Chen, Y. He, and D. Wang, 2020: Intraseasonal variability of cross-slope flow in the Northern South China Sea. J. Phys. Oceanogr., 50 (7), 2071–2084.
  154. Xia, Y., Y. Du, B. Qiu, X. Cheng, T. Wang, and Q. Xie, 2020: The characteristics of the mid-depth striations in the North Indian Ocean. Deep Sea Res. I: Oceanogra. Res. Papers, 162, 103307.
  155. Xu, A., F. Yu, F. Nan, and Q. Ren, 2020: Characteristics of subsurface mesoscale eddies in the northwestern tropical Pacific Ocean from an eddy-resolving model. J. Ocean. Limnol. 38, 1421–1434.
  156. Yan, H., H. Wang, R. Zhang, J. Chen, S. Bao and G. Wang, 2020: A dynamical‐statistical approach to retrieve the ocean interior structure from surface data: SQG‐mEOF‐R. J. Geophys. Res. Oceans, 125 (2), e2019JC015840.
  157. Yan, Y., F. Chai, H. Xue, and G. Wang, 2020: Record‐breaking sea surface temperatures in the Yellow and East China Seas. J. Geophys. Res. Oceans, 125 (8), e2019JC015883.
  158. Yang, Z. and Y. J. Luo, 2020: Contribution of mesoscale eddies to the subduction and transport of North Pacific Eastern Subtropical Mode Water. J. Ocean Univ. China, 19 (1), 36–46.
  159. Yang, C., X. Chen, X. Cheng, B. Qiu, 2020: Annual versus semi-annual eddy kinetic energy variability in the Celebes Sea. J. Oceanogra., 76 (6), 401–418.
  160. Yano, M., T. Itoh, Y. Tanaka, D. Matsuoka, and F. Araki, 2020: A comparative visualization tool for ocean data analysis based on mode water regions. J. Vis., 23 (2), 313–329.
  161. Zhang, N., G. Liu, Q. Liu, S. Zheng, and W. Perrie, 2020: Spatiotemporal variations of mesoscale eddies in the Southeast Indian Ocean. J. Geophys. Res. Oceans, 125 (8), e2019JC015712.
  162. Zhang, Z., L. J. Pratt, F. Wang, J. Wang, and S. Tan, 2020: Intermediate Intraseasonal Variability in the Western Tropical Pacific Ocean: Meridional Distribution of Equatorial Rossby Waves Influenced by a Tilted Boundary. J. Phys. Oceanogr., 50, (4), 921–933.
  163. Zhang, L., J. Wu, F. Wang, S. Hu, Q. Wang, F. Jia, F. Wang, and D. Hu, 2020:Seasonal and interannual variability of the currents off the new guinea coast from mooring measurements. J. Geophys. Res. Oceans, 125 (12), e2020JC016242.
  164. Zhang, Z., Y. Zhang, B. Qiu, H. Sasaki, Z. Sun, X. Zhang, W. Zhao, and J. Tian, 2020: Spatiotemporal characteristics and generation mechanisms of submesoscale currents in the northeastern South China Sea revealed by numerical simulations. J. Geophys. Res. Oceans, 125 (2), e2019JC015404.
  165. Cetina-Heredia, P., M. Roughan, E. Van Sebille, S. Keating, and G. B. Brassington, 2019: Retention and leakage of water by mesoscale eddies in the East Australian Current system. J. Geophys. Res. Oceans,124 (4), 2485–2500.
  166. Duan, J., Y. Li, F. Wang, and Z. Chen, 2019: Decadal variations of the Mindanao Current during 1960‐2010. J. Geophys. Res. Oceans,124 (4), 2660–2678.
  167. Furue, R., 2019: The three-dimensional structure of the Leeuwin Current System in density coordinates in an eddy-resolving OGCM. Ocean Modell. , 138 , 36–50.
  168. Gonaduwage, L. P., G. Chen, M. J. McPhaden, T. Priyadarshana, K. Huang, and D. Wang, 2019: Meridional and zonal eddy‐induced heat and salt transport in the Bay of Bengal and their seasonal modulation. J. Geophys. Res. Oceans, 124 (11), 8079–8101.
  169. Guan, C., M. J. McPhaden, F. Wang, and S. Hu. 2019: Quantifying the role of oceanic feedbacks on ENSO asymmetry. Geophys. Res. Lett., 46 (4), 2140–2148.
  170. Guo, X., Y. Hu, and Y. Sasai, 2019: Contribution of Kuroshio recirculation to nutrient transport along the Kuroshio south of Japan: An analysis of model results. in Kuroshio Current: Physical, Biogeochemical, and Ecosystem Dynamics, T. Nagai, H. Saito, K. Suzuki, M. Takahashi (eds.), 234 , 127–135.
  171. Jiang, G.‐Q., J. Wei, P. Malanotte‐Rizzoli, M. Li, and A. L. Gordon, 2019: Seasonal and interannual variability of the subsurface velocity profile of the Indonesian Throughflow at Makassar Strait. J. Geophys. Res. Oceans, 124 (12), 9644–9657.
  172. Kersalé, M., R. C. Perez, S. Speich, C. S. Meinen, T. Lamont, M. Le Hénaff, M. A. van den Berg, S. Majumder, I. J. Ansorge, S. Dong, C. Schmid, T. Terre, and S. L. Garzoli, 2019: Shallow and deep eastern boundary currents in the South Atlantic at 34.5°S: mean structure and variability. J. Geophys. Res. Oceans,124 (3), 1634–1659.
  173. Kida, S., K. J. Richards, and H. Sasaki, 2019: The fate of surface freshwater entering the Indonesian Seas. J. Geophys. Res. Oceans, 124 (5), 3245–3262.
  174. Liu L., H. Xue, and H. Sasaki, 2019: Reconstructing the ocean interior from high-resolution sea surface information. J. Phys. Oceanogr., 124 (5), 3228–3245.
  175. Kokubu, Y., E. Rothäusler, J. B. Filippi, E. D. Durieux, and T. Komatsu, 2019: Revealing the deposition of macrophytes transported offshore: Evidence of their long-distance dispersal and seasonal aggregation to the deep sea. Scientific Reports, 9 , 4331.
  176. Kutsuwada, K., A. Kakiuchi, Y. Sasai, H. Sasaki, K. Uehara, and R. Tajima, 2019: Wind-driven North Pacific Tropical Gyre using high-resolution simulation outputs. J. Oceanogra., 75 (1), 81–93.
  177. Lguensat, R., P. H. Viet, M. Sun, G. Chen, T. Fenglin, B. Chapron, and R. Fablet, 2019: Data-driven interpolation of sea level anomalies using analog data assimilation. Remote Sensing , 11 (7), 858.
  178. Liang, L., H. Xue, and Y. Shu, 2019: The Indonesian throughflow and the circulation in the Banda Sea: A modeling study. J. Geophys. Res. Oceans, 124 (5), 3089– 3106.
  179. Matsuoka, D., F. Araki, and H. Sasaki, 2019: Event detection and visualization of ocean eddies simulated by ocean general circulation model. Int. J. Mod. Sim. Sci. Com., 10 (3), 1950018.
  180. Nooteboom, P. D., P. K. Bijl, E. van Sebille, A. S. Heydt, and H. A. Dijkstra, 2019: Transport bias by ocean currents in sedimentary microplankton assemblages: Implications for paleoceanographic reconstructions. Paleoceanography and Paleoclimatology, 34 , 1178– 1194.
  181. Ogata, T., and H. Aiki, 2019: The pathway of intraseasonal wave energy in the tropical Indian Ocean as identified by a seamless diagnostic scheme. SOLA, 15, 262–267.
  182. Oke, P. R., M. Roughan, P. Cetina-Heredia, G. S. Pilo, K. R. Ridgway, T. Rykova, M. R. Archer, R. C. Coleman, C. G. Kerry, C. Rocha, A. Schaeffer, and E. Vitarelli, 2019: Revisiting the circulation of the East Australian Current: its path, separation, and eddy field, Prog. Oceanogra., 176 , 102139.
  183. Porobic, J., E. A. Fulton, C. Parada, S. Frusher, B. Ernst, and P. Manríquez, 2019: The impact of fishing on a highly vulnerable ecosystem, the case of Juan Fernández Ridge ecosystem. PloS one, 14 (2), e0212485.
  184. Sasai,Y., M. C. Honda, E. Siswanto, S. Kato, K. Uehara, H. Sasaki, and M. Nonaka, 2019: Impact of ocean physics on marine ecosystems in the Kuroshio and Kuroshio Extension regions: A high-resolution coupled physical-biological model study. in Kuroshio Current: Physical, Biogeochemical, and Ecosystem Dynamics, T. Nagai, H. Saito, K. Suzuki, M. Takahashi (eds.), 234 , 175–188.
  185. Song, L., Y. Li, C. Liu, F. Wang, and J. Wang, 2020: Observed deep‐reaching signatures of the Madden‐Julian oscillation in the ocean circulation of the western tropical Pacific. Geophys. Res. Lett., 46 (24), 14634–14643.
  186. Tanaka, Y. and T. Hibiya, 2019: Generation mechanism of tropical instability waves in the equatorial Pacific Ocean. J. Phys. Oceanogr., 49 (11), 2901–2915.
  187. Valla, D., A. R. Piola, C. S. Meinen, and E. Campos, 2019: Abyssal transport variations in the southwest South Atlantic: First insights from a long‐term observation array at 34.5°S, Geophys. Res. Lett., 46 (12), 6699–6705.
  188. Wang, Q., F. Wang, J. Feng, S. Hu, L. Zhang, F. Jia, and D. Hu, 2019: The equatorial undercurrent and its origin in the region between Mindanao and New Guinea. J. Geophys. Res. Oceans,124 (4), 2312–2330.
  189. Wang, L., L. Zhou, L. Xie, Q. Zheng, Q. Li, and M. Li, 2019: Seasonal and interannual variability of water mass sources of Indonesian throughflow in the Maluku Sea and the Halmahera Sea. Acta Oceanol. Sin., , 38 (4), 58–71.
  190. Xi, H., Z. Zhang, Y. Lu, and Y. Li, 2019: Mass sea level variation in the South China Sea from GRACE, altimetry and model and the connection with ENSO. Adv. Space Res., 64 (1), 117–128.
  191. Xu, A., F. Yu, and F. Nan, 2019: Study of subsurface eddy properties in northwestern Pacific Ocean based on an eddy-resolving OGCM. Ocean Dyn. , 69 (4), 463–474.
  192. Yamagami, Y., T. Tozuka, and B. Qiu, 2019: Interannual variability of the Natal Pulse, J. Geophys. Res. Oceans, 124 (12), 9258–9276.
  193. Yan, X., D. Kang, E. N. Curchitser, and C. Pang, 2019: Energetics of eddy–mean flow interactions along the western boundary currents in the North Pacific. J. Phys. Oceanogr., 49 (3), 789–810.
  194. Yang, Q., M. Nikurashin, H. Sasaki, H. Sun, and J. Tian, 2019: Dissipation of mesoscale eddies and its contribution to mixing in the northern South China Sea, Scientific Reports, 9 , 556.
  195. Yu, K., H. Liu, Y. Chen, C. Dong, J. Dong, Y. Yan, and D. Wang, 2019: Impacts of the mid-latitude westerlies anomaly on the decadal sea level variability east of China. Climate Dynamics, 9-10 (4), 5985–5998.
  196. Zhang, T., W. Wang, Q. Xie, and L. Chen, 2019: Heat contribution of the Indonesian throughflow to the Indian Ocean. Acta Oceanol. Sin., 38 (4), 72–79.
  197. Chen, G., Y. Li, Q. Xie, and D. Wang, 2018: Origins of eddy kinetic energy in the Bay of Bengal. J. Geophys. Res. Oceans, 123 (3), 2097–2115.
  198. Chi, L., C. L.P. Wolfe, and S. Hameed, 2018: Intercomparison of the Gulf Stream in ocean reanalyses: 1993− 2010. Ocean Modell., 125, 1–21.
  199. Furue, R., K. Takatama, H. Sasaki, N. Schneider, M. Nonaka, and B. Taguchi, 2018: Impacts of sea-surface salinity in an eddy-resolving semi-global OGCM. Ocean Modell., 122, 36–56.
  200. Franco, B. C., E. D. Palma, V. Combes, E. M. Acha, and M. Saraceno, 2018: Modeling the offshore export of Subantarctic Shelf Waters from the Patagonian shelf. J. Geophys. Res. Oceans, 123 (7), 4491–4502.
  201. Honda, M.C., Y. Sasai, E. Siswanto, A. Kuwano-Yoshida, H. Aiki, and M. F. Cronin, 2018: Impact of cyclonic eddies and typhoons on biogeochemistry in the oligotrophic ocean based on biogeochemical/physical/meteorological time-series at station KEO. Prog. Earth Planet. Sci. , 5:42.
  202. Hu, S., J. Sprintall, C. Guan, B. Sun, F. Wang, G. Yang, F. Jia, J. Wnag, D. Hu, and F. Chai, F, 2018: . Spatiotemporal features of intraseasonal oceanic variability in the Philippine Sea from mooring observations and numerical simulations. J. Geophys. Res. Oceans, 123 (7), 4874– 4887.
  203. Ji, J., C. Dong, B. Zhang, Y. Liu, B. Zou, G. P. King, G. Xu, and D. Chen, 2019: Oceanic eddy characteristics and generation mechanisms in the Kuroshio Extension region. J. Geophys. Res. Oceans, 123 (11), 8548–8567.
  204. Kontopoulos, D. G., E. Van Sebille, M. Lange, G. Yvon-Durocher, T. G. Barraclough, and S. Pawar, 2018: Phytoplankton thermal responses adapt in the absence of hard thermodynamic constraints. BioRxiv, 452250.
  205. Liang, Z., Q. Xie, L. Zeng, and D. Wang, 2018: Role of wind forcing and eddy activity in the intraseasonal variability of the barrier layer in the South China Sea. Ocean Dyn. , 68 (3), 363–375.
  206. Liu, Y., X. Liu, X. Lv, W. Cao, C. Sun, J. Lu, C. Wang, B. Lu, and J. Yang, J, 2018: Watermass properties and deep currents in the northern Yap Trench observed by the Submersible Jiaolong system. Deep Sea Res. I , 139, 27–42.
  207. Meinen, C. S., S. Speich, A.R. Piola, I. Ansorge, E. Campos, M. Kersalé, M., et al., 2018: Meridional overturning circulation transport variabil ity at 34.5°S during 2009–2017: Baroclinic and barotropic flows and the dueling influence of the boundaries. Geophys. Res. Lett. , 45 (9), 4180–4188.
  208. Ren, Q., Y. Li, F. Wang, L. Song, C. Liu, and F. Zhai, 2018: Seasonality of the Mindanao current/undercurrent system. J. Geophys. Res. Oceans, 123 (2), 1105–1122.
  209. Sasaki, H., S. Kida, R. Furue, M. Nonaka, and Y. Masumoto, 2018: An increase of the Indonesian Through flow by internal tidal mixing in a high-resolution quasi-global ocean simulation. Geophys. Res. Lett., 45 (16), 8416–8424.
  210. Shi, F., Y. Luo, and L. Xu, 2018: Volume and transport of eddy‐trapped mode water south of the Kuroshio Extension . J. Geophys. Res. Oceans, 123 (11), 8548–8567.
  211. Yang, L., L. Zhou, S. Li, and Z. Wei, 2018: Spreading of the South Pacific Tropical Water and Antarctic Intermediate Water Over the Maritime Continent. J. Geophys. Res. Oceans, 123 (6), 4423–4446.
  212. Yang, P., Z. Jing, and L. Wu, 2018: An assessment of representation of oceanic mesoscale eddy‐atmosphere interaction in the current generation of general circulation models and reanalyses. Geophys. Res. Lett., 45 (21), 11856–11865.
  213. Yuan, D., X. Hu, P. Xu, X. Zhao, Y. Masumoto, and W. Han, 2018: The IOD-ENSO precursory teleconnection over the tropical Indo-Pacific Ocean: dynamics and long-term trends under global warming. Chinese J. Oceanology and Limnology , 36 (1), 4–19.
  214. Zhou, H., D. Yuan, L. Yang, X. Li, and W. Dewar, 2018: Decadal variability of the meridional geostrophic transport in the upper tropical North Pacific Ocean. J. Climate, 31 (15), 5891–5910.
  215. Andrade, I., S. Hormazábal, and V. Combes, 2017:. Remolinos intratermoclina en el Archipiélago Juan Fernández, Océano Pacífico suroriental. Lat. Am. J. Aquat. Res., 42 , 888– 906.
  216. Belmadani, A., E. Concha, D. Donoso, A. Chaigneau, F. Colas, N. Maximenko, and E. Di Lorenzo, 2017: Striations and preferred eddy tracks triggered by topographic steering of the background flow in the eastern South Pacific. J. Geophys. Res. Oceans, 122 (4), 2847–2870.
  217. Brum, A. L., J. L. L. de Azevedo, L. R. de Oliveira, and P. H. R. Calil, 2017: Energetics of the Brazil Current in the Rio Grande Cone region. Deep Sea Res. I, 128 (4), 67–81.
  218. Cheng, X., J. P. McCreary, B. Qiu, Y. Qi, and Y. Du, 2017: Intraseasonal-to-semiannual variability of sea-surface height in the eastern, equatorial Indian Ocean and southern Bay of Bengal. J. Geophys. Res. Oceans, 122 (5), 4051–4067.
  219. Chu, X., C. Dong, and Y. Qi, 2017: The influence of ENSO on an oceanic eddy pair in the South China Sea. J. Geophys. Res. Oceans, 122 (3), 1643–1652.
  220. Ding, Y., X. Bao, Z. Yao, C. Zhang, K. Wan, M. Bao, R. Li, and M. A. Shi, 2017: A modeling study of the characteristics and mechanism of the westward coastal current during summer in the Northwestern South China Sea. Ocean Sci. J. , 52 (1), 11–30.
  221. Everett, J. D., E. Sebille, M. D. Taylor, I. M. Suthers, C. Setio, P. Cetina‐Heredia, and J. A. Smith, 2017: Dispersal of Eastern King Prawn larvae in a western boundary current: New insights from particle tracking. Fish Oceanogr., 26, 513–525.
  222. Gomez, F. A., Y.H., Spitz, H. P. Batchelder, and M. A. Correa-Ramirez, 2017: Intraseasonal patterns in coastal plankton biomass off central Chile derived from satellite observations and a biochemical model. J. Mar. Sys., 174, 106–118.
  223. Kuwano‐Yoshida, A., H. Sasaki, and Y. Sasai, 2017: Impact of explosive cyclones on the deep ocean in the North Pacific using an eddy‐resolving OGCM. Geophys. Res. Lett. , 44 (1), 320–329.
  224. Liao, X., Y. Du, H. Zhan, T. Wang, and M. Feng, 2017: Wintertime phytoplankton blooms in the Western Equatorial Indian Ocean associated with the Madden-Julian oscillation. J. Geophys. Res. Oceans, 122 (4), 9855–9869.
  225. Liu, Z. and J. Gan, 2017: Three-dimensional pathways of water masses in the South China Sea: A modeling study. J. Geophys. Res. Oceans, 122 (7), 6039–6054.
  226. Lyu, K., X. Zhang, J.A. Church, J. Hu, and J. Yu, 2017: Distinguishing the quasi-decadal and multi-decadal sea level and climate variations in the Pacific: Implications for the ENSO-like low-frequency variability. J. Climate , 30 (13), 5097–5117.
  227. Meinen, C. S., S. L. Garzoli, R. C. Perez, E. Campos, A. R. Piola, M. P. Chidichimo, S. Dong, and O. T. Sato, 2017: Characteristics and causes of Deep Western Boundary Current transport variability at 34.5° S during 2009–2014, Ocean Sci. , 13, 175–194.
  228. Ogata, T., M. Nagura, and Y. Masumoto, 2017: Mean Subsurface Upwelling Induced by Intraseasonal Variability over the Equatorial Indian Ocean. J. Phys. Oceanogr., 47 (6), 1347–1365.
  229. Ok, H., Y. Noh, and Y. Choi, 2017: Influence of pycnocline smoothing and subgrid-scale variability of density profiles on the determination of mixed layer depth. J. Atmos. Oceanic Technol., 34 (9), 2083–2101.
  230. Parada, C., A. Gretchina, S. Vásquez, A. Belmadani, V. Combes, B. Ernst, E. Di Lorenzo, J. Porobic, A. Sepúlveda, 2017: Expanding the conceptual framework of the spatial population structure and life history of jack mackerel in the eastern South Pacific: an oceanic seamount region as potential spawning/nursery habitat. ICES J. Marine Sci., 74 (9), 2398–2414.
  231. Sasaki, H., P. Klein, Y. Sasai, and B. Qiu, 2017: Regionality and seasonality of submesoscale and mesoscale turbulence in the North Pacific Ocean. Ocean Dyn., 67 (9), 1195–1216.
  232. Song, L., Y. Li, C. Liu, and F. Wang, 2017: Subthermocline anticyclonic gyre east of Mindanao and its relationship with the Mindanao Undercurrent. Chin. J. Oceano. Lim. , 35 (6), 1303–1318.
  233. Sun, Y., E. Eltahir, and P. Malanotte-Rizzoli, 2017: The Bottom water exchange between the Singapore Strait and the West Johor Strait. Continental Shelf Res., 145 , 32–42.
  234. Takatama, K. and N. Schneider, 2017: The role of back pressure in the atmospheric response to surface stress induced by the Kuroshio. J. Atmos. Sci., 74 (2), 597–615.
  235. Taguchi, B., N. Schneider, M. Nonaka, and H. Sasaki, 2017: Decadal variability of upper-ocean heat content associated with meridional shifts of western boundary current extensions in the North Pacific. J. Climate, 30, 6247–6264.
  236. Wang, M., Y. Du, B. Qiu, X. Cheng, Y. Luo, X. Chen, and M. Feng, 2017: Mechanism of seasonal eddy kinetic energy variability in the eastern equatorial Pacific Ocean, J. Geophys. Res. Oceans, 122 (4), 3240–3252.
  237. Wang, Q., 2017: Three-dimensional structure of mesoscale eddies in the western tropical Pacific as revealed by a high-resolution ocean simulation. Sci. China Earth Sci., 60 (9), 1719–1731.
  238. Wu, R., C. Li, and J. Lin, 2017: Enhanced winter warming in the Eastern China Coastal Waters and its relationship with ENSO. Atmos. Sci. Lett. , 18 (1), 11–18.
  239. Yan, Y., D. Xu, K. Yu, and Y. Qi, 2017: Propagation of the subsurface freshening water and its major source in the northwestern Pacific. J. Geophys. Res. Oceans, 122 (8), 6857–6871.
  240. Zhao, J., 2017: Basinwide response of the Atlantic Meridional Overturning Circulation to interannual wind forcing. Clim. Dyn., 49 , 4263–4280.
  241. Aoki, K., A. Kubokawa, R. Furue, and H. Sasaki, 2016: Influence of eddy momentum fluxes on the mean flow of the Kuroshio Extension in a 1/10° Ocean General Circulation Model. J. Phys. Oceanogr., 46 (9), 2769–2784.
  242. Ascani, F., K. S. Van Houtan, E. Di Lorenzo, J. J. Polovina, and T. T. Jones, 2016: Juvenile recruitment in loggerhead sea turtles linked to decadal changes in ocean circulation, Global change biology., 22 (11), 3529–3538.
  243. Chen, X., B. Qiu, Y. Du, S. Chen, and Y. Qi, 2016: Interannual and interdecadal variability of the North Equatorial Countercurrent in the Western Pacific. J. Geophys. Res. Oceans, 121 (10), 7743–7758.
  244. Cheng, Y., B. D. Hamlington, H. P. Plag, and Q. Xu ,2016: Influence of ENSO on the variation of annual sea level cycle in the South China Sea, Ocean Engineering, 126, 343–352.
  245. Cronin, M. F., and T. Tozuka, 2016: Steady state ocean response to wind forcing in extratropical frontal regions, Scientific Reports, 6, 28842.
  246. Doblin, M. A. and E. van Sebille, 2016: Drift in ocean currents impacts intergenerational microbial exposure to temperature. PNAS, 113 (20), 5700–5705.
  247. Gan, J., Z. Liu, and L. Liang, 2016: Numerical modeling of intrinsically and extrinsically forced seasonal circulation in the China Seas: A kinematic study. J. Geophys. Res. Oceans, 121 (7), 4697–4715.
  248. Gan, J., Z. Liu, and L. Liang, 2016: A three-layer alternating spinning circulation in the South China Sea. J. Phys. Oceanogr., 46 (8), 2309–2315.
  249. Guan, C., and M. J. McPhaden, 2016: Ocean processes affecting the twenty-first-century shift in ENSO SST variability. J. Climate , 29 (19), 6861–6879.
  250. Han, S., C. Xu, H. Wu, G. Wang, J. Pei, Y. Fan, X. Wang, 2016; Study on the mesoscale eddies around the Ryukyu Islands. Acta Oceanologica Sinica, 35(3), 38–45.
  251. Hellweger, F. L., E. van Sebille, B. C.  Calfee, J. W. Chandler, E. R. Zinser, B. K. Swan, and N. D. Fredrick, 2016: The role of ocean currents in the temperature selection of plankton: Insights from an individual-dased model. PloS ONE, 11 (12), e0167010.
  252. Hu, S., D. Hu, C. Guan, F. Wang, L. Zhang, F. Wang, and Q. Wang, 2016: Interannual variability of the Mindanao Current/Undercurrent in direct observations and numerical simulations, J. Phys. Oceanogr., 46 (2), 483–499.
  253. Kobashi, F., Y. Onikata, N. Iwasaka, Y. Kawai, E. Oka, K. Uehara, S. -I. Ito, M. Odamaki, and H. Sasaki, 2016: Small meanders of the Kuroshio Extension and associated northward spreading of warm water: Three-vessel simultaneous observations and an eddy-resolving ocean model simulation, J. Geophys. Res. Oceans, 121 (7), 5315–5337.
  254. Matsuoka, D., F.  Araki, Y. Inoue, and H. Sasaki, 2016: A new approach to ocean eddy detection, tracking and event visualization- Application to the Northwest Pacific Ocean -, Procedia Computer Science, 80, 1601–1611.
  255. Mayorga-Adame, C. G., P. T. Ted Strub, H. P. Batchelder, and Y. H. Spitz, 2016: Characterizing the circulation off the Kenyan-Tanzanian coast using an ocean model. J. Geophys. Res. Oceans, 121, 1377–1399.
  256. Na, H., D. R. Watts, J. -H. Park, C. Jeon, H. J. Lee, M. Nonaka, and A. D. Greene, 2016: Bottom pressure variability in the Kuroshio Extension driven by the atmosphere and ocean instabilities, J. Geophys. Res. Oceans, 121 (8), 6507–6519.
  257. Nonaka, M., Y. Sasai, H. Sasaki, B. Taguchi, and H. Nakamura, 2016: How potentially predictable are midlatitude ocean currents?, Scientific Reports, 6 , 20153.
  258. Quan, Q., H. Xue, H. Qin, X. Zeng, and S. Peng, 2016: Features and variability of the South China Sea western boundary current from 1992 to 2011, Ocean Dyn., 66 (6), 795–810.
  259. Periáñez, R., K. S. Suh, and B. I. Min, 2016: The behaviour of 137 Cs in the North Atlantic Ocean assessed from numerical modelling: Releases from nuclear fuel reprocessing factories, redissolution from contaminated sediments and leakage from dumped nuclear wastes. Mar. Polut. Bull., 113 (1-2), 343–361.
  260. Qiu, B., S. Chen, P. Klein, C. Ubelmann, L. -L. Fu, and H. Sasaki, 2016: Reconstructability of 3-dimensional upper ocean circulation from SWOT sea surface height measurements. J. Phys. Oceanogr., 46 (3), 947–963.
  261. Sato, N., M. Nonaka, Y. Sasai, H. Sasaki, Y. Tanimoto, and R. Shirooka, 2016: Contribution of sea-surface wind curl to the maintenance of the SST gradient along the upstream Kuroshio Extension in early summer, J. Oceanogr., 72 (5), 697–705.
  262. Sun, Z., Z. Zhang, W. Zhao, and J. Tian, 2016: Interannual modulation of eddy kinetic energy in the northeastern South China Sea as revealed by an eddy-resolving OGCM, J. Geophys. Res. Oceans, 121 (5), 3190–3201.
  263. Teske, P. R., J. Sandoval-Castillo, E. van Sebille, J. Waters, and L. B. Beheregaray, 2016: Oceanography promotes self-recruitment in a planktonic larval disperser, Scientific Reports, 6 , 34205.
  264. Viglione, G. A. , and A. F. Thompson, 2016: Lagrangian pathways of upwelling in the Southern Ocean, J. Geophys. Res. Oceans, 121 (8), 6295–6309.
  265. Wang, Y., J. Lan, and L. Li, 2016: The relation between the Mindanao Current and Mindanao Undercurrent on seasonal scale. Acta Oceanologica Sinica, 35 (5), 1–8.
  266. Wang, F., L. Song, Y.  Li, C. Liu, J. Wang, P. Lin, G. Yang, J. Zhao, X. Diao, D. Zhang, and D. Hu, 2016: Semiannually alternating exchange of intermediate waters east of the Philippines, Geophys. Res. Lett., 43 (13), 7059–7065.,
  267. Wei, J., M. T. Li, P. Malanotte-Rizzoli, A. L. Gordon, and D. X. Wang, 2016: Opposite Variability of Indonesian Throughflow and South China Sea Throughflow in the Sulawesi Sea. J. Phys. Oceanogr., 46 (10), 3165–3180.
  268. Yang, Y., and X. San Liang, 2016: The Instabilities and multiscale energetics underlying the mean–interannual–eddy interactions in the Kuroshio Extension region, J. Phys. Oceanogr., 46 (5), 1477–1494.
  269. Zeng, L., D. Wang, P. Xiu, Y. Shu, Q. Wang, and J. Chen, 2016: Decadal variation and trends in subsurface salinity from 1960 to 2012 in the northern South China Sea. Geophys. Res. Lett. , 43 (23), 12181–12189.
  270. Zheng, S., M. Feng, Y. Du, X. Cheng, and J. Li, 2016: Annual and interannual variability of the tropical instability vortices in the Equatorial Eastern Pacific observed from lagrangian surface drifters. , 29 (24), 9163–9177.
  271. Aoki, S., G. Mizuta, H. Sasaki, Y. Sasai, S. R. Rintoul, and N. L. Bindoff, 2015: Atlantic–Pacific asymmetry of subsurface temperature change and frontal response of the Antarctic Circumpolar Current for the recent three decades, J. Oceanogr., 71 (5), 623–636.
  272. Chen, X., B. Qiu, S. Chen, Y. Qi, and Y. Du, 2015: Seasonal eddy kinetic energy modulations along the North Equatorial Countercurrent in the western Pacific, J. Geophys. Res. Oceans, 120 (9), 6351–6362.
  273. Chen, X., B. Qiu, X. Cheng, Y. Qi, and Y. Du, 2015: Intra-seasonal variability of Pacific-origin sea level anomalies around the Philippine Archipelago, J. Oceanogr., 71 (3), 1–11.
  274. Cheng, Y., H. P. Plag, B. D. Hamlington, Q. Xu, and Y. He, 2015: Regional sea level variability in the Bohai Sea, Yellow Sea, and East China Sea, Conti. Shelf Res., 111 (A), 95–107.
  275. Chenillat, F., P. J. S. Franks, P. Rivière, X. Capet, N. Grima, and B. Blanke, 2015: Plankton dynamics in a cyclonic eddy in the Southern California Current System, J. Geophys. Res. Oceans, 120 (8), 5566–5588.
  276. Chiang, T. L., C. R. Wu, T. Qu, and Y. C. Hsin, 2015: Activities of 50–80 day subthermocline eddies near the Philippine coast, J. Geophys. Res. Oceans, 120 (5), 3606–3623.
  277. Combes, V., S. Hormazabal, and E. Di Lorenzo, 2015: Interannual variability of the subsurface eddy field in the Southeast Pacific, J. Geophys. Res. Oceans, 120 (7), 4907– 4924.
  278. Davis, A., and E. Di Lorenzo, 2015: Interannual forcing mechanisms of California Current transports I: Meridional Currents, Deep Sea Res. II, 112, 18–30.
  279. Davis, A., and E. Di Lorenzo, 2015: Interannual forcing mechanisms of California Current transports II: Mesoscale Eddies, Deep Sea Res. II, 112, 31–41.
  280. Garzoli, S. L., S. Dong, R. Fine, C. S. Meinen, R. C. Perez, C. Schmid, E. van Sebille, and Q. Yao, 2015: The fate of the Deep Western Boundary Current in the South Atlantic. Deep Sea Res. I, 103 (4), 125–136.
  281. Grist, J. P., S. A. Josey, Z. L. Jacobs, R. Marsh, B. Sinha, and E. Van Sebille, 2015: Extreme air–sea interaction over the North Atlantic subpolar gyre during the winter of 2013–2014 and its sub-surface legacy, Climate Dynamics, 44 , 1–19.
  282. Hosoda, S., M. Nonaka, Y. Sasai, and H. Sasaki, 2015: : Early summertime interannual variability in surface and subsurface temperature in the North Pacific, J. Oceanogr.,71 (5), 557–573.
  283. Kashino, Y., I. Ueki, and H. Sasaki, 2015: Ocean variability east of Mindanao: Mooring observations at 7° N, revisited, J. Geophys. Res. Oceans, 120 (4), 2540–2554.
  284. Lin, H., K. R. Thompson, J. Huang, and M. Véronneau, 2015: Tilt of mean sea level along the Pacific coasts of North America and Japan, J. Geophys. Res. Oceans, 120 (10), 6815–6828.
  285. Matsuoka, D., F. Araki, and Y. Yamashita, 2015: Multiple scatter plots-based multi-dimensional transfer function and its application to ocean data visualization, J. Adv. Sim. Sci. Eng., 2 (2), 292–308.
  286. Nagura, M., and Y. Masumoto, 2015: A wake due to the Maldives in the eastward Wyrtki jet, J. Phys. Oceanogr., 45 , 1858–1876.
  287. Nagura, M., T. Terao, and M. Hashizume, 2015: The role of temperature inversions in the generation of seasonal and interannual SST variability in the far northern Bay of Bengal, J. Climate, 28 (9), 3671–3693.
  288. Qiu, B., S. Chen, D. L. Rudnick, Y. Kashino, 2015: A new paradigm for the North Pacific subthermocline low-latitude western boundary current system, J. Phys. Oceanogr., 45 (9), 2407–2423.
  289. Takeshige, A., Y. Miyake, H. Nakata, T. Kitagawa, and S. Kimura, 2015: Simulation of the impact of climate change on the egg and larval transport of Japanese anchovy (Engraulis japonicus) off Kyushu Island, the western coast of Japan, Fisheries Oceanogr., 24 (5), 445–462.
  290. Tanaka, Y., T. Hibiya, and H. Sasaki, 2015: Downward lee wave radiation from tropical instability waves in the central equatorial Pacific Ocean: A possible energy pathway to turbulent mixing, J. Geophys. Res. Oceans, 120 (11), 7137–7149.
  291. Teske, P. R., J. Sandoval-Castillo, E. van Sebille, J. Waters, and L. B. Beheregaray, 2015: On-shelf larval retention limits population connectivity in a coastal broadcast spawner. JMar Ecol Prog Ser, 532, 1–12.
  292. Van Sebille, E., P. Scussolini, J. V. Durgadoo, F. J. Peeters, A. Biastoch, W. Weijer, C. Turney, C. B. Paris, and R. Zahn, 2015: Ocean currents generate large footprints in marine palaeoclimate proxies, Nature communications, 6, 6521.
  293. Villa, M., J. M. López-Gutiérrez, K. S. Suh, B. I. Min, and R. Periáñez, 2015: The behaviour of 129 I released from nuclear fuel reprocessing factories in the North Atlantic Ocean and transport to the Arctic assessed from numerical modelling, Marine pollution bulletin, 90 (1), 15–24.
  294. Wang, J., J. Wang, and X. Cheng, 2015: Mass-induced sea level variations in the Gulf of Carpentaria. J. Oceanogr., 71 (4), 449–461.
  295. Yang, H., L. Wu, S. Shantong, and C. Zhaohui, 2015: Low-frequency variability of monsoon-driven circulation with application to the South China sea. J. Phys. Oceanogr., 45 (6), 1632–1650.
  296. Yu, K., T. Qu, C. Dong, and Y. Yan, 2015: Effect of subtropical mode water on the decadal variability of the subsurface transport through the Luzon Strait in the western Pacific Ocean. J. Geophys. Res. Oceans, 120 (10), 6829–6842.
  297. Zhang, Z., W. Zhao, J. Tian, Q. Yang, and T. Qu, 2015: Spatial structure and temporal variability of the zonal flow in the Luzon Strait, J. Geophys. Res. Oceans, 120, 759–776.
  298. Zhu, X., G. Liu, J. Wang, H. Wang, X. Bao, W. Hu, 2015: A numerical study on the relationships of the variations of volume transport around the China Seas, J. Mar. Sys., 145, 15–36.
  299. Andrade, I., S Hormazábal, and V Combes, 2014: Intrathermocline eddies at the Juan Fernández Archipelago, southeastern Pacific Ocean. Lat Am. J. Aquat. Res., 42 (4), 888– 906.
  300. Cetina‐Heredia, P., M. Roughan, E. Van Sebille, and M.A. Coleman, 2014: Long‐term trends in the East Australian Current separation latitude and eddy driven transport, J. Geophys. Res. Oceans , 119 (7), 4351–4366.
  301. Chang, C. H., N.C. Johnson, and N. Cassar, 2014: Neural network–based estimates of Southern Ocean net community production from in situ O2/Ar and satellite observation: a methodological study. Biogeosciences, 11 (12), 3279–3297.
  302. Chapman, C. C., 2014: Southern Ocean jets and how to find them: Improving and comparing common jet detection methods, J. Geophys. Res. Oceans , 119 (7), 4318–4339.
  303. Combes, V., and R. P. Matano, 2014: A two–way nested simulation of the oceanic circulation in the Southwestern Atlantic, J. Geophys. Res. Oceans , 119 (2), 731–756.
  304. Hellweger, F. L., E. van Sebille, and N. D. Fredrick: 2014: Biogeographic patterns in ocean microbes emerge in a neutral agent-based model, Science, 345 (6202), 1346–1349.
  305. Iskandar I., Y. Masumoto, K. Mizuno, H. Sasaki, A. Affandi, D. Setiabudidaya, and F. Syamsudin, 2014: Coherent intraseasonal oceanic variations in the eastern equatorial Indian Ocean and in the Lombok and Ombai Straits from observations and a high-resolution OGCM, J. Geophys. Res. Oceans , 119 (2), 615–630.
  306. Lin, X., Y. Yin, J. Yang, 2014: A mechanism for the latitudinal dependence of peak–spectrum sea surface height variability, J. Geophys. Res. Oceans , 119 (2), 1431–1444.
  307. Liao, X., Y. Du, H. Zhan, P. Shi, and J. Wang , 2014: Summertime phytoplankton blooms and surface cooling in the western south equatorial Indian Ocean, J. Geophys. Res. Oceans , 119 (11), 7687–7704.
  308. Matsuoka, D., F. Araki, and Y. Yamashita: 2014 : Multiple scatter plots based multi-dimensional transfer function for visualizing ocean simulation data, Communications in Computer and Information Science, 474, 187–200.
  309. Meinen, C. S., and S.L. Garzoli, 2014: Attribution of Deep Western Boundary Current variability at 26.5° N. Deep Sea Res. I, 90, 81–90.
  310. Nagura, M., Y. Masumoto, and T. Horii, 2014: Meridional Heat Advection Due to Mixed Rossby Gravity Waves in the Equatorial Indian Ocean. J. Phys. Oceanogr., 44 (1), 343–358.
  311. Nagura, M., M. J. McPhaden, 2014: Zonal momentum budget along the equator in the Indian Ocean from a high‐resolution ocean general circulation model. J. Geophys. Res. Oceans. , 119 (7), 4444–4461.
  312. Qin, X., E. van Sebille, and A. Sen Gupta, 2014: Quantification of errors induced by temporal resolution on Lagrangian particles in an eddy–resolving model. Ocean Modell., 76, 20–30.
  313. Qiu, B., S. Chen, P. Klein, H. Sasaki, and Y. Sasai, 2014: Seasonal mesoscale and submesoscale eddy variability along the North Pacific Subtropical Countercurrent, J. Phys. Oceanogr., 44 (12), 3079–3098.
  314. Qiu, B., S. Chen, N. Schneider, and B. Taguchi, 2014: A coupled decadal prediction of the dynamic state of the Kuroshio Extension system. J. Climate, 27 (4), 1751–1764.
  315. Sasaki, H., P. Klein, B. Qiu, and Y. Sasai, 2014:, Impact of oceanic scale-interactions on the seasonal modulation of ocean dynamics by the atmosphere. Nature Communications, 5, 5636.
  316. Thompson, A. F., and A. C. Naveira Garabato, 2014: Equilibration of the Antarctic Circumpolar Current by Standing Meanders. J. Phys. Oceanogr., 44 (7), 1811–1828.
  317. Tozuka, T., and Meghan F. Cronin, 2014: Role of mixed layer depth in surface frontogenesis: The Agulhas Return Current front. Geophys. Res. Lett. , 41 (7), 2447–2453.
  318. Turiel, A., J. Isern–Fontanet, and M. Umbert, 2014: Sensibility to noise of new multifractal fusion methods for ocean variables. Nonlinear Processes in Geophysics , 21, 291–301.
  319. Umbert, M., N. Hoareau, A. Turiel, and J. Ballabrera–Poy, 2014: New blending algorithm to synergize ocean variables: The case of SMOS sea surface salinity maps. Remote Sensing of Environment , 146, 172–187.
  320. Wang, Q., F. Zhai, F. Wang, and D. Hu, 2014: Intraseasonal variability of the subthermocline current east of Mindanao. J. Geophys. Res. Oceans , 119 (12), 8552–8566.
  321. Xu, L., S.-P. Xie, J. McClean, Q. Liu, and H. Sasaki, 2014: Mesoscale eddy effects on the subduction of North Pacific mode waters, J. Geophys. Res. Oceans , 119 (8), 4867–4886.
  322. Yuan, D., Z. Zhang, P.C. Chu, and W.K. Dewar, 2014: Geostrophic Circulation in the Tropical North Pacific Ocean Based on Argo Profiles, J. Phys. Oceanogr., 44 (2), 558–575.
  323. Zhai, F., Q. Wang, F. Wang, and D. Hu, 2014: Decadal variations of Pacific North Equatorial Current bifurcation from multiple ocean products, J. Geophys. Res. Oceans , 119 (2), 1237–1256.
  324. Zhang, L., D. Hu, and S. Hu, 2014: Mindanao Current/Undercurrent measured by a subsurface mooring, J. Geophys. Res. Oceans , 119 (6), 3617–3628.
  325. Zhao, J., and J. Johns, 2014: Wind–Driven Seasonal Cycle of the Atlantic Meridional Overturning Circulation. J. Phys. Oceanogr., 44 (6), 1541–1562.
  326. Aoki, Kunihiro, S. Minobe, Y. Tanimoto, and Y. Sasai, 2013: Southward Eddy Heat Transport Occurring along Southern Flanks of the Kuroshio Extension and the Gulf Stream in a 1/10° Global Ocean General Circulation Model. J. Phys. Oceanogr., 43, 1899–1910.
  327. Belmadani, A., N. A. Maximenko, J. P. McCreary, R. Furue, O. V. Melnichenko, N. Schneider, and E. Di Lorenzo, 2013: Linear wind–forced beta–plumes with application to the Hawaiian Lee Countercurrent, J. Phys. Oceanogr., 43, 2071–2094.
  328. Chen, X., Y. F. Yan, X. H. Cheng, and Y. Q. Qi, 2013: Performances of seven datasets in presenting the upper ocean heat content in the South China Sea. Adv. Atmos. Sci., 30 (5), 3617–3628.
  329. Chenillat, F, P. Rivière, X. Capet, P. J. S. Franks, and B. Blanke, 2013: California coastal upwelling onset variability: cross–shore and bottom–up propagation in the planktonic ecosystem. PLoS ONE, 8(5), e62281.
  330. Cheng, X., S.–P. Xie, J. P. McCreary, Y. Qi, and Y. Du, 2013: Intraseasonal variability of sea surface height in the Bay of Bengal. J. Geophys. Res. Oceans , 118 (2), 816–830.
  331. Chiba, S., E. Di Lorenzo, A. Davis, J. E. Keister, B. Taguchi, Y. Sasai, and H. Sugisaki, 2013: Large–scale climate control of zooplankton transport and biogeography in the Kuroshio–Oyashio Extension region, Geophys. Res. Lett. , 40, 5182–5187.
  332. Chiang, T., and T. Qu, 2013: Subthermocline eddies in the western equatorial Pacific as shown by an eddy–resolving OGCM. J. Phys. Oceanogr., 43 (7), 1241–1253.
  333. Combes, V., F. Chenillat, E. Di Lorenzo, P. Rivière, M. D. Ohman, and S.J. Bograd, 2013: Cross–shore transport variability in the California Current: Ekman upwelling vs. eddy dynamics. Prog. Oceanogr. , 109, 78–89.
  334. Cronin, M. F., T. G, A. Biastoch, J. V. Durgadoo, and L. M. Beal, 2013: Prevalence of strong bottom currents in the greater Agulhas system. Geophys. Res. Lett. , 40, 1772–1776.
  335. Putrasahan, D. A., A. J. Miller, and H. Seo, 2013: Isolating mesoscale coupled ocean–atmosphere interactions in the Kuroshio Extension region, Dyn. Atmos. Ocean. , 63, 2013, 60–78.
  336. Garzoli, S. L., M. O. Baringer, S. Dong, R. C. Perez, and Q. Yao, 2013: South Atlantic meridional fluxes, Deep Sea Res. I , 71, 21–32.
  337. Han, A. Q., M. H. Dai, J. P. Gan, S. -J. Kao, X. Z. Zhao, S. Jan, Q. Li, H. Lin, C. -T. A.  Chen, L.  Wang, J. Y. Hu, L. F. Wang, and F. Gong, 2013: Inter-shelf nutrient transport from the East China Sea as a major nutrient source supporting winter primary production on the northeast South China Sea shelf. Biogeosciences, 10 (12), 8159–8170.
  338. Hormazabal, S., V. Combes, C.E. Morales, M.A. Correa‐Ramirez, E. Di Lorenzo, and S. Nuñez, 2013: Intrathermocline eddies in the coastal transition zone off central Chile (31–41 S). J. Geophys. Res. Oceans , 118(10), 4811–4821.
  339. Katsumata, K., and S. Masuda, 2013: Variability in Southern Hemisphere Ocean Circulation from the 1980s to the 2000s, J. Phys. Oceanogr. , 43 (9), 1981–2007.
  340. Katsumata, K., B. M. Sloyan, and S. Masuda, 2013: Diapycnal and isopycnal transports in the Southern Ocean estimated by a box inverse model, J. Phys. Oceanogr., 43 (11), 2270–2287.
  341. Meinen, C. S., S. Speich, R. C. Perez, S. Dong, A. Piola, S. L. Garzoli, M. O. Baringer, S. Gladyshev, and E. J.  Campos, 2013: Temporal variability of the meridional overturning circulation at 34.5 S: Results from two pilot boundary arrays in the South Atlantic, J. Geophys. Res. Oceans, 118 (12), 6461–6478.
  342. Nishikawa, H., I. Yasuda, S. Itoh, K. Komatsu, H. Sasaki, Y. Sasai, and Y. Oozeki, 2013a: Transport and survival of Japanese sardine (Sardinops melanostictus) eggs and larvae via particle tracking experiments, Fisheries Oceanogr., 22, 509–522.
  343. Nishikawa, H., I. Yasuda, K. Komatsu, H. Sasaki, Y. Sasai, T. Setou, and M. Shimizu, 2013b: Winter mixed layer depth and spring bloom along the Kuroshio front: implications for feeding environment and recruitment of Japanese sardine, Mar. Ecol. Prog. Ser., 487, 217–229.
  344. Ogata, T., S.–P. Xie, J. Lan, and X. Zheng, 2013: Importance of ocean dynamics for the skewness of the Indian Ocean Dipole Mode. J. Climate, 26, 2145–2159.
  345. Putrasahan, D. A., A. J. Miller, and H. Seo, 2013: Regional coupled ocean–atmosphere downscaling in the Southeast Pacific: impacts on upwelling, mesoscale air–sea fluxes, and ocean eddies. Ocean Dyn. , 2013, 63 (5), 463–488.
  346. Putrasahan, D. A., A. J. Miller, and H. Seo, 2013b: Isolating mesoscale coupled ocean–atmosphere interactions in the Kuroshio Extension region. Dyn. Atmos. Oceans , 63, 60–78.
  347. Qiu, B., S. Chen, and H. Sasaki, 2013: Generation of the north equatorial undercurrent jets by triad baroclinic Rossby wave interactions, J. Phys. Oceanogr., 43, 2682–2698.
  348. Richter, I., S. K. Behera, Y. Masumoto, B. Taguchi, H. Sasaki, and T. Yamagata, 2013: Multiple causes of interannual sea surface temperature variability in the equatorial Atlantic Ocean. Nature Geoscience, 6, 43–47.
  349. Rossi, V., E. Van Sebille, A. S. Gupta, V. Garçon, and M. H. England, 2013: Multi-decadal projections of surface and interior pathways of the Fukushima Cesium–137 radioactive plume. Deep Sea Res. I, 80, 37–46
  350. Sasai, Y., H. Sasaki, and K. J. Richards, 2013: Impact of physical processes on the phytoplankton blooms in the South China Sea: an eddy–resolving physical–biological model study, Biogeosciences Discussions, 10 (1), 1577–1604.
  351. Tachikawa, K., A. Timmermann, L. Vidal, C. Sonzogni , and O. E. Timm, 2013: Southern Hemisphere orbital forcing and its effects on CO2 and tropical Pacific climate. Clim. Past Discuss., 9, 1869–1900.
  352. Wang, X. H., V. Bhatt, and Y.–J. Sun, 2013: Study of seasonal variability and heat budget of the East Australian Current using two eddy–resolving ocean circulation models. Ocean Dyn. , 63, 549–563.
  353. Wang, C., J. Lan, and G. Wang, 2013: Climatology and seasonal variability of the Mindanao Undercurrent based on OFES data. Acta Oceanologica Sinica, 32 (7), 14–20.
  354. Xie Q, J. G. Xiao, D. X. Wang, and Y. Q. Yu, 2013: Analysis of deep–layer and bottom circulations in the South China Sea based on eight quasi–global ocean model outputs. Chin. Sci. Bull, 58 (32), 4000–4011.
  355. Yu, K., and Qu, T. ,2013: Imprint of the Pacific Decadal Oscillation on the South China Sea throughflow variability, J. Climate, 26, 9797–9805.
  356. Zhang, Z., D. Yhuan, and P. C. Chu, 2013: Geostrophic meridional transport in tropical Northwest Pacific based on Argo profiles. Chinese J. Oceanology and Limnology, 31 (3), 656–664.
  357. Chang, Y.–L., and L.–Y. Oey, 2012: The Philippines–Taiwan oscillation: monsoonlike interannual oscillation of the subtropical–tropical western North Pacific wind system and its impact on the ocean.  J. Climate, 25, 1597–1618.
  358. Chang, C.–H., S.–P. Xie, N. Schneider, B. Qiu, J. Small, W. Zhuang, B. Taguchi, H. Sasaki, and X. Lin, 2012: East Pacific ocean eddies and their relationship to subseasonal variability in Central American wind jets. J. Geophys. Res., 117, C10001.
  359. Greene, A. D., D. R. Watts, G. G. Sutyrin, and H. Sasaki, 2012: Evidence of vertical coupling between the Kuroshio Extension and topographically controlled deep eddies. J. Marine Res., 70, 719–747.
  360. Hernández–Carrasco, I., C. López, E. Hernández–García, and A. Turiel, 2012: Seasonal and regional characterization of horizontal stirring in the global ocean. J. Geophys. Res., 117, C10007.
  361. Komori, N., B. Taguchi, and H. Sasaki 2012: The effective use of shortwave penetration below the ocean surface in a MOM3-based ocean general circulation model, JAMSTEC Rep. Res. Dev., 15, 35–46.
    362. .
  362. Masuda, Y., Y.Yamanaka, and Y.Sasai, 2012: Optimization of the horizontal shape of CO2 injected domain and the depths of release in moving–ship type CO2 ocean sequence, J. Mar. Sci. Technol., 18 (2), 220–228.
  363. Matsuoka, D., F. Araki, S. Kida, H. Sasaki and B. Taguchi, 2012: Visualization for Ocean General Circulation Model via Multi–dimensional Transfer Function and Multivariate Analysis, Transaction of the Japan Society for Simulation Technology, 4 (4), 168–175.
  364. Meinen, C. S., Piola, A. R., Perez, R. C., and Garzoli, S. L., 2012: Deep western boundary current transport variability in the South Atlantic: preliminary results from a pilot array at 34.5°S. Ocean Sci., 8, 1041–1054.
  365. Nonaka, M., H. Sasaki, B. Taguchi, and H. Nakamura, 2012: Potential predictability of interannual variability in the Kuroshio Extension jet speed in an eddy–resolving OGCM. J. Climate, 25, 3645–3652.
  366. Nonaka, M., S.-P. Xie, and H. Sasaki, 2012: Interannual variations in low potential vorticity water and the subtropical countercurrent in an eddy–resolving OGCM. J. Oceanogr., 68 (1), 139–150.
  367. Qu, T., T.–L. Chiang, C.–R. Wu, P. Dutrieux, and D. Hu, 2012: Mindanao Current/Undercurrent in an eddy–resolving GCM. J. Geophys. Res., 117, C06026.
  368. Sasai, Y., K. J. Richards, A. Ishida, and H. Sasaki, 2012: Spatial and temporal variability of the chlorophyll distribution in the Northeastern Tropical Pacific: The impact of physical processes on seasonal and interannual time scales. J. Marine Sys.,96–97, 24–31.
  369. Sasaki, H., and P. Klein, 2012: SSH wavenumber spectra in the North Pacic from a high-resolution realistic simulation. J. Phys. Oceanogr., 42 (7), 1233–1241.
  370. Sasaki, H., S.–P. Xie, B. Taguchi, M. Nonaka, S. Hosoda, and Y. Masumoto, 2012: Interannual variations of the Hawaiian Lee Countercurrent induced by low potential vorticity water ventilation in the subsurface. J. Oceanogr., 68, 93–111.
  371. Shillinger, G. L., E. Di Lorenzo, H. Luo, S. J. Bograd, E. L. Hazen, H. Bailey and J. R. Spotila, 2012: On the dispersal of leatherback turtle hatchlings from Mesoamerican nesting beaches. Proceedings of the Royal Society B–Biological Sciences, 279, 2391–2395.
  372. Tzeng, W. N., Y. H. Tseng, Y. S. Han, C. C. Hsu, C. W. Chang, et al., 2012: Evaluation of multi–scale climate effects on annual recruitment levels of the Japanese eel, anguilla japonica, to Taiwan. PLoS ONE, 7 (2), e30805.
  373. van Sebille, E., W. E. Johns, and L. M. Beal, 2012: Does the vorticity flux from Agulhas rings control the zonal pathway of NADW across the South Atlantic?. J. Geophys. Res., 117, C05037.
  374. van Sebille, E., M. H. England, J. D. Zika, and B. M. Sloyan, 2012: Tasman leakage in a fineresolution ocean model. Geophys. Res. Lett. , 39, L06601.
  375. Aiki, H., K. J. Richards, and H. Sakuma, 2011: Maintenance of the mean kinetic energy in the global ocean by the barotropic and baroclinic energy routes: the roles of JEBAR and Ekman dynamics. Ocean Dyn. , 61 (5), 675–700.
  376. Chang, Y.–L., and L.–Y. Oey, 2011: Interannual and seasonal variations of Kuroshio transport east of Taiwan inferred from 29 years of tide–gauge data. Geophys. Res. Lett. , 38, L08603.
  377. Dong, S., S. Garzoli, and M. Baringer, 2011: The role of interocean exchanges on decadal variations of the meridional heat transport in the South Atlantic. J. Phys. Oceanogr., 41, 1498–1511.
  378. Hasegawa, T., K. Ando, and H. Sasaki, 2011: Cold water flow and upper–ocean currents in the Bismarck Sea from December 2001 to January 2002. J. Phys. Oceanogr., 41, 4, 827–834.
  379. Holbrook, N. J., I. D Goodwin, S. McGregor, E. Molina, and S. B Power, 2011: ENSO to multi–decadal time scale changes in East Australian Current transports and Fort Denison sea level: Oceanic Rossby waves as the connecting mechanism. Deep-Sea Res. II, 58, 547–558
  380. Katsumata, K., and M. Fukasawa, 2011: Changes in meridional fluxes and water properties in the Southern Hemisphere subtropical oceans between 1992/1995 and 2003/2004. Prog. Oceanogr., 89, 61–91.
  381. Kawai, T., I. C. Handoh, and N. Suzuki, 2011: The Roles of marine phytoplankton and ocean circulation in determining the global fate of polychlorinated biphenyls. Interdisciplinary Studies on Environmental Chemistry—Marine Environmental Modeling & Analysis, Eds., K. Omori, X. Guo, N. Yoshie, N. Fujii, I. C. Handoh, A. Isobe and S. Tanabe, pp. 169–178.
  382. McGregor, S., and A. Timmermann, 2011: The effect of explosive tropical volcanism on ENSO. J. Climate, 24, 2178–2191.
  383. Nishikawa, H., and I. Yasuda, 2011: Long–term variability of winter mixed layer depth and temperature along the Kuroshio jet in a high–resolution ocean general circulation model. J. Oceanogr., 67 (4), 503–518.
  384. Nishikawa, H., I. Yasuda, and S. Itoh, 2011: Impact of winter–to–spring environmental variability along the Kuroshio jet on the recruitment of Japanese sardine (Sardinops melanostictus). Fish. Oceanogr., 20, 570–582.
  385. Ogata, T., and Y. Masumoto, 2011: Interannual modulation and its dynamics of the mesoscale eddy variability in the southeastern tropical Indian Ocean. J. Geophys. Res., 116, C05005.
  386. Okuyama, J., T. Kitagawa, K. Zenimoto, S. Kimura, N. Arai, Y. Sasai, and H. Sasaki, 2011: Trans–Pacific dispersal of loggerhead turtle hatchlings inferred from numerical simulation modeling. Marine Biology, 158, 2055–2063.
  387. Perez, R. C., S. L. Garzoli, C. S. Meinen, and R. P. Matano, 2011: Geostrophic velocity measurement techniques for the meridional overturning circulation and meridional heat transport in the South Atlantic. J. Atmos. Ocean. Technol., 28, 1504–1521.
  388. Sasaki, Y. N., and N. Schneider, 2011: Decadal shifts of the Kuroshio Extension jet: application of thin–jet theory. J. Phys. Oceanogr., 41, 979–993.
  389. Sasaki, Y. N., and N. Schneider, 2011: Interannual to decadal Gulf Stream variability in an eddy–resolving ocean model. Ocean Modell., 39, 209–219.
  390. Thompson, A. F., and K. J. Richards, 2011: Low frequency variability of Southern Ocean jets, J. Geophys. Res., 116, C09022.
  391. van Sebille, E., M. O. Baringer, W. E. Johns, C. S. Meinen, L. M. Beal, M. F. de Jong, and H. M. van Aken, 2011: Propagation pathways of classical Labrador Sea water from its source region to 26°N. J. Geophys. Res., 116, C12027.
  392. van Sebille, E., L. M. Beal, and W. E. Johns, 2011: Advective time scales of Agulhas leakage to the North Atlantic in surface drifter observations and the 3D OFES model. J. Phys. Oceanogr., 41, 1026–1034.
  393. Zenimoto, K., Y. Sasai, H. Sasaki, and S. Kimura, 2011: Estimation of larval duration in Anguilla spp., based on cohort analysis, otolith microstructure, and Lagrangian simulations. Mar. Ecol. Prog. Ser., 438, 219–228.
  394. Aoki, S., Y. Sasai, H. Sasaki, H. Mitsudera, and G. D. Williams, 2010: The cyclonic circulation in the Australian–Antarctic basin simulated by an eddy–resolving general circulation model. Ocean Dyn. , 60 (3), 743–757.
  395. Ascani, F., E. Firing, P. Dutrieux, J. P. McCreary, and A. Ishida, 2010: Deep equatorial ocean circulation induced by a forced–dissipated Yanai beam. J. Phys. Oceanogr., 40, 1118–1142.
  396. Chen, J., T. Qu, Y. N. Sasaki, and N. Schneider, 2010: Anti–correlated variability in subduction rate of the western and eastern North Pacific Oceans identified by an eddy–resolving ocean GCM. Geophys. Res. Lett. , 37, L23608.
  397. Di Lorenzo, E., K. M. Cobb, J. C. Furtado, N. Schneider, B. T. Anderson, A. Bracco, M. A. Alexander, and D. J. Vimont, 2010: Central Pacific El Niño and decadal climate change in the North Pacific Ocean. Nature Geoscience, 3, 762–765.
  398. Hasegawa, T., K. Ando, K. Mizuno, R. Lukas, B. Taguchi, and H. Sasaki, 2010: Coastal upwelling along the north coast of Papua New Guinea and El Niño events during 1981–2005. Ocean Dyn. , 60 (5), 1255–1269.
  399. Iskandar, I., H. Sasaki, Y. Sasai, Y. Masumoto, and K. Mizuno, 2010: A numerical investigation of eddy–induced chlorophyll bloom in the southeastern tropical Indian Ocean during Indian Ocean Dipole – 2006. Ocean Dyn. , 60 (3), 731–742.
  400. Jin, B., G. Wang, Y. Liu, and R. Zhang, 2010: Interaction between the East China Sea Kuroshio and the Ryukyu Current as revealed by the self–organizing map. J. Geophys. Res., 115, C12047.
  401. Katsumata, K., and I. Yasuda, 2010: Estimates of non-tidal exchange transport between the Sea of Okhotsk and the North Pacific. J. Oceanogr., 66 (4), 489–504.
  402. Kawano, T., T. Doi, H. Uchida, S. Kouketsu, M. Fukasawa, Y. Kawai, and K. Katsumata, 2010: Heat content change in the Pacific Ocean between the 1990s and 2000s. Deep-Sea Res. II, 57 (13–14), 1141–1151.
  403. Kitagawa, T., Y. Kato, M. J. Miller, Y. Sasai, H. Sasaki and S. Kimura, 2010: The restricted spawning area and season of Pacific bluefin tuna facilitate use of nursery areas: A modeling approach to larval and juvenile dispersal processes. J. Exp. Mar. Biol. Ecol., 393(1–2), 23–31.
  404. Kwon, Y.-O., M. A. Alexander, N. A. Bond, C. Frankignoul, H. Nakamura, B. Qiu, and L. A. Thompson, 2010: Role of the Gulf Stream and Kuroshio–Oyashio systems in large-scale atmosphere–ocean interaction: A review. J. Climate, 23, 3249–3281.
  405. Ma, C., J. Yang, D. Wu, and X. Lin, 2010; The Kuroshio Extension: a leading mechanism for the seasonal sea-level variability along the west coast of Japan. Ocean Dyn. , 60 (3), 667–672.
  406. Maiwa, K., Y. Masumoto, and T. Yamagata, 2010: Characteristics of coastal trapped waves along the southern and eastern coasts of Australia. J. Oceanogr., 66 (2), 243–258.
  407. Masumoto, Y, 2010: Sharing results of a high-resolution ocean general circulation model under multi-discipline framework - A review of OFES activities -. Ocean Dyn. , 60 (3), 633–652.
  408. Melnichenko, O. V., N. A. Maximenko, N. Schneider, and H. Sasaki, 2010: Quasi-stationary striations in basin-scale oceanic circulation: vorticity balance from observations and eddy-resolving model. Ocean Dyn. , 60 (3), 653–666.
  409. Nakamura, H., M. Nonaka, and H. Sasaki, 2010: Seasonality of the Kuroshio path destabilization phenomenon in the Okinawa Trough: A numerical study of its mechanism. J. Phys. Oceanogr., 40 (3), 530–550.
  410. Ogata, T., and Y. Masumoto, 2010: Interactions between mesoscale eddy variability and Indian Ocean dipole events in the southeastern tropical Indian Ocean—case studies for 1994 and 1997/1998. Ocean Dyn. , 60 (3), 717–730.
  411. Sasai, Y., K. J. Richards, A. Ishida, and H. Sasaki, 2010: Effects of mesoscale eddies on the marine ecosystem in the Kuroshio Extension region using an eddy-resolving coupled physical-biological model. Ocean Dyn. , 60 (3), 693–704.
  412. Sasaki, H., S.-P. Xie, B. Taguchi, M. Nonaka, and Y. Masumoto, 2010: Seasonal variations of the Hawaiian Lee Countercurrent induced by the meridional migration of the Trade Winds. Ocean Dyn. , 60 (3), 705–715.
  413. Stein, K., N. Schneider, A. Timmermann, and F.-F. Jin, 2010: Seasonal synchronization of ENSO events in a linear stochastic model. J. Climate, 23, 5629–5643.
  414. Taguchi, B., B. Qiu, M. Nonaka, H. Sasaki, S.-P. Xie, and N. Schneider, 2010: Decadal variability in the Kuroshio Extension: Mesoscale eddies and recirculation. Ocean Dyn. , 60 (3), 673–691.
  415. Thompson, A. F., P. H. Haynes, C. Wilson, and K. J. Richards, 2010: Rapid Southern Ocean front transitions in an eddy-resolving ocean GCM. Geophys. Res. Lett. , 37, L23602.
  416. Timmermann, A., S. McGregor, and F.-F. Jin, 2010: Wind effects on past and future regional sea level trends in the southern Indo-Pacific. J. Climate, 23, 4429–4437.
  417. van der Werf, P. M., P. J. van Leeuwen, H. Ridderinkhof, and W. P. M. de Ruijter, 2010: Comparison between observations and models of the Mozambique Channel transport: Seasonal cycle and eddy frequencies. J. Geophys. Res., 115, C02002.
  418. von Storch, J.-S., 2010: Variations of vertical velocity in the deep oceans simulated by a 1/10° OGCM. Ocean Dyn. , 60 (3), 759–770.
  419. Zhuang, W., Y. Du, D. Wang, Q. Xie, and S.-P. Xie, 2010: Pathways of mesoscale variability in the South China Sea. Chin. J. Oceano. Lim., 28 (5), 1055–1067.
  420. Zhuang, W., S.-P. Xie, D. Wang, B. Taguchi, H. Aiki, and H. Sasaki, 2010: Intraseasonal variability in sea surface height over the South China Sea. J. Geophys. Res.-Oceans, 115 (C4), C04010.
  421. Aoki, K., A. Kubokawa, H. Sasaki, and Y. Sasai, 2009: Midlatitude baroclinic Rossby waves in a high-resolution OGCM simulation. J. Phys. Oceanogr., 39 (9), 2264–2279.
  422. Ceballos, L. I., E. Di Lorenzo, C. D. Hoyos, N. Schneider, and B. Taguchi, 2009: North Pacific Gyre Oscillation synchronizes climate fluctuations in the eastern and western boundary systems. J. Climate, 22 (19), 5163–5174.
  423. Doi, T., T. Tozuka, and T. Yamagata, 2009: Interannual variability of the Guinea Dome and its possible link with the Atlantic Meridional Mode. Climate Dyn., 33 (7–8), 985–998.
  424. Du, Y., S.-P. Xie, G. Huang, and K. Hu, 2009: Role of air–sea interaction in the long persistence of El Niño–induced North Indian Ocean warming. J. Climate, 22, 2023–2038.
  425. Hasegawa, T., K. Ando, K. Mizuno, and R. Lukas, 2009: Coastal upwelling along the north coast of Papua New Guinea and SST cooling over the Pacific warm pool: A case study for the 2002/03 El Niño event. J. Oceanogr., 65 (6), 817–833.
  426. Itoh, S., Yasuda, I., H. Nishikawa, H. Sasaki, and Y. Sasai, 2009: Transport and environmental temperature variability of eggs and larvae of the Japanese anchovy (Engraulis japonicus) and Japanese sardine (Sardinops melanostictus) in the western North Pacific estimated via numerical particle tracking experiments. Fish. Oceanogr., 18, 118–133.
  427. Kitagawa, T., S. Kimura, H. Nakata, H. Yamada, A. Nitta, Y. Sasai, and H. Sasaki, 2009: Immature Pacific bluefin tuna, Thunnus orientalis, utilizes cold waters in the Subarctic Frontal Zone for trans-Pacific migration. Environ. Biol. Fish., 84, 193–196.
  428. Qu, T., and J. Chen, 2009: A North Pacific decadal variability in subduction rate. Geophys. Res. Lett. , 36, L22602.
  429. Tozuka, T., T. Qu, Y. Masumoto, and T. Yamagata, 2009: Impacts of the South China Sea Throughflow on seasonal and interannual variations of the Indonesian Throughflow. Dyn. Atmos. Oceans , 47 (1–3), 73–85.
  430. Yaremchuk, M., J. McCreary, Z. Yu, and R. Furue, 2009: The South China Sea Throughflow retrieved from climatological data. J. Phys. Oceanogr., 39, 753–767.
  431. Zenimoto, K., T. Kitagawa, S. Miyazaki, Y. Sasai, H. Sasaki and S.Kimura, 2009: The effects of seasonal and interannual variability of oceanic structure in the western Pacific North Equatorial Current on larval transport of the Japanese eel Anguilla japonica. J. Fish Biol., 74, 1878–1890.
  432. Aiki, H., and K. J. Richards, 2008: Energetics of the global ocean: the role of layer-thickness form drag. J. Phys. Oceanogr., 38, 1845–1869.
  433. Du, Y., T. Qu, and G. Meyers, 2008: Interannual variability of sea surface temperature off Java and Sumatra in a global GCM. J. Climate, 21, 2451–2465.
  434. Holloway, G., 2008: Observing global ocean topostrophy. J. Geophys. Res., 113, C07054.
  435. Iskandar, I., T. Tozuka, Y. Masumoto, and T. Yamagata, 2008: Impact of Indian Ocean Dipole on intraseasonal zonal currents at 90°E on the equator as revealed by self-organizing map. Geophys. Res. Lett., 35, L14S03.
  436. Kawai, Y., T. Doi, H. Tomita, and H. Sasaki, 2008: Decadal-scale changes in meridional heat transport across 24°N in the Pacific Ocean. J. Geophys. Res., 113, C08021.
  437. Masumoto, Y., Y. Morioka, and H. Sasaki, 2008: High-resolution Indian Ocean simulations – Recent advances and issues from OFES-.In Ocean Modeling in an Eddying Regime, M. W. Hecht, H. Hasumi (eds.), Geophysical Monograph Series, 177, AGU, Washington D.C., 165–175.
  438. Maximenko, N. A., O. V. Melnichenko, P. P. Niiler, and H. Sasaki, 2008: Stationary mesoscale jet-like features in the ocean. Geophys. Res. Lett. , 35 (5), L08603.
  439. Masuda, Y., Y. Yamanaka, Y. Sasai, M. Magi, and T. Ohsumi, 2008: A numerical study with an eddy-resolving model to evaluate chronic impacts in CO2 ocean sequestration. Int. J. Greenhouse Gas Control, 2 (1), 89–94.
  440. Masuda, Y., Y. Yamanaka, Y. Sasai, M. Magi, and T. Ohsumi, 2009: Site selection in CO2 ocean sequestration: Dependence of CO2 injection rate on eddy activity distribution. Int. J. Greenhouse Gas Control, 3 (1), 67–76.
  441. Nagura, M., K. Ando, and K. Mizuno, 2008: Pausing of the ENSO cycle: A case study from 1998 to 2002. J. Climate, 21 (2), 342–363.
  442. Nakamura, H., A. Nishina, H. Ichikawa, M. Nonaka, and H. Sasaki 2008: Deep countercurrent beneath the Kuroshio in the Okinawa Trough. J. Geophys. Res., 113, C06030.
  443. Nonaka, M., H. Nakamura, Y. Tanimoto, T. Kagimoto, and H. Sasaki, 2008: Interannual-to-decadal variability in the Oyashio Current and its influence on temperature in the subarctic frontal zone: An eddy-resolving OGCM simulation. J. Climate, 21 (23), 6283–6303.
  444. Ogata, T., H. Sasaki, V. S. N. Murty, M. S. S. Sarma, and Y. Masumoto 2008: Intraseasonal meridional current variability in the eastern equatorial Indian Ocean. J. Geophys. Res., 113, C07037.
  445. Qiu, B., S. Chen, P. Hacker, N. G. Hogg, S. R. Jayne, and H. Sasaki, 2008: The Kuroshio Extension northern recirculation gyre: profiling float measurements and forcing mechanism. J. Phys. Oceanogr., 38 (8), 1764–1779.
  446. Qu, T., Y. Du, J. P. McCreary Jr., G. Meyers, and T. Yamagata, 2008: Buffering effect and its related ocean dynamics in the Indonesian Throughflow region. J. Phys. Oceanogr., 38 (2), 503–516.
  447. Qu, T., J. Gan, A. Ishida, Y. Kashino, and T. Tozuka, 2008: Semiannual variation in the western tropical Pacific Ocean. Geophys. Res. Lett. , 35, L16602.
  448. Richards, K., H. Sasaki, and F. Bryan, 2008: Jets and waves in the Pacific Ocean. In High Resolution Numerical Modelling of the Atmosphere and Ocean, K. Hamilton and W. Ohfuchi, chapter 11, Springer, New York, 187–196.
  449. Sasaki, H., M. Nonaka, Y. Masumoto, Y. Sasai, H. Uehara, and H. Sakuma, 2008: An eddy-resolving hindcast simulation of the quasi-global ocean from 1950 to 2003 on the Earth Simulator. In High Resolution Numerical Modelling of the Atmosphere and Ocean, K. Hamilton and W. Ohfuchi (eds.), chapter 10, Springer, New York, 157–186.
  450. Sasaki, Y. N., S. Minobe, N. Schneider, T. Kagimoto, M. Nonaka, and H. Sasaki, 2008: Decadal sea level variability in the South Pacific in a global eddy-resolving ocean model hindcast. J. Phys. Oceanogr., 38 (8), 1731–1747.
  451. Suzuki, T., H. Sasaki, N. Nakashiki, and H. Nakano, 2008: Common success and failure in simulating the Pacific surface currents shared by four high-resolution ocean models. In Ocean Modeling in an Eddying Regime, M. W. Hecht, H. Hasumi (eds.), Geophysical Monograph Series, 177, AGU, Washington D.C., 199–212.
  452. Aoki, S., M. Hariyama, H. Mitsudera, H. Sasaki, and Y. Sasai, 2007, Formation regions of Subantarctic Model Water detected by OFES and Argo profiling. Geophys. Res. Lett. ,. 34 (10), L10606.
  453. Aoki, S., D. Fukai, T. Hirowake, S. Ushio, S. R. Rintoul, H. Sasumoto, T. Ishimaru, H. Sasaki, T. Kagimoto, Y. Sasai, and H. Mitsudera (2007): A series of cyclonic eddies in the Antarctic Divergence off Adelie Coast. J. Geophys. Res., 112 (C5), C05019.
  454. Doi, T., T. Tozuka, H. Sasaki, Y. Masumoto, and T. Yamagata, 2007: Seasonal and interannual variations of oceanic conditions in the Angola Dome. J. Phys. Oceanogr., 37 (11), 2698–2713.
  455. Godfrey, J. Stuart, R.-J. Hu, A. Schiller, and R. Fiedler, 2007: Explorations of the annual mean heat budget of the tropical Indian Ocean. Part I: studies with an idealized model. J. Climate, 20, 3210–3228.
  456. Kim, H., S. Kimura, A. Shinoda, T. Kitagawa, Y. Sasai, and H. Sasaki, 2007: Effect of El Niño on migration and larval transport of the Japanese eel (Anguilla japonica). ICES J. Mar. Sci., 64 (7), 1387–1395.
  457. Merryfield, W.J., and R. B. Scott, 2007: Bathymetric influence on mean currents in two high-resolution near-global ocean models. Ocean Modell., 16, 76–94.
  458. Nonaka, M., and H. Sasaki, 2007: Formation mechanism for isopycnal temperature–salinity anomalies propagating from the eastern South Pacific to the equatorial region. J. Climate, 20 (7), 1305–1315.
  459. Ohfuchi, W., H. Sasaki, Y. Masumoto, and H. Nakamura, 2007, “Virtual" atmospheric and oceanic circulations in the Earth Simulator, BAMS, 88 (6), 861–866.
  460. Sasai Y., H. Sasaki, K. Sasaoka, A. Ishida, and Y. Yamanaka, 2007, Marine ecosystem simulation in the eastern tropical Pacific with a global eddy resolving coupled physical-biological model. Geophys. Res. Lett. , 34, L23601.
  461. Sasai, Y., K. Sasaoka, H. Sasaki, and A Ishida, 2007: Seasonal and intra-seasonal variability of chlorophyll-a in the North Pacific: Model and satellite data, J. Earth Simulator, 8, 3–11.
  462. Sasaki, H., B. Taguchi, M. Nonaka, and Y. Masumoto, 2007: A series of quasi-global eddy-resolving ocean simulations, CLIVAR Exchanges, 42 (12(3)), 5–7.
  463. Taguchi, B., S.-P. Xie, N. Schneider, M. Nonaka, H. Sasaki, and Y. Sasai, 2007: Decadal variability of the Kuroshio Extension: Observations and an eddy-resolving model hindcast. J. Climate, 20 (11), 2357–2377.
  464. von Storch, J. S., H. Sasaki, and J. Marotzke, 2007: Wind-generated power input to the deep ocean: an estimate using a 1/10° general circulation model. J. Physic. Oceanogr., 37 (3), 657–672.
  465. Wu, L., F. Wang, D. Yuan, and M. Cui, 2007: Evolution of freshwater plumes and salinity fronts in the northern Bay of Bengal. J. Geophys. Res., 112, C08017.
  466. Araki, F., H. Uehara, N. Ohno, S. Kawahara, M. Furuichi, and A. Kageyama, 2006: Visualizations of large-scale data generated by the Earth Simulator. J. Earth Simulator, 6, 25–34.
  467. Furuichi, M., F. Araki, and H. Sasaki, 2006:Visualization analysis of large-scale three-dimensional scalar data of ocean simulation. J. Visual., 9 (4), 356.
  468. Iskandar, I., T. Tozuka, H. Sasaki, Y. Masumoto, and T. Yamagata, 2006: Intraseasonal variations of surface and subsurface currents off Java as simulated in a high-resolution OGCM. J. Geophys. Res., 111 (C12), C12015.
  469. Nonaka, M., H. Nakamura, Y. Tanimoto, T. Kagimoto, and H. Sasaki, 2006: Decadal variability in the Kuroshio-Oyashio Extension simulated in an eddy-resolving OGCM. J. Climate, 19, 1970–1989.
  470. Nakamura, M. and T. Kagimoto, 2006: Potential vorticity and eddy potential enstrophy in the North Atlantic Ocean simulated by a global eddy-resolving model. Dyn. Atmos. Oceans , 41 (1), 28–59.
  471. Nakamura, M. and T. Kagimoto, 2006: Transient wave activity and its fluxes in the North Atlantic Ocean simulated by a global eddy-resolving model. Dyn. Atmos. Oceans , 41 (1), 60–84.
  472. Qu, T., Y. Du, and H. Sasaki, 2006; South China Sea throughflow: A heat and freshwater conveyor. Geophys. Res. Lett. , 33, L23617.
  473. Richards, K., J., N. A. Maximenko, F. O. Bryan, and H. Sasaki, 2006: Zonal jets in the Pacific Ocean. Geophys. Res. Lett. , 33, L03605, doi:10.1029/2005GL024645.
  474. Sasai,Y., A. Ishida, H. Sasaki, S. Kawahara, H. Uehara, and Y. Yamanaka, 2006: A global eddy-resolving coupled physical-biological model: Physical influences on a marine ecosystem in the North Pacific. Simulation, 82 (7), 467–474.
  475. Sasaki, H., Y. Sasai, M. Nonaka, Y. Masumoto, and S. Kawahara, 2006: An eddy-resolving simulation of the quasi-global ocean driven by satellite-observed wind field: Preliminary outcomes from physical and biological fields. J. Earth Simulator, 6, 35–49.
  476. Sasaki, H., and M. Nonaka, 2006: Far-reaching Hawaiian Lee Countercurrent driven by wind-stress curl induced by warm SST band along the current. Geophys. Res. Lett. , 33, L13602.
  477. Du, Y., T. Qu, G. Meyers, Y. Masumoto, and H. Sasaki, 2005: Seasonal heat budget in the mixed layer of the Southern Tropical Indian Ocean in a high resolution Ocean General Circulation Model. J. Geophys. Res., 110, C04012.
  478. Maximenko N., B. Bang, and H. Sasaki, 2005: Observational evidence of alternating zonal jets in the World Ocean. Geophy. Res. Lett., 32, L12607.
  479. Ohfuchi, W., H. Sasaki, Y. Masumoto, and H. Nakamura, 2005: Mesoscale resolving simulations of the global atmosphere and ocean on the Earth Simulator. Eos, 86 (5), 45–46.
  480. Sasai, Y., A. Ishida, H. Sasaki, S. Kawahara, H. Uehara, and Y. Yamanaka, 2005: A global eddy-resolving coupled physical-biological model: Physical influences on a marine ecosystem in the North Pacific, In; Hill, D.R.C., V. Barra, and M.K. Troer (eds) Open International Conference on Modeling and Simulation – OICMS 2005, Blaise Pascal University, France, 129–138.
  481. Sasai, Y., A. Ishida1, H. Sasaki, S. Kawahara, H. Uehara, and Y. Yamanaka, 2005: Spreading of Antarctic Bottom Water examined with the simulated CFC-11 distribution: Results of CFC-11 simulation in an eddy-resolving OGCM., Polar Meteorol. Glaciol., 19, 15–27.
  482. Vinayachandran, P. N., T. Kagimoto, Y. Masumoto, P. Chauhan, S. R. Nayak, and T. Yamagata, 2005: Bifurcation of the East India Coastal Current east of Sri Lanka. Geophys. Res. Lett. , 32, L15606, doi:10.1029/2005GL022864.
  483. Masumoto Y., H. Sasaki, T. Kagimoto, N. Komori, A. Ishida, Y. Sasai, T. Miyama, T. Motoi, H. Mitsudera, K. Takahashi, H. Sakuma, and T. Yamagata, 2004: A Fifty-Year Eddy-Resolving Simulation of the World Ocean - Preliminary Outcomes of OFES (OGCM for the Earth Simulator)-. J. Earth Simulator, 1, 35–56.
  484. Sasai, Y., A. Ishida, Y. Yamanaka, and H. Sasaki, 2004: Chlorofluorocarbons in a global ocean eddy-resolving OGCM: Pathway and formation of Antarctic Bottom Water. Geophy. Res. Lett., 31, L12305.
  485. Sasaki, H., Y. Sasai, S. Kawahara, M. Furuichi, F. Araki, A. Ishida, Y. Yamanaka, Y. Masumoto, and H. Sakuma, 2004: A series of eddy-resolving ocean simulations in the world ocean - OFES(OGCM for the Earth Simulator) project-. OCEAN'04, 3, pp. 1535–1541.
  486. Sakuma, H., H. Sasaki, K. Takahashi, Y. Tsuda, M. Kanazawa, S. Kitawaki, T. Kagimoto, and T. Sato, 2003: Accomplishment of fifty-years-long global eddy-resolving simulation by the Earth Simulator. NEC Research & Development, 44 (1), 104–108.
  487. Takahashi, K., Y. Tsuda, M. Kanazawa, S. Kitawaki, H. Sasaki, and T. Sato, 2003: Parallel architecture and its performance of Oceanic Global Circulation Model based on MOM3 to be run on the Earth Simulator. in Parallel Computational Fluid Dynamics − New Frontiers and Multi-Disciplinary Applications , K. Matsuno et al. (Editors), 101–108, Elsevier.
  488. Sakuma, H., H. Sasaki, K. Takahashi, T. Kagimoto, T. Yamagata, and T. Sato, 2003: Global Eddy-resolving simulation by the Earth Simulator: Brief report on the first run. In Recent Advances in Marine Science and Technology, 2002, N. K. Saxena (Ed.), PACON International, 47–59.