2021 ǯ ʪإߥʡ
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ͽɽ
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- βϡֺ³ιֱԤȯɽȤʤޤ
| ȯɽ | ȯɽ | |
|---|---|---|
| Ƴش | ||
| 04/08ڡ | ߥʡ() |
ʸҲ: Explorations of the Annual Mean Heat Budget of the Tropical Indian Ocean. Part I: Studies with an Idealized Model. Godfrey et al. (2007) J. Clim., 20(13), 3210-3228.쥸(PDF, 0.83MB) |
| 04/15ڡ | ||
| 04/22ڡ | ġͺμ |
ʸҲ: Vertical Structure of Kelvin Waves in the Indonesian Throughflow Exit Passages. Drushka K. et al. (2010) J. Phys. Oceanogr., 40(9), 1965-1987.쥸(PDF, 2.2MB) |
| 04/29ڡ | ¤Τٹ | |
| 05/06ڡ | |
ʸҲ: Tropical atmospheric response to decadal changes in the Atlantic Equatorial Mode. Losada T. and Rodrguez-Fonseca B. (2016) J. Clim. Dyn., 47(3), 1211-1224.쥸(PDF, 4.7MB) |
| 05/13ڡ | ||
| 05/20ڡ | ʿͺ |
ʸҲ: The Impact of Finite-Amplitude Bottom Topography on Internal Wave Generation in the Southern Ocean. Nikurashin M. et al. (2014) J. Phys. Oceanogr., 44(11), 2938-2950.쥸(PDF, 2.5MB) |
| 05/27ڡ | ||
| 06/03ڡ | jpGUŴ | |
| 06/10ڡ15:00~16:30 | ġϯ | 絤ιƱߥʡ˼ήˤ뱲ʿήߺ 쥸(PDF, 1.4MB) |
| 06/17ڡ15:00~16:30 | ¼ġ | 絤ιƱߥʡʿνǯϿưˤ볤̿岹кƽи 쥸(PDF, 0.65MB) |
| 06/24ڡ | ͺ |
ʸҲ: Asymmetry in the tropical Indian Ocean subsurface temperature variability. Kakatkar, R. et al. (2020) Dynamics of Atmospheres and Oceans, 90, 101142.쥸(PDF, 26.9MB) |
| 06/30ʿ10:2511:55 | ľ ʶ彣رϳظ | 絤ιƱߥʡǮͥ륮羮ǥ |
| 07/01ڡ | ֵΤٹ | |
| 07/08ڡ | ¼ |
ʸҲ: Feedback of mixing to ENSO phase change. Warner, S.J. and Moum, J. N. (2019) Geophysical Research Letters, 43, 13,920-13,927.쥸(PDF, 0.99MB) |
| 07/08ڡ15:00~16:30 | 絤ιƱߥʡ¬ǡӥǡƱͤѤƻMLTΰ濴Ȥ뵨⿶ưݤβ | |
| 07/15ڡ | Ziyu Ye |
ʸҲ: Local Atmosphere-Ocean Predictability: Dynamical Origins, Lead Times, and Seasonality. Bach, E. et al. (2019) Journal of Climate, 32(21), 7507-7519.쥸(PDF, 1.4MB) |
| 07/15ڡ13:30~15:00 | ܾ롡Ϻ |
ʸҲ: Processes setting the characteristics of sea surface cooling induced by tropical cyclones. Vincent, E. M. et al. (2012) J. Geophys. Res., 117, C02020.쥸(PDF, 1.1MB) |
| 07/22ڡ | Τٹ | |
| 07/29ڡ | ġƵ |
ʸҲ: Depth Structure of Ningaloo Nio/Nia Events and Associated Drivers. Ryan, S. et al. (2021) Journal of climate, 34(5), 1767-1788.쥸(PDF, 0.49MB) |
| ߳ش | ||
| 10/14ڡ | |
ʸҲ: Yanai waves in the western equatorial Indian Ocean. Chatterjee, A. et al. (2013) J. Geophys. Res., 118, 1556-1570.쥸(PDF, 1.4MB) |
| 10/21ڡ | ġͺμ | ʸȯɽIndo-Pacific interbasin exchange of equatorial wave energy through the Indonesian archipelago in a reduced gravity model.쥸(PDF, 0.95MB) |
| 10/28ڡ | ͺ | ʸȯɽUpper ocean temperature variability associated with the Indian Ocean Dipole revealed by a complex network.쥸(PDF, 2.4MB) |
| 11/04ڡ | | ʸȯɽInterdecadal modulation of tropical Indo-Pacific climate interactions and its effects on the decay of ENSO.쥸(PDF, 0.40MB) |
| 11/11ڡ | ʿͺ | ʸȯɽϷ˷ήۥåȥݥåȤαľ¤˴ؤƹͻ쥸(PDF, 0.54MB) |
| 11/18ڡ | ||
| 11/25ڡ | ||
| 12/02ڡ | ||
| 12/09ڡ | ¼ |
ʸҲ: Mechanisms Controlling the Interannual Variation of Mixed Layer Temperature Averaged over the Nio-3 Region. Kim, S., Lee, T., & Fukumori, I. (2007) Journal of Climate, 20(15), 3822-3843.쥸(PDF, 0.88MB) |
| 12/16ڡ | Ying He | ȯɽNumerical study of the Vertical Structure of Internal Lee Wave-driven Bottom-enhanced Mixing.쥸(PDF, 1.3MB) |
| 12/23ڡ | Ziyu Ye |
ʸҲ: On the relationship between SST gradients, boundary layer winds, and convergence over the tropical oceans. Back L E. and Bretherton C S. (2009) Journal of Climate, 22(15), 4182-4196.쥸(PDF, 1.7MB) |
| 1/06ڡ | ||
| 1/13ڡ | ||
| 1/20ڡ13:00~14:30 | ܾ롡Ϻ |
ʸҲ: Linear theory of the response of a two layer ocean to a moving hurricane. J. E. Geisler (1970) Geophys. Astrophys. Fluid Dyn., 1, 1-2, 249-272.쥸(PDF, 0.58MB) |
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2022-04-11 12:22:54 JST