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Publications (as first author)

2024

  1. C. Kodama, H. Yashiro, T. Arakawa, D. Takasuka, S. Matsugishi, and H. Tomita (2024), Parallelized remapping algorithms for km-scale global weather and climate simulations with icosahedral grid system, HPCAsia '24: Proceedings of the International Conference on High Performance Computing in Asia-Pacific Region, doi:10.1145/3635035.3635040. (Best Paper Awards)

2021

  1. C. Kodama, T. Ohno, T. Seiki, H. Yashiro, A. T. Noda, M. Nakano, Y. Yamada, W. Roh, M. Satoh, T. Nitta, D. Goto, H. Miura, T. Nasuno, T. Miyakawa, Y.-W. Chen, and M. Sugi (2021), The Nonhydrostatic ICosahedral Atmospheric Model for CMIP6 HighResMIP simulations (NICAM16-S): experimental design, model description, and impacts of model updates, Geosci. Model Dev., 14, 795-820, doi:10.5194/gmd-14-795-2021.

2019

  1. C. Kodama, B. Stevens, T. Mauritsen, T. Seiki, and M. Satoh (2019), A new perspective for future precipitation change from intense extratropical cyclones, Geophys. Res. Lett., 46, 21, 12435-12444, doi:10.1029/2019GL084001. (Top 10% most downloaded paper 2018-2019)
  2. C. Kodama, A. Kuwano-Yoshida, S. Watanabe, T. Doi, H. Kashimura, and T. Nasuno (2019), JAMSTEC Model Intercomparision Project (JMIP), JAMSTEC Report of Research and Development, 28, 5-34, doi:10.5918/jamstecr.28.5.

2015

  1. C. Kodama, Y. Yamada, A. T. Noda, K. Kikuchi, Y. Kajikawa, T. Nasuno, T. Tomita, T. Yamaura, H. G. Takahashi, M. Hara, Y. Kawatani, M. Satoh, and M. Sugi (2015), A 20-year climatology of a NICAM AMIP-type simulation, J. Meteor. Soc. Japan, 93, 4, 393-424, doi:10.2151/jmsj.2015-024.

2014

  1. C. Kodama, M. Terai, A. T. Noda, Y. Yamada, M. Satoh, T. Seiki, S. Iga, H. Yashiro, H. Tomita, K. Minami (2014), Scalable rank-mapping algorithm for an icosahedral grid system on the massive parallel computer with a 3-D torus network, Parallel Comput., 40, 8, 362-373, doi:10.1016/j.parco.2014.06.002.
  2. C. Kodama, S. Iga, and M. Satoh (2014), Impact of the sea surface temperature rise on storm-track clouds in global non-hydrostatic aqua-planet simulations, Geophys. Res. Lett., 41, 10, 3545-3552, doi:10.1002/2014GL059972.

2012

  1. C. Kodama, A. T. Noda, and M. Satoh (2012), An Assessment of the cloud signals simulated by NICAM using ISCCP, CALIPSO, and CloudSat satellite simulators, J. Geophys. Res., 117, D12, doi:10.1029/2011JD017317.

2010

  1. C. Kodama, Y. Mochizuki, S. Hasegawa, T. Iwasaki, and M. Watanabe (2010), Negative correlation between the interannual variabilities of the stationary and transient wave energy in the Northern Hemisphere, SOLA, 6, 37-40, e2023MS003701, doi:10.2151/sola.2010-010.

2009

  1. C. Kodama and T. Iwasaki (2009), Influence of the SST rise on baroclinic instability wave activity under an aqua planet condition, J. Atmos. Sci., 66, 8, 2272-2287, doi:10.1175/2009JAS2964.1.

2007

  1. C. Kodama, T. Iwasaki, K. Shibata, and S. Yukimoto (2007), Changes in the stratospheric mean meridional circulation due to increased CO2: Radiation- and sea surface temperature-induced effects, J. Geophys. Res., 112, D16103, doi:10.1029/2006JD008219.

Publications (as co-author)

Accepted

  1. D. Takasuka, M. Satoh, T. Miyakawa, C. Kodama, D. Klocke, B. Stevens, P. L. Vidale, C. R. Terai, A protocol and analysis of year-long simulations of global storm-resolving models and beyond, Prog. Earth and Planet. Sci., accepted.

2024

  1. Y. H. Takano, C. Kodama, and H. Miura (2024), Diagnostic method for atmosphere-ocean coupling over tropical oceans at the sub-seasonal timescale, Geophys. Res. Lett., 51, 8, e2023GL106837, doi:10.1029/2023GL106837.
  2. B. Stevens, S. Adami, T. Ali, H. Anzt, Z. Aslan, S. Attinger, J. Baack, J. Baehr, P. Bauer, N. Bernier, B. Bishop, H. Bockelmann, S. Bony, G. Brasseur, D. N. Bresch, S. Breyer, G. Brunet, P. L. Buttigieg, J. Cao, C. Castet, Y. Cheng, A. D. Choudhury, D. Coen, S. Crewell, A. Dabholkar, Q. Dai, F. Doblas-Reyes, D. Durran, A. El Gaidi, C. Ewen, E. Exarchou, V. Eyring, F. Falkinhoff, D. Farrell, P. M. Forster, A. Frassoni, C. Frauen, O. Fuhrer, S. Gani, E. Gerber, D. Goldfarb, J. Grieger, N. Gruber, W. Hazeleger, R. Herken, C. Hewitt, T. Hoefler, H.-H. Hsu, D. Jacob, A. Jahn, C. Jakob, T. Jung, C. Kadow, I.-S. Kang, S. Kang, K. Kashinath, K. K.-von Konigslow, D. Klocke, U. Kloenne, M. Klower, C. Kodama, S. Kollet, T. Kolling, J. Kontkanen, S. Kopp, M. Koran, M. Kulmala, H. Lappalainen, F. Latifi, B. Lawrence, J. Y. Lee, Q. Lejeun, C. Lessig, C. Li, T. Lippert, J. Luterbacher, P. Manninen, J. Marotzke, S. Matsouoka, C. Merchant, P. Messmer, G. Michel, K. Michielsen, T. Miyakawa, J. Muller, R. Munir, S. Narayanasetti, O. Ndiaye, C. Nobre, A. Oberg, R. Oki, T. Ozkan-Haller, T. Palmer, S. Posey, A. Prein, O. Primus, M. Pritchard, J. Pullen, D. Putrasahan, J. Quaas, K. Raghavan, V. Ramaswamy, M. Rapp, F. Rauser, M. Reichstein, A. Revi, S. Saluja, M. Satoh, V. Schemann, S. Schemm, C. S. Poberaj, T. Schulthess, C. Senior, J. Shukla, M. Singh, J. Slingo, A. Sobel, S. Solman, J. Spitzer, D. Stammer, P. Stier, T. Stocker, S. Strock, H. Su, P. Taalas, J. Taylor, S. Tegtmeier, G. Teutsch, A. Tompkins, U. Ulbrich, P.-L. Vidale, C.-M. Wu, H. Xu, N. Zaki, L. Zanna, T. Zhou, and F. Ziemen, (2024), Earth Virtualization Engines (EVE), Earth System Science Data, 16, 4, 2113-2122, doi:10.5194/essd-16-2113-2024.
  3. D. Takasuka, C. Kodama, T. Suematsu, T. Ohno, Y. Yamada, T. Seiki, H. Yashiro, M. Nakano, H. Miura, A. T. Noda, T. Nasuno, T. Miyakawa, and R. Masunaga (2024), How can we improve the seamless representation of climatological statistics and weather toward reliable global k-scale climate simulations?, J. Adv. Model. Earth Syst., 16, 2, doi:10.1029/2023MS003701. (Editor's highlight)

2023

  1. M. Tanoue, H. Yashiro, Y. Takano, K. Yoshimura, C. Kodama, and M. Satoh (2023): Modeling water isotopes using a global non‐hydrostatic model with an explicit convection: Comparison with gridded data sets and site observations, J. Geophys. Res., 128, 23, e2021JD036419, doi:10.1029/2021jd036419.
  2. H. Miura, T. Suematsu, Y. Kawai, Y. Yamagami, D. Takasuka, Y. Takano, C.-S. Hung, K. Yamazaki, C. Kodama, Y. Kajikawa, and Y. Masumoto (2023): Asymptotic matching between weather and climate models, Bull. Am. Meteorol. Soc., 104, 12, E2308-E2315, doi:10.1175/BAMS-D-22-0128.1. (Editor's highlight)
  3. A. Noda, T. Ohno, C. Kodama, Y.-W. Chen, N. Kuba, T. Seiki, Y. Yamada, and M. Satoh (2023): Recent global nonhydrostatic modeling approach without using a cumulus parameterization to understand the mechanisms underlying cloud changes due to global warming, Prog. Earth and Planet. Sci., 10, 48, doi:10.1186/s40645-023-00583-x.
  4. D. Matsuoka, C. Kodama, Y. Yamada, M. Nakano (2023): Tropical cyclone dataset for a high-resolution global nonhydrostatic atmospheric simulation, Data in Brief, 48, doi:10.1016/j.dib.2023.109135.
  5. Y. Yamada, T. Miyakawa, M. Nakano, C. Kodama, A. Wada, T. Nasuno, Y. Chen, A. Yamazaki, H. Yashiro, M. Satoh (2023): Large ensemble simulation for investigating predictability of precursor vortices of Typhoon Faxai in 2019 with a 14-km mesh global nonhydrostatic atmospheric model, Geophys. Res. Lett., 50, 3, e2022GL100565, doi:10.1029/2022GL100565.

2022

  1. T. Suematsu, H. Miura, C. Kodama, and D. Takasuka (2022): Deceleration of Madden-Julian Oscillation speed in NICAM AMIP-type simulation associated with biases in the Walker circulation strength, Geophys. Res. Lett., 49, 11, e2022GL098628, doi:10.1029/2022GL098628.
  2. Y. Na, Q. Fu, L. R. Leung, C. Kodama, and R. Lu (2022): Mesoscale convective systems simulated by a high-resolution global nonhydrostatic model over the United States and China, J. Geophys. Res., 127, 7, e2021JD035916, doi:10.1029/2021JD035916.
  3. Y.-W. Chen, M. Satoh, C. Kodama, A. T. Noda, and Y. Yamada (2022), Projection of high clouds and its link to ice hydrometeors: An approach by using longterm global cloud-system resolving simulations, J. Climate, 35, 11, 3495-3514, doi:10.1175/JCLI-D-21-0150.1.

2021

  1. R. Shibuya, M. Nakano, C. Kodama, T. Nasuno, K. Kikuchi, M. Satoh, H. Miura, and T. Miyakawa (2021), Prediction skill of the boreal summer intra-seasonal oscillation in global non-hydrostatic atmospheric model simulations with explicit cloud microphysics, J. Meteor. Soc. Japan, 99, 973-992, doi:10.2151/jmsj.2021-046.
  2. F. Judt, D. Klocke, R. Rios-Berrios, B. Vanniere, F. Ziemen, L. Auger, J. Biercamp, C. Bretherton, X. Chen, P. Duben, C. Hohenegger, M. Khairoutdinov, C. Kodama, L. Kornblueh, S.-J. Lin, M. Nakano, P. Neumann, W. Putman, N. Rober, M. Roberts, M. Satoh, R. Shibuya, B. Stevens, P. L. Vidale, N. Wedi, and L. Zhou (2021), Tropical cyclones in global storm-resolving models, J. Meteor. Soc. Japan, 99, 579-602, doi:10.2151/jmsj.2021-029.
  3. Y. Na, R. Lu, Q. Fu and C. Kodama (2021), Precipitation characteristics and future changes over the southern slope of Tibetan Plateau simulated by a high-resolution global nonhydrostatic model, J. Geophys. Res., 126, 3, e2020JD033630, doi:10.1029/2020JD033630.
  4. Y. Yamada, C. Kodama, M. Satoh, M. Sugi, M. J Roberts, R. Mizuta, A. T. Noda, T. Nasuno, M. Nakano, P. L. Vidale (2021), Evaluation of the contribution of tropical cyclone seeds to changes in tropical cyclone frequency due to global warming in high-resolution multi-model ensemble simulations, Prog. Earth and Planet. Sci., 8, 11, doi:10.1186/s40645-020-00397-1.

2020

  1. H. G. Takahashi, N. Kamizawa, T. Nasuno, Y. Yamada, C. Kodama, S. Sugimoto, M. Satoh (2020), Response of the Asian summer monsoon precipitation to global warming in a high-resolution global nonhydrostatic model, J. Climate, 33, 18, 8147-8164, doi:10.1175/JCLI-D-19-0824.1.
  2. M. Sugi, Y. Yamada, K. Yoshida, R. Mizuta, M. Nakano, C. Kodama, M. Satoh (2020), Future changes in the global frequency of tropical cyclone seeds, SOLA, 16, 70-74, doi:10.2151/sola.2020-012.
  3. M. J. Roberts, J. Camp, J. Seddon, P. L. Vidale, K. Hodges, B. Vanniere, J. Mecking, R. Haarsma, A. Bellucci, E. Scoccimarro, L.-P. Caron, F. Chauvin, L. Terray, S. Valcke, M.-P. Moine, D. Putrasahan, C. D. Roberts, R. Senan, C. Zarzycki, P. Ullrich, Y. Yamada, R. Mizuta, C. Kodama, D. Fu, Q. Zhang, G. Danabasoglu, N. Rosenbloom, H. Wang, L. Wu (2020), Projected Future Changes in Tropical Cyclones using the CMIP6 HighResMIP Multi-model Ensemble, Geophys. Res. Lett., 47, 14, e2020GL088662, doi:10.1029/2020GL088662.
  4. Y. Na, Q. Fu, and C. Kodama (2020), Precipitation probability and its future changes from a global cloud-resolving model and CMIP6 simulations, J. Geophys. Res., 125, 5, e2019JD031926, doi:10.1029/2019JD031926.

2019

  1. T. Seiki, C. Kodama, M. Satoh, Y. Hagihara, and H. Okamoto (2019), Characteristics of ice clouds over mountain regions detected by CALIPSO and CloudSat satellite observations, J. Geophys. Res., 124, 20, 10858-10877, doi:10.1029/2019JD030519.
  2. B. Stevens, M. Satoh, L. Auger, J. Biercamp, C. Bretherton, X. Chen, P. Duben, F. Judt, M. Khairoutdinov, D. Klocke, C. Kodama, L. Kornblueh, S.-J. Lin, P. Neumann, W. Putman, N. Rober, R. Shibuya, B. Vanniere, P.-L. Vidale, N. Wedi, L. Zhou (2019), DYAMOND: The DYnamics of the Atmospheric general circulation Modeled On Non-hydrostatic Domains, Prog. Earth and Planet. Sci., 6, 61, doi:10.1186/s40645-019-0304-z. (The Most Downloaded Paper Award 2020, The Most Cited Paper Award 2021)
  3. A. T. Noda, C. Kodama, Y. Yamada, M. Satoh, T. Ogura, and T. Ohno (2019): Responses of clouds and large-scale circulation to global warming evaluated from multi-decadal simulations using a global nonhydrostatic model, J. Adv. Model. Earth Syst., 11, 9, 2980-2995, doi:10.1029/2019MS001658. (Top 10% most downloaded paper 2018-2019)
  4. Y. Yamada, C. Kodama, M. Satoh, M. Nakano, T. Nasuno, and M. Sugi (2019), High-resolution ensemble simulations of intense tropical cyclones and their internal variability during the El Ninos of 1997 and 2015, Geophys. Res. Lett., 46, 13, 7592-7601, doi:10.1029/2019GL082086.
  5. D. T. McCoy, P. R. Field, G. S. Elsaesser, A. Bodas-Salcedo, B. H. Kahn, M. D. Zelinka, C. Kodama, T. Mauritsen, B. Vanniere, M. Roberts, P. L. Vidale, D. Saint-Martin, A. Voldoire, R. Haarsma, A. Hill, B. Shipway, and J. Wilkinson (2019), Cloud feedbacks in extratropical cyclones: insight from long-term satellite data and high-resolution global simulations, Atmos. Chem. Phys., 19, 1147-1172, doi:10.5194/acp-19-1147-2019.

2018

  1. T. Miyakawa, A. T. Noda, and C. Kodama (2018), The impact of hybrid usage of a cumulus parameterization scheme on tropical convection and large-scale circulations in a global cloud-system resolving model, J. Adv. Model. Earth Syst., 10, 11, 2952-2970, doi:10.1029/2018MS001302.
  2. M. Satoh, A. T. Noda, T. Seiki, Y.-W. Chen, C. Kodama, Y. Yamada, N. Kuba, and Y. Sato (2018), Toward reduction of the uncertainties in climate sensitivity due to cloud processes using a global non-hydrostatic atmospheric model, Prog. Earth and Planet. Sci., 5, 67, doi:10.1186/s40645-018-0226-1.
  3. K. Ishijima, M. Takigawa, Y. Yamashita, H. Yashiro, C. Kodama, M. Satoh, K. Tsuboi, H. Matsueda, Y. Niwa, and S. Hirao (2018), Analysis of high radon-222 concentration events using multi-horizontal-resolution NICAM simulations, SOLA, 14, 111-115, doi:10.2151/sola.2018-019.
  4. M. Nakano, H. Yashiro, C. Kodama, and H. Tomita (2018), Single precision in the dynamical core of a nonhydrostatic global atmospheric model: Evaluation using a baroclinic wave test case, Mon. Wea. Rev., 146, 2, 409-416, doi:10.1175/MWR-D-17-0257.1.
  5. Y.-W. Chen, T. Seiki, C. Kodama, M. Satoh, and A. T. Noda (2018), Impact of precipitating ice hydrometeors on longwave radiative effect estimated by a global cloud-system resolving model, J. Adv. Model. Earth Syst., 10, 2, 284-296, doi:10.1002/2017MS001180.

2017

  1. Y. Yamada, M. Satoh, M. Sugi, C. Kodama, A. T. Noda, M. Nakano and T. Nasuno (2017), Response of tropical cyclone activity and structure to global warming in a high-resolution global nonhydrostatic model, J. Climate, 30, 23, 9703-9724, doi:10.1175/JCLI-D-17-0068.1.
  2. Y. Yamashita, M. Takigawa, K. Ishijima, H. Akiyoshi, C. Kodama, H. Yashiro and M. Satoh (2017), Resolution dependency of numerically simulated stratosphere-to-troposphere transport associated with mid-latitude closed cyclones in early spring around Japan, SOLA, 13, 186-191, doi:10.2151/sola.2017-034.
  3. K. Kikuchi, C. Kodama, T. Nasuno, M. Nakano, H. Miura, M. Satoh, A. T. Noda and Y. Yamada (2017), Tropical intraseasonal oscillation simulated in an AMIP-type experiment by NICAM, Climate Dyn., 48, 2507-2528, doi:10.1007/s00382-016-3219-z.
  4. M. Satoh, H. Tomita, H. Yashiro, Y. Kajikawa, Y. Miyamoto, T. Yamaura, T. Miyakawa, M. Nakano, C. Kodama, A. T. Noda, T. Nasuno, Y. Yamada and Y. Fukutomi (2017), Outcomes and challenges of global high-resolution non-hydrostatic atmospheric simulations using the K computer, Prog. Earth and Planet. Sci., 4, 13, doi:10.1186/s40645-017-0127-8.

2016

  1. R. J. Haarsma, M. Roberts, P. L. Vidale, C. A. Senior, A. Bellucci, Q. Bao, P. Chang, S. Corti, N. S. Fuckar, V. Guemas, J. von Hardenberg, W. Hazeleger, C. Kodama, T. Koenigk, L. R. Leung, J. Lu, J.-J. Luo, J. Mao, M. S. Mizielinsk, R. Mizuta, P. Nobre, M. Satoh, E. Scoccimarro, T. Semmler, J. Small, and J.-S. von Storch (2016), High Resolution Model Intercomparison Project (HighResMIP v1.0) for CMIP6, Geosci. Model Dev., 9, 4185-4208, doi:10.5194/gmd-9-4185-2016.
  2. Y.-W. Chen, T. Seiki, C. Kodama, M. Satoh, A. T. Noda and Y. Yamada (2016), High cloud responses to global warming simulated by two different cloud microphysics schemes implemented in the Nonhydrostatic Icosahedral Atmospheric Model (NICAM), J. Climate, 29, 16, 5949-5964, doi:10.1175/JCLI-D-15-0668.1.

2015

  1. M. Satoh, Y. Yamada, M. Sugi, C. Kodama, and A. T. Noda (2015), Constraint on future change in global frequency of tropical cyclones due to global warming, J. Meteor. Soc. Japan, 93, 4, 489-500, doi:10.2151/jmsj.2015-025. (JMSJ awards in 2015)
  2. T. Seiki, C. Kodama, M. Satoh, T. Hashino, Y. Hagihara, and H. Okamoto (2015), Vertical grid spacing necessary for simulating tropical cirrus clouds with a high-resolution atmospheric general circulation model, Geophys. Res. Lett., 42, 10, 4150-4157, doi:10.1002/2015GL064282.
  3. A. T. Noda, M. Satoh, Y. Yamada, C. Kodama, T. Miyakawa, and T. Seiki (2015), Cold and warm rain simulated using a global nonhydrostatic model without cumulus parameterization, and their responses to global warming, J. Meteor. Soc. Japan, 93, 2, 181-197, doi:10.2151/jmsj.2015-010.
  4. Y. Fukutomi, C. Kodama, Y. Yamada, A. T. Noda, and M. Satoh (2015), Tropical synoptic-scale wave disturbances over the western Pacific simulated by a global cloud-system resolving model, Theor. Appl. Climatol., 124, 737-755, doi:10.1007/s00704-015-1456-4.
  5. T. Seiki, C. Kodama, A. T. Noda, M. Satoh (2015), Improvement in global cloud-system resolving simulations by using a double-moment bulk cloud microphysics scheme, J. Climate, 28, 6, 2405-2419, doi:10.1175/JCLI-D-14-00241.1.

2014

  1. A. T. Noda, M. Satoh, Y. Yamada, C. Kodama, and T. Seiki (2014), Responses of tropical and subtropical high-cloud statistics to global warming, J. Clim., 27, 20, 7753-7768, doi:10.1175/JCLI-D-14-00179.1.
  2. M. Satoh, H. Tomita, H. Yashiro, H. Miura, C. Kodama, T. Seiki, A. T. Noda, Y. Yamada, D. Goto, M. Sawada, T. Miyoshi, Y. Niwa, M. Hara, T. Ohno, S. Iga, T. Arakawa, T. Inoue, and H. Kubokawa (2014), The non-hydrostatic icosahedral atmospheric model: description and development, Prog. Earth and Planet. Sci., 1, 18, doi:10.1186/s40645-014-0018-1. (The Most Accessed Paper Award 2016, The Most Cited Paper Award 2017)
  3. Y. Miyamoto, M. Satoh, H. Tomita, K. Oouchi, Y. Yamada, C. Kodama, and J. Kinter III (2014), Gradient wind balance in tropical cyclones in high-resolution-global experiments, Mon. Wea. Rev., 142, 5, 1908-1926, doi:10.1175/MWR-D-13-00115.1.
  4. T. Miyakawa, M. Satoh, H. Miura, H. Tomita, H. Yashiro, A. T. Noda, Y. Yamada, C. Kodama, M. Kimoto, and K. Yoneyama (2014), Madden-Julian Oscillation prediction skill of a new-generation global model demonstrated using a supercomputer, Nat. Commun., 5, 3769, doi:10.1038/ncomms4769.

2013

  1. J. L. Kinter III, B. Cash, D. Achuthavarier, J. Adams, E. Altshuler, P. Dirmeyer, B. Doty, B. Huang, E. K. Jin, L. Marx, J. Manganello, C. Stan, T. Wakefield, T. Palmer, M. Hamrud, T. Jung, M. Miller, P. Towers, N. Wedi, M. Satoh, H. Tomita, C. Kodama, T. Nasuno, K. Oouchi, Y. Yamada, H. Taniguchi, P. Andrews, T. Baer, M. Ezell, C. Halloy, D. John, B. Loftis, R. Mohr, and K. Wong (2013), Revolutionizing climate modeling with Project Athena: A Multi-institutional, international collaboration, Bull. Amer. Meteor. Soc., 94, 2, 231-245, doi:10.1175/BAMS-D-11-00043.1.

2012

  1. M. Satoh, K. Oouchi, T. Nasuno, H. Taniguchi, Y. Yamada, H. Tomita, C. Kodama, J. Kinter, D. Achuthavarier, J. Manganello, B. Cash, T. Jung, T. Palmer and N. Wedi (2012), The Intra-Seasonal Oscillation and its control of tropical cyclones simulated by high-resolution global atmospheric models, Clim. Dyn., 39, 2185-2206, doi:10.1007/s00382-011-1235-6.

2011

  1. T. Iwasaki and C. Kodama (2011), How does the vertical profile of baroclinicity affect the wave instability?, J. Atmos. Sci., 68, 4, 863-877, doi:10.1175/2010JAS3609.1.

Oral and Poster Presentations in English (as presenter) 2019 or later

2024

  1. C. Kodama, H. Yashiro, T. Arakawa, D. Takasuka, S. Matsugishi, and H. Tomita, 2024/6/26: Parallelized remapping algorithms for km-scale global weather and climate simulations with icosahedral grid system, AOGS2024, AS53-A005, Pyeongchang, Korea (Poster).
  2. C. Kodama, 2024/6/18, Challenges for km-scale 100yr-scale climate simulations, Workshop on Global Storm-Resolving Analysis Bridging Atmospheric and Cloud Dynamics, Hakone, Japan (Oral).
  3. C. Kodama, H. Yashiro, T. Arakawa, D. Takasuka, S. Matsugishi, and H. Tomita, 2024/1/25-27, Parallelized remapping algorithms for km-scale global weather and climate simulations with icosahedral grid system, International Conference on High Performance Computing in Asia-Pacific Region (HPCAsia 2024), Nagoya, Japan (Oral).

2023

  1. C. Kodama, H. Yashiro, T. Suematsu, D. Takasuka, Y. Takano, R. Masunaga, Y. Yamada, S. Matsugishi, T. Arakawa, M. Nakano, H. Miura, T. Seiki, A. T. Noda, M. Satoh, T. Ohno, T. Nasuno, T. Miyakawa, 2023/7/30-8/4: Global cloud-resolving simulations with NICAM on the supercomputer Fugaku, AOGS2023, AS20-A010, Singapore (Poster).
  2. C. Kodama, S. A. Adachi, M. Nakano, T. Seiki, H. Yashiro, R. Yoshida, 2023/5/21-26: Initiatives in the field of weather and climate for the HPC environment around 2030, JpGU Meeting 2023, A-AS08, Makuhari, Chiba, Japan (Poster).
  3. C. Kodama, H. Yashiro, T. Suematsu, D. Takasuka, Y. Takano, Y. Yamada, R. Masunaga, S. Matsugishi, T. Arakawa, T. Seiki, M. Nakano, H. Miura, M. Satoh, T. Ohno, A. Noda, W. Roh, T. Nasuno, and T. Miyakawa, 2023/2/27-3/3: Global cloud-resolving simulations with NICAM on the supercomputer Fugaku, SIAM Conference on Computational Science and Engineering (CSE23), MS354, Amsterdam, The Netherlands (Oral).

2022

  1. C. Kodama, 2022/4/26: NICAM climate study: what we have achieved/learned and where we should go, DNA Climate Science Meeting, Online (Oral).

2021

  1. C. Kodama, H. Yashiro, M. Nakano, T. Suematsu, D. Takasuka, Y. Takano, R. Masunaga, Y. Yamada, T. Arakawa, H. Miura, T. Nasuno, T. Seiki, W. Roh, A. T Noda, T. Ohno, T. Miyakawa and M. Satoh, 2021/12/13-17, Overview of NICAM activity on the supercomputer Fugaku, AGU2021, IN22A-01, Online (Oral, Invited).
  2. C. Kodama, H. Yashiro, M. Nakano, T. Suematsu, D. Takasuka, Y. Takano, R. Masunaga, Y. Yamada, T. Arakawa, H. Miura, T. Nasuno, T. Seiki, W. Roh, A. T. Noda, T. Ohno, T. Miyakawa, and M. Satoh, 2021/9/8-9: Challenge to a global cloud-resolving climate simulation with NICAM, CPM2021, Online (Oral, Invited).
  3. C. Kodama, Y. Yamada, T. Ohno, T. Seiki, H. Yashiro, A. T. Noda, M. Nakano, W. Roh, M. Satoh, T. Nitta, D. Goto, H. Miura, T. Nasuno, T. Miyakawa, Y.-W. Chen, M. Sugi, 2021/6/4: HighResMIP climate simulations with NICAM and beyond on supercomputer Fugaku, JpGU Meeting 2021, AAS01-12, Online (Oral, Invited).
  4. C. Kodama, Y. Yamada, T. Ohno, T. Seiki, H. Yashiro, A. T. Noda, M. Nakano, W. Roh, M. Satoh, T. Nitta, D. Goto, H. Miura, T. Nasuno, T. Miyakawa, Y.-W. Chen, and M. Sugi, 2021/4/29: HighResMIP climate simulations with NICAM and beyond on supercomputer Fugaku, EGU General Assembly 2021, EGU21-8580, Online (Oral+Discussion)

2020

  1. C. Kodama, 2020/4/27: Early results of extratropical cyclone analysis in NICAM HighResMIP simulations, PRIMAVERA Final General Assembly, Online (Oral)

2019

  1. C. Kodama, Y. Yamada, T. Ohno, T. Seiki, H. Yashiro, A. T. Noda, M. Nakano, W. Roh, M. Satoh, T. Nitta, T. Nasuno, T. Miyakawa, Y.-W. Chen, and M. Sugi, 2019/12/09: Model updates and early results of a decadal high-resolution climate simulations using the Non-hydrostatic Icosahedral Atmospheric Model, NICAM, for CMIP6 HighResMIP, AGU2019, A13F-08, San Francisco, CA, U.S.A. (Oral).

Oral and Poster Presentations in English (as presenter) 2018 or before

2018

  1. C. Kodama, M. Satoh, T. Ohno, A. T. Noda, H. Yashiro, Y. Yamada, M. Nakano, T. Seiki, T. Nasuno, Y.-W. Chen, T. Miyakawa, M. Sugi, W. Roh, 2018/6/5: Preliminary results of a high-resolution climate simulation using the Non-hydrostatic Icosahedral Atmospheric Model, NICAM, for CMIP6 HighResMIP, AOGS2018, AS20-A013 (Oral).
  2. C. Kodama, M. Satoh, T. Ohno, A. T. Noda, H. Yashiro, Y. Yamada, M. Nakano, T. Seiki, T. Nasuno, Y.-W. Chen, T. Miyakawa, M. Sugi, and W. Roh, 2018/5/20-24: Preliminary results of a high-resolution climate simulation using the Non-hydrostatic Icosahedral Atmospheric Model, NICAM, for CMIP6 HighResMIP, JpGU Meeting 2018, AAS01-P02, Makuhari Messe, Chiba, Japan (Poster).

2017

  1. C. Kodama, B. Stevens, T. Mauritsen, T. Seiki and M. Satoh, 2017/10/23: A strong temperature dependence in precipitation associated with intense extratropical cyclones indicated by inter-hemispheric contrast of cyclones, Asian Conference on Meteorology (ACM) 2017, BEXCO, Busan, Korea (Poster).
  2. C. Kodama, B. Stevens, T. Mauritsen, T. Seiki and M. Satoh, 2017/9/26: Future projection of extratropical cyclone simulated by a 14 km mesh global atmosphericmodel with explicit convection, 2017 CFMIP Meeting on Clouds, Precipitation, Circulation, and Climate Sensitivity, Itoh Hall, Hongo Campus, University of Tokyo, Tokyo, Japan (Oral).
  3. C. Kodama, B. Stevens, T. Mauritsen, T. Seiki and M. Satoh, 2017/8/28: A strong temperature dependence in intense-storm rainfall indicated by inter-hemispheric contrast of storms, Fourth International Conference on Earth System Modeling (ICESM), 4ICESM-199, Hamburg, Germany (Oral).
  4. C. Kodama, T. Ohno, A. T. Noda, H. Yashiro, Y. Yamada, M. Nakano, T. Seiki, T. Nasuno, Y.-W. Chen, T. Miyakawa, M. Satoh and M. Sugi, 2017/5/20: Status and outlook of a high-resolution climate simulation using NICAM toward CMIP6 HighResMIP, JpGU-AGU Joint Meeting 2017, AAS12-09, Makuhari, Chiba, Japan (Oral).

2016

  1. C. Kodama, B. Stevens, T. Mauritsen, T. Seiki, and M. Satoh, 2016/11/30-2016/12/2: Future projection of extratropical cyclone simulated by a 14 km mesh global atmospheric model, The 4th International Workshop on Nonhydrostatic Models, P17, Hakone, Japan (Poster).
  2. C. Kodama, 2016/11/29: JMIP activity, Workshop on global precipitation systems, Yokohama, Japan (Oral).
  3. C. Kodama, B. Stevens, T. Mauritsen, T. Seiki, and M. Satoh, 2016/07/05: Future projection of extratropical cyclone simulated by a 14 km mesh global atmospheric model, CFMIP/WCRP/ICTP Conference on Cloud Processes, Circulation and Climate Sensitivity, Trieste, Italy (Poster).
  4. C. Kodama, S. Watanabe, T. Nasuno, M. Satoh, and H. Kubokawa, 2016/06/07: Basic state and gravity wave simulated by high-top global non-hydrostatic atmospheric model NICAM, SPARC DynVAR Workshop, Helsinki, Finland (Oral).
  5. C. Kodama, B. Stevens, and T. Mauritsen, 2016/05/23: Future projection of extratropical cyclone simulated by a 14 km mesh global atmospheric model, Japan Geoscience Union Meeting 2016, AAS02-16, Makuhari, Japan (Oral).
  6. C. Kodama, B. Stevens, and T. Mauritsen, 2016/03/22: Storm-track cloud and precipitation simulated by a high-resolution global atmospheric model, Joint US-Japan Workshop on Climate Change and Variability, San Diego, U.S.A (Oral).
  7. C. Kodama, Y. Yamada, A. T. Noda, K. Kikuchi, Y. Kajikawa, T. Nasuno, T. Tomita, T. Yamaura, H. Takahashi, M. Hara, Y. Kawatani, M. Satoh, and M. Sugi, 2016/02/15: A 20-year climatology simulated by non-hydrostatic icosahedral atmospheric model NICAM, Understanding Clouds and Precipitation, Berlin, Germany (Oral).

2015

  1. C. Kodama, Y. Yamada, A. T. Noda, K. Kikuchi, Y. Kajikawa, T. Nasuno, T. Tomita, T. Yamaura, H. Takahashi, M. Hara, Y. Kawatani, M. Satoh, and M. Sugi, 2015/06/27: A 20-year climatology simulated by non-hydrostatic icosahedral atmospheric model NICAM, 26th IUGG General Assembly 2015, IUGG-4169, Prague, Czech (Oral).
  2. C. Kodama, S. Watanabe, T. Nasuno, M. Satoh, and H. Kubokawa, 2015/06/26: Basic state and gravity wave simulated by high-top global non-hydrostatic atmospheric model NICAM, 26th IUGG General Assembly 2015, M14p-443, Prague, Czech (Poster).
  3. C. Kodama, S. Watanabe, T. Nasuno, M. Satoh, and H. Kubokawa, 2015/03/12: Basic state and gravity wave simulated by high-top global non-hydrostatic model NICAM, PANSY workshop, Tachikawa, Japan (Oral).

2014

  1. C. Kodama, S. Iga, M. Satoh, 2014/08/01: Impact of the sea surface temperature rise on storm-track cloud in 14km-mesh aqua planet simulation, AOGS 11th Annual Meeting, AS05-A008, Sapporo, Japan (Oral).
  2. C. Kodama, Y. Yamada, A. T. Noda, Y.-W. Chen, Y. Tsushima, M. Satoh, 2014/07/30: Cloud feedback parameters derived from NICAM AMIP-like simulations, AOGS 11th Annual Meeting, AS49-A005, Sapporo, Japan (Oral).
  3. C. Kodama, S. Iga, M. Satoh, 2014/07/14: Impact of the sea surface temperature rise on storm-track cloud in global non-hydrostatic aqua planet simulations, 7th International Scientific Conference on the Global Water and Energy Cycle (GEWEX), 21-6, The Hague, The Netherlands (Poster).
  4. C. Kodama, Y. Yamada, A. T. Noda, Y.-W. Chen, Y. Tsushima, M. Satoh, 2014/07/09: Cloud feedback parameters derived from NICAM AMIP-like simulations, CFMIP meeting, Egmond aan Zee, The Netherlands (Oral).
  5. C. Kodama, T. Nasuno, S. Watanabe, H. Kubokawa, M. Satoh, 2014/03/10-11: Constructing the middle-atmosphere version of non-hydrostatic global atmospheric model NICAM, PANSY research meeting, University of Tokyo, Japan (Oral).

2013

  1. C. Kodama, S. Iga, A. T. Noda, Y. Yamada, Y. Tsushima and M. Satoh, 2013/06/11: Cloud changes of multi-year simulations of NICAM and possible impact of the global warming on storm-track ice cloud, CFMIP meeting, Max Planck Institute, Hamburg, Germany (Oral).

2012

  1. C. Kodama, S. Iga, A. T. Noda, and M. Satoh, 2012/05/29: Cloud properties of the NICAM simulations under the realistic and aquaplanet conditions, CFMIP meeting on "The role of cloud processes and feedbacks in the climate system", UPMC, Paris, France (Poster).

2011

  1. C. Kodama, A. T. Noda, and M. Satoh, 2011/10/24: An Assessment of the Cloud Properties Simulated by NICAM Using ISCCP, CALIPSO and CloudSat Satellite Simulators, WCRP Open Science Conference, Sheraton Denver Downtown Hotel, Denver, U.S.A. (Poster).
  2. C. Kodama, A. T. Noda, and M. Satoh, 2011/08/09: Assessment of the Global Clouds Simulated by the Global Cloud-System Resolving Model Using ISCCP, CALIPSO and CloudSat Satellite Simulators, AOGS 8th Annual Meeting 2011, Taipei International Convention Center, Taipei (Oral).
  3. C. Kodama, A. T. Noda, and M. Satoh, 2011/06/08: An assesment of cloud properties simulated by NICAM using ISCCP, CALIPSO and CloudSat satellite simulators, CFMIP/GCSS/EUCLIPSE Meeting on Cloud Processes and Climate Feedbacks, The Met Office, Exeter, United Kingdom (Oral).

2010

  1. C. Kodama and NICAM Team Members, 2010/06/07: JAMSTEC activities: Results from the NICAM model, Athena Workshop, ECMWF, Reading, UK (Oral).
  2. C. Kodama and NICAM Team Members, 2010/05/11: Science and utilization related to global cloud resolving model, Meeting on potential cooperation for sub-millimeter wave radiometer, Tokyo, Japan (Oral).

2009

  1. C. Kodama, 2009/10/22: Technical details on how to use NICAM, COLA seminar, Calverton, MD, U.S.A. (Oral, Invited)
  2. C. Kodama and T. Iwasaki, 2009/07/21: Influence of the sea surface temperature rise on baroclinic instability wave activity under an aqua planet condition, IAMAS, M06.4/21417, Montreal, Canada (poster).

2008

  1. C. Kodama and T. Iwasaki, 2008/12/18: Influence of the increased SST on baroclinic instability wave activities under an aqua planet condition, AGU Fall Meeting, A41B-0092, San Francisco, CA, U.S.A. (poster).

2007

  1. C. Kodama and T. Iwasaki, 2007/11/14: Influence of the increased SST on baroclinic instability wave activities under the aqua planet condition, The 2nd APE Workshop, Choshi, Chiba, Japan (Oral).
  2. C. Kodama and T. Iwasaki, 2007/08/21: Influence of the increased SST on baroclinic instability wave activities under the aqua planet condition, 15th Conference on Air-Sea Interaction, P1.17, Portland, OR, U.S.A. (Poster)
  3. C. Kodama and T. Iwasaki, 2007/07/12: Influence of the increased SST on baroclinic instability wave activities under the aqua planet condition, IUGG 2007, MS007 5225, Perugia, Italy (Poster)
  4. C. Kodama, T. Iwasaki, K. Shibata and S. Yukimoto, 2007/07/11: Changes in the stratospheric mean meridional circulation due to the increased CO2 - Radiation- and SST- induced effects, IUGG 2007, MS018 5632, Perugia, Italy (Poster)

2006

  1. C. Kodama, T. Iwasaki, K. Shibata and S. Yukimoto, 2006/05/31: Changes in the Brewer-Dobson circulation due to the increased CO2 - Radiation and SST induced effects, CMOS 2006, 3B2.4, Toronto, Canada (Poster).
  2. C. Kodama, T. Iwasaki, K. Shibata, and S. Yukimoto, 2006/02/22: Changes in the Brewer-Dobson circulation due to the increased CO2, Ozone workshop, Matsushima (Oral)

2005

  1. C. Kodama, T. Iwasaki, K. Shibata, and S. Yukimoto, 2005/06/16: Changes in the Brewer-Dobson circulation due to the increased CO2 - Radiation and SST induced effects, 13th Conference on Middle Atmosphere, JP7.13, Cambridge, MA, U.S.A. (Poster)

2004

Oral and Poster Presentations in English (as contributor)

2024

  1. Y. Yamada, T. Nasuno, M. Nakano, C. Kodama, and M. Hishinuma, 2024/6/27: Evaluation of relationship between typhoon activity and typhoon-related rainfall over the vicinity of Japan area by using a large ensemble simulation, AOGS2024, AS50-A005, Pyeongchang, Korea (Oral).

2023

  1. M. Nakano, Y. Yamada, R. Masunaga, Y. Takano, D. Takasuka, C. Kodama, T. Nasuno, A. Yamazaki, 2023/11/9: Typhoon seasonal forecasting by a high-resolution coupled GCM (NICOCO), The 1st International Workshop on Typhoon Science and Technology Research Center (IWTRC), 4-10, Yokohama, Kanagawa (Poster).
  2. D. Takasuka, C. Kodama, T. Suematsu, T. Ohno, Y. Yamada, T. Seiki, H. Yashiro, M. Nakano, H. Miura, A. T. Noda, T. Nasuno, T. Miyakawa, R. Masunaga, 2023/9/1: Benefits and issues in the kilometer-scale atmospheric climate simulation with NICAM, The 6th International Workshop on Nonhydrostatic Models (NHM-WS 2023), Sapporo, Hokkaido (Oral).
  3. Y. Yamada, M. Nakano, T. Miyakawa, C. Kodama, A. Yamazaki, D. Takasuka, T. Nasuno, H. Yashiro, M. Sugi, M. Satoh, 2023/8/2: Evaluating the relationship between tropical cyclone genesis frequency and environmental conditions by using a NICAM large ensemble simulation, AOGS2023, AS20-A019, Singapore (Oral).
  4. D. Takasuka, C. Kodama, T. Suematsu, T. Ohno, Y. Yamada, T. Seiki, H. Yashiro, M. Nakano, H. Miura, A. T. Noda, T. Nasuno, T. Miyakawa, R. Masunaga, 2023/8/2: Progress and challenges of kilometer-scale atmospheric climate simulations with NICAM, AOGS2023, AS20-A021, Singapore (Oral).
  5. Y. Na, Q. Fu, L. R. Leung, C. Kodama, R. Lu, 2023/8/1: Mesoscale convective systems simulated by a high-resolution global nonhydrostatic model over the United States and China, AOGS2023, AS20-A016, Singapore (Poster).
  6. D. Takasuka, C. Kodama, T. Suematsu, T. Ohno, Y. Yamada, Y. Takano, T. Seiki, H. Yashiro, M. Nakano, H. Miura, A. Noda, T. Nasuno, T. Miyakawa, R. Masunaga, 2023/7/16: Tackling errors toward realistic seamless representation in kilometer-scale climate simulations with NICAM, IUGG2023, IUGG23-3863, Berlin, Germany (Oral).
  7. H. Miura, C. Kodama, Y. Takano, D. Takasuka, T. Suematsu, 2023/5/21-26: Deep Numerial Analysis (DNA) climate project: Creating a framework for the matching between short and long time-scale climate simulations, JpGU2023, AAS05-P08, Makuhari, Chiba, Japan (Poster).
  8. M. Hishinuma, T. Nasuno, H. Fudeyasu, Y. Yamada, C. Kodama, M. Nakano, 2023/5/21-26: Relationship between Typhoon Faxai (2019) and environmental fields, JpGU2023, AAS02-P07, Makuhari, Chiba, Japan (Poster).
  9. T. Miyakawa, Y. Yamada, T. Suematsu, R. Masunaga, D. Takasuka, M. Nakano, C. Kodama, H. Yashiro, M. Satoh, T. Miyoshi, T. Kodama, T. Kawasaki, 2023/5/21-26: Global scale large ensemble simulations using NICAM/NICOCO on Fugaku for week to seasonal predictions of high impact weather events, JpGU2023, AAS08-P07, Makuhari, Chiba, Japan (Poster).
  10. T. Nasuno, M. Hishinuma, Y. Yamada, M. Nakano, C. Kodama, H. Fudeyasu, 2023/5/21-26: Relationship between large-scale atmospheric conditions and western North Pacific tropical cyclones in 2019: Overview, JpGU2023, AAS02-02, Makuhari, Chiba, Japan (Oral).
  11. D. Takasuka, C. Kodama, T. Suematsu, T. Ohno, Y. Yamada, T. Seiki, H. Yashiro, M. Nakano, H. Miura, A. T. Noda, T. Nasuno, T. Miyakawa, R. Masunaga, 2023/5/21-26: Challenge to Kilometer-scale Atmospheric Climate Simulations with NICAM, JpGU2023, AAS08-08, Makuhari, Chiba, Japan (Oral).
  12. M. Nakano, T. Kawabata, C. Kodama, D. Matsuoka, T. Miyakawa, T. Miyoshi, H. Yashiro, 2023/5/21-26: Towards the development of a digital twin of weather and climate change, JpGU2023, AAS08-03, Makuhari, Chiba, Japan (Oral).

2022

  1. T. Miyakawa, D. Klocke, Y. Yamada, F. Ziemen, T. Suematsu, D. Takasuka, M. Nakano, R. Masunaga, C. Kodama, H. Yashiro, T. Kawasaki, T. Miyoshi, T. Kodama, and J. Duras, 2022/12/17: Global sub-5km mesh Model Intercomparison (DYAMOND2) and Highlighted Experiments on Supercomputer Fugaku, AGU2022, A55S-1374, Chicago, USA (Poster).
  2. T. Suematsu, H. Miura, C. Kodama, and D. Takasuka, 2022/12/16: Characteristics of the Madden-Julian Oscillation reproduced in a NICAM-AMIP type simulation, AGU2022, A45S-2127, Chicago, USA (Poster).
  3. H. Miura, C. Kodama, T. Suematsu, and D. Takasuka, 2022/12/15: Collaboration between a high-resolution modeling and an existing climate modeling groups for a global 1-km scale earth system model, AGU2022, A33E-05, Chicago, USA (Oral).
  4. Y. Yamada, T. Miyakawa, M. Nakano, C. Kodama, A. Wada, T. Nasuno, Y.-W. Chen, A. Yamazaki, H. Yashiro, and M. Satoh, 2022/11/24: Large ensemble simulation for investigating predictability of precursor vortices of Typhoon Faxai in 2019 with a 14-km mesh global nonhydrostatic atmospheric model, Asian Conference on Meteorology 2022, online (Oral, invited)
  5. D. Takasuka and C. Kodama, 2022/10/3: Progress and challenges on high resolution Atmospheric modelling with NICAM, WCRP Workshop on Modeling the Climate System at Ultra-High-Resolution, Boulder, Colorado, USA (Oral, invited).
  6. D. Takasuka, C. Kodama, T. Suematsu, T. Seiki, T. Ohno, H. Yashiro, H. Miura, A. T. Noda, Y. Yamada, M. Nakano, T. Nasuno, T. Miyakawa, 2022/7/25-29: Improvement of NICAM toward the achievement of global cloud-resolving climate simulations, 3rd Pan-GASS Meeting, Understanding and Modeling Atmospheric Processes (UMAP 2022), DT108, Monterey, California, USA (Poster).
  7. T. Suematsu, H. Miura, C. Kodama, and D. Takasuka, 2022/5/25: Deceleration of MJO speed associated with overly strong Walker circulation in a NICAM-AMIP simulation, JpGU2022, AAS03-08, Chiba + Online (Oral).
  8. Y. Yamada, M. Nakano, T. Miyakawa, C. Kodama, A. Yamazaki, T. Nasuno, H. Yashiro, and M. Satoh, 2022/5/31: Season-scale large ensemble simulation with a high-resolution nonhydrostatic model, NICAM, JpGU2022, AAS05-P05, Chiba + Online (Poster).
  9. Y.-W. Chen, M. Satoh, C. Kodama, A. T. Noda, and Y. Yamada, 2022/5/31: Projection of high clouds and its link to ice hydrometeors: An approach by using long-term global cloud-system resolving simulations, JpGU2022, AAS05-P04, Chiba + Online (Poster).
  10. M. Tanoue, H. Yashiro, Y. Takano, K. Yoshimura, C. Kodama, and M. Satoh, 2022/5/31: Modelling water isotopes using a global non-hydrostatic model with explicit convection scheme, JpGU2022, AAS05-P07, Chiba + Online (Poster).
  11. M. Tanoue, H. Yashiro, Y. Takano, K. Yoshimura, C. Kodama, and M. Satoh, 2022/5/27: Modelling water isotopes using a global non-hydrostatic model with explicit convection scheme, EGU General Assembly 2022, EGU22-9111, Vienna, Austria, Online (Oral).

2021

  1. M. Satoh, C. Kodama, H. Yashiro, T. Miyakawa, Y. Yamada, and W. Roh, 2021/12/16: Nonhydrostatic Icosahedral Atmospheric Model (NICAM) studies on the supercomputer Fugaku: Challenges and next directions, AGU2021, A43D-02, Online (Oral).
  2. T. Suematsu, C. Kodama, Y. Yamada, H. Miura, D. Takasuka, and T. Miyakawa, 2021/12/16: Microphysics dependency in 3.5km NICAM DYAMOND phase 2 experiments, AGU2021, A45K-2001, Online (Poster).
  3. Y. Na, Q. Fu, L. Ruby, and C. Kodama, 2021/12/15: Mesoscale Convective Systems Simulated by a High-Resolution Global Nonhydrostatic Model over the United States and China, AGU2021, A35S-08, Online (Poster)
  4. D. Takasuka, C. Kodama, T. Suematsu, T. Seiki, T. Ohno, H. Yashiro, H. Miura, A. T. Noda, Y. Yamada, M. Nakano, T. Nasuno, and T. Miyakawa, 2021/12/13: Improvement of NICAM toward the achievement of global cloud-resolving climate simulations, AGU2021, IN11C-01, Online (eLightning).
  5. A. Rehbein, T. Ambrizzi, M. Satoh, and C. Kodama, 2021/9/10: Spatio-temporal representation of the Amazonian mesoscale convective systems by the Non-hydrostatic Icosahedral Atmospheric Model (NICAM), CPM2021, Online (Poster).
  6. T. Miyakawa, T. Suematsu, R. Masunaga, T. Kawasaki, R. Shibuya, C. Kodama, M. Nakano, H. Yashiro, M. Satoh, 2021/7/6: Introduction to the ocean-coupled components of DYAMOND2, the inter-comparison project for global “storm-resolving” numerical models, PASC21, Online (Oral).
  7. Y.-W. Chen, M. Satoh, C. Kodama, A. T. Noda, and Y. Yamada, 2021/8/3: Projection of high clouds and its link to ice hydrometeors: an approach by using long-term global cloud-system resolving simulations, AOGS2021, AS34-A010, Online (Poster).
  8. Y. Yamada, M. Nakano, T. Miyakawa, C. Kodama, H. Yashiro, M. Satoh, M. Satoh, T. Nasuno, and Y.-W. Chen, 2021/8/6: Evaluation of typhoon Faxai (2019) in a 1000-member ensemble simulation with a 14 Km mesh global nonhydrostatic model, AOGS2021, AS07-A029, Online (Oral).
  9. T. Miyakawa, Y. Yamada, T. Suematsu, M. Nakano, C. Kodama, H. Yashiro, R. Masunaga, D. Takasuka, T. Kodama, T. Kawasaki, T. Miyoshi, and M. Satoh, 2021/8/5: Towards S2S-scale large-ensemble prediction using global cloud/cloud-system resolving model NICAM on Fugaku, AOGS2021, AS30-A008, Online (Oral).
  10. H. Yashiro, K. Terasaki, Y. Kawai, S. Kudo, T. Miyoshi, T. Imamura, K. Minami, M. Nakano, C. Kodama, M. Satoh, H. Tomita, 2021/6/4: System-application co-design for supercomputer Fugaku and global ensemble weather data assimilation, JpGU2021, AAS07-P04. Online (Poster).
  11. Y. Yamada, M. Nakano, T. Miyakawa, C. Kodama, Y.-W. Chen, H. Yashiro, T. Nasuno, M. Satoh, 2021/6/4: A 1000-member 14-km mesh global ensemble experiment to target typhoon FAXAI (2019), JpGU2021, AAS07-05, Online (Oral).
  12. T. Miyakawa, Y. Yamada, T. Suematsu, R. Masunaga, D. Takasuka, M. Nakano, C. Kodama, H. Yashiro, M. Satoh, T. Miyoshi, T. Kodama, T. Kawasaki, 2021/6/4: Overview of global scale large ensemble simulations using NICAM on Fugaku, JpGU2021, AAS07-P03, Online (Poster).
  13. T. Suematsu, Y. Yamada, C. Kodama, T. Miyakawa, H. Miura, M. Satoh, 2021/6/4: Microphysics dependency on the reproducibility of the MJO in the DYAMOND winter phase experiment on NICAM, JpGU2021, AAS07-10, Online (Oral, Invited).
  14. T. Suematsu, T. Yanase, H. Miura, C. Kodama, M. Satoh, 2021/6/3: A consecutive development of MJO events reproduced by three-month SST-forced experiments with NICAM, JpGU2021, AAS09-06, Online (Oral, Invited).
  15. H. Yashiro, K. Terasaki, Y. Kawai, S. Kudo, T. Miyoshi, T. Imamura, K. Minami, M. Nakano, C. Kodama, M. Satoh, and H. Tomita, 2021/4/29: Performance optimization and scalability of NICAM on supercomputer Fugaku, EGU General Assembly 2021, EGU21-4771, Online (Oral+Discussion, highlighted)
  16. Y. Yamada, C. Kodama, A. Noda, M. Satoh, M. Nakano, T. Miyakawa, H. Yashiro, and T. Nasuno, 2021/4/29: Evaluating performances of one-year simulation by using 3.5 km mesh global nonhydrostatic model, EGU General Assembly 2021, EGU21-15452, Online (Oral+Discussion)
  17. T. Suematsu, Y. Yamada, C. Kodama, and T. Miyakawa, 2021/4/29: A comparison of the microphysics dependency on the reproducibility of the MJO under different resolutions using NICAM, EGU General Assembly 2021, EGU21-15755, Online (Oral+Discussion)

2020

  1. M. J. Roberts, J. Camp, J. Seddon, P. L. Vidale, K. Hodges, B. Vanniere, J. Mecking, R. Haarsma, A. Bellucci, E. Scoccimarro, L.-P. Caron, F. Chauvin, L. Terray, M.-P. Moine, D. Putrasahan, C. Roberts, R. Senan, C. M. Zarzycki, P. A. Ullrich, Y. Yamada, R. Mizuta, C. Kodama, D. Fu, Q. Zhang, G. Danabasoglu, N. A. Rosenbloom, H. Wang, and L. Wu, 2020/12/11: Impact of model resolution on tropical cyclone simulation of present-day and future projection using the HighResMIP multi-model ensemble, AGU2020, A138-05, Oral (Online).
  2. H. Yashiro, Y. Kawai, K. Terasaki, S. Kudo, T. Miyoshi, T. Imamura, K. Minami, M. Nakano, C. Kodama, S. Masaki, and H. Tomita, 2020/12/7: Challenges of high-resolution large-ensemble data assimilation on supercomputer Fugaku, AGU2020, A023-05, Oral (Online).
  3. T. Suematsu, C. Kodama, H. Yashiro, T. Yanase, H. Miura, T. Miyakawa, M. Satoh, 2020/7/12-16: Dependence of the reproducibility of the MJO convection on differences in the surface flux conditions in NICAM, JpGU2020, AAS05-12, Online.
  4. Y. Yamada, C. Kodama, M. Satoh, M. Sugi, M. J. Roberts, R. Mizuta, A. T. Noda, T. Nasuno, M. Nakano, P. L. Vidale, 2020/7/12-16: Projected future changes in tropical cyclone genesis and its seed frequencies by using HighResMIP multi model ensemble simulation, JpGU2020, AAS01-07, Online.

2019

  1. M. Nakano, H. Yashiro and C. Kodama, 2019/8/21: Single precision in the Nonhydrostatic Icosahedral Atmospheric Model (NICAM), The Latsis Symposium 2019 (High-Resolution Climate Modeling: Perspectives and Challenges), ETH Zurich, Swiss.
  2. A. T. Noda, C. Kodama, Y. Yamada, M. Satoh, T. Ogura, 2019/7/29: Changes of clouds and large-scale circulations due to global warming in multi-decadal global nonhydrostatic simulations, AOGS2019, AS09-A006 (poster).
  3. M. Satoh, R. Shibuya, and C. Kodama, 2019/7/29: NICAM results of the project DYAMOND for global storm-resolving model intercomparison, AOGS2019, AS09-A004 (poster).
  4. Y.-W. Chen, M. Satoh, C. Kodama, A. T. Noda, and Y. Yamada, 2019/5/29: High cloud annual variation and its responses to global warming in the NICAM AMIP experiment, JpGU2019, Makuhari, Chiba, Japan (poster)

2018

  1. H. Yashiro, D. Goto, Y. Sato, Y. Yamashita, K. Ishijima, C. Kodama, M. Takigawa, H. Tomita, and M. Satoh, 2018/9/25-28: Development of global high-resolution climate model and its application to the chemistry climate study, IGAC2018, 4.161 (poster).
  2. K. Ishijima, M. Takigawa, Y. Yamashita, H. Yashiro, C. Kodama, M. Satoh, 2018/9/25-29, Analysis of high radon-222 concentration events in winter using multi-horizontal-resolution NICAM simulations, IGAC2018, 4.009, Takamatsu, Kagawa, Japan (poster).
  3. B. Stevens, M. Satoh, C. Bretherton, P. Neumann, D. Klocke, F. Judt, M. Khairoutdinov, C. Kodama, L. Kornblueh, S.-J. Lin, W. Putman, R. Shibuya, P.-L. Vidale, 2018/10/16-19: Early Results from the DYAMOND Global Cloud Resolving Model Intercomparison, 2018 CFMIP Meeting on Clouds, Precipitation, Circulation, and Climate Sensitivity, Mesa Lab., National Center for Atmospheric Research (NCAR), Boulder, CO, USA.
  4. Y.-W. Chen, T. Seiki, C. Kodama, M. Satoh, A. T. Noda, 2018/6/3-8: Impact of precipitating ice hydrometeors on longwave radiative forcing estimated by a global cloud-system resolving model, AOGS2018, AS06-A010, Honolulu, Hawaii, USA (oral).
  5. T. Seiki, C. Kodama, M. Satoh, T. Hashino, Y. Hagihara, and H. Okamoto, 2018/6/3-8: Topographic effects on ice clouds evaluated by CloudSat and CALIPSO satellite observations and a high-resolution global non-hydrostatic model, AOGS2018, AS35-A012 (oral).
  6. K. Ishijima, M. Takigawa, Y. Yamashita, H. Yashiro, C. Kodama, M. Satoh, K. Tsuboi, H. Matsueda, Y. Niwa, and S. Hirao, 2018/5/20-24: Analysis of high Radon-222 concentration events using NICAM, JpGU2018, Makuhari, Chiba, Japan (poster).
  7. M. Satoh, C. Kodama, T. Ohno, A. Noda, H. Yashiro, Y. Yamada, M. Nakano, T. Seiki, T. Nasuno, Y.-W. Chen, T. Miyakawa, M. Sugi, and W. Roh, 2018/4/8-13: High-resolution climate simulations using the Non-hydrostatic Icosahedral Atmospheric Model, NICAM, EGU2018, EGU2018-4474, Vienna, Austria.
  8. Y. Yamashita, M. Takigawa, K. Ishijima, H. Akiyoshi, C. Kodama, H. Yashiro, and M. Satoh, 2018/4/8-13: Resolution dependency of numerically simulated stratosphere-to-troposphere transport associated with mid-latitude closed cyclones in early spring around Japan, EGU2018, EGU2018-2399, Vienna, Austria.
  9. Y. Yamada, M. Satoh, M. Sugi, C. Kodama, A. T. Noda, M. Nakano, and T. Nasuno, 2018/4/16: Widening of tropical cyclone scale projected by multi-decadal experiments with a 14km-mesh global nonhydrostatic model, 33rd Conference on Hurricanes and Tropical Meteorology, 4A.2, Ponte Vedra, Florida, USA (oral).

2017

  1. Y. Yamashita, M. Takigawa, K. Ishijima, H. Akiyoshi, C. Kodama, H. Yashiro and M. Satoh, 2017/12/15: Resolution dependency of stratosphere-to-troposphere transport estimated by the global multi-resolution simulations, AGU Fall meeting, A53E-2307, New Orleans, USA (poster).
  2. Y.-W. Chen, 清木達也, 小玉知央, 佐藤正樹, 野田暁, 2017/10/30: 雲解像モデルにおける「precipitating ice」の放射効果について, 日本気象学会2017年秋季大会, D103, 札幌.
  3. Y.-W. Chen, T. Seiki, C. Kodama, M. Satoh and A. T. Noda, 2017/9/27: Impact of precipitating ice hydrometeor on longwave radiative effects simulated by a global cloud-system resolving model, 2017 CFMIP Meeting on Clouds, Precipitation, Circulation, and Climate Sensitivity, PW41, Itoh Hall, Hongo Campus, University of Tokyo, Tokyo, Japan.
  4. M. Satoh, Y. Yamada, C. Kodama, M. Nakano, T. Nasuno and M. Sugi, 2017/8/8: Response of intense tropical cyclones to El Nino in ensemble simulations using global nonhydrostatic model
  5. T. Seiki, C. Kodama, M. Satoh, T. Hashino, Y. Hagihara and H. Okamoto, 2017/5/22: Evaluation of simulated ice clouds using joint CloudSat and CALIPSO satellite observations, JpGU-AGU Joint Meeting 2017, AAS02-05, Makuhari, Chiba, Japan (Oral).
  6. Y.-W. Chen, T. Seiki, C. Kodama, M. Satoh, A. T. Noda, 2017/5/22: The radiative impact of precipitating ice in a global nonhydrostatic model, JpGU-AGU Joint Meeting 2017, AAS02-P09, Makuhari, Chiba, Japan (Poster).
  7. Y. Yamada, C. Kodama, M. Satoh, M. Nakano, T. Nasuno, M.Sugi, 2017/5/19: 50-member ensemble simulations for 1997 and 2015 using a global nonhydrostatic model, JpGU-AGU Joint Meeting 2017, AAS12-08, Makuhari, Chiba, Japan (Oral).

2016

  1. Y. Yamada, C. Kodama, M. Satoh, M. Nakano, T. Nasuno and M. Sugi, 2016/12/16: Impact of an El Nino forcing on intense tropical cyclones in ensemble simulations of a high-resolution nonhydrostatic model, AGU Fall Meeting, A43I-0373, San Francisco, USA.
  2. T. Seiki, C. Kodama, M. Satoh, T. Hashino, Y. Hagihara, and H. Okamoto, 2016/12/02: Effect of topographical resolution on cirrus clouds using a high-resolution GCM, The 4th International Workshop on Nonhydrostatic Models, Hakone, Japan.
  3. K. Kikuchi, C. Kodama, T. Miyakawa, T. Nasuno, and M. Satoh, 2016/12/01: Multiscale structure of the MJO: Does it matter?, The 4th International Workshop on Nonhydrostatic Models, Hakone, Japan.
  4. Y. Yamada, C. Kodama, M. Satoh, M. Nakano, T. Nasuno, M. Sugi, 2016/11/28: Intense tropical cyclones in ensemble simulations using a high-resolution nonhydrostatic model, Workshop on global precipitation systems, Yokohama, Japan.
  5. M. Satoh, Y.-W. Chen, T. Seiki, C. Kodama, A. T. Noda, and Y. Yamada, 2016/08/04: High cloud responses to global warming simulated by two different cloud microphysics schemes implemented in the Nonhydrostatic Icosahedral Atmospheric Model (NICAM), AS14-A006, AOGS2016.
  6. T. Nasuno, Y. Yamada, Y. Kajikawa, H. Kubota, M. Nakano, C. Kodama, A. T. Noda, and M. Satoh, 2016/08/02: Inter-annual variability of East Asian monsoon and tropical cyclone activity in a NICAM AMIP-type simulation, AS07-A017, AOGS2016.
  7. M. Satoh, Y. Yamada, M. Sugi, C. Kodama, A. T. Noda, M. Nakano, and T. Nasuno, 2016/08/01: Expansion of tropical cyclone size in a warming world simulated by NICAM; mechanism and implications, AS19-A010, AOGS2016 (invited).
  8. Y.-W. Chen, T. Seiki, C. Kodama, M. Satoh, A. T. Noda, and Y. Yamada, 2016/07/06: High cloud responses to global warming simulated by two different cloud microphysics schemes implemented in the Nonhydrostatic Icosahedral Atmospheric Model (NICAM), CFMIP/WCRP/ICTP Conference on Cloud Processes, Circulation and Climate Sensitivity, Trieste, Italy (Poster).
  9. Y. Yamada, M. Satoh, M. Sugi, C. Kodama, A. T. Noda, M. Nakano, and T. Nasuno, 2016/05/23: Response of tropical cyclone activity and structure to a global warming in a high-resolution global nonhydrostatic model, Japan Geoscience Union Meeting 2016, AAS02-15, Makuhari, Japan.
  10. Y.-W. Chen, T. Seiki, C. Kodama, M. Satoh, A. T. Noda, and Y. Yamada, 2016/05/22: High cloud responses to global warming simulated by two different cloud microphysics schemes implemented in the Nonhydrostatic Icosahedral Atmospheric Model (NICAM), Japan Geoscience Union Meeting 2016, AAS02-06, Makuhari, Japan.
  11. T. Seiki, C. Kodama, M. Satoh, T. Hashino, Y. Hagihara, and H. Okamoto, 2016/05/22: Vertical grid spacing necessary for simulating tropical cirrus clouds, Japan Geoscience Union Meeting 2016, AAS02-05, Makuhari, Japan.
  12. M. Roberts, P. L. Vidale, M. Vellinga, J. Camp, C. Kodama, R. Roehrig, M. Wehner, Y. Yamada, and M. Zhao, 2016/04/22: Assessment of CMIP5 and post-CMIP5 representation of tropical cyclones in forced atmosphere simulations; understanding dynamical constraints, 32nd Conference on Hurricanes and Tropical Meteorology, San Juan, Puerto Rico.

2015

  1. M. Fujita, C. Kodama, Y. Yamada, A. T. Noda, T. Nasuno, and M. Satoh, 2015/10/5-7: Climatological characteristics of precipitation over Japan in NICAM AMIP-type 25-year simulation, International WS: Issues in downscaling of climate change projection, Tsukuba, Japan.
  2. C. Kodama, S. Watanabe, T. Nasuno (presenter), M. Satoh, and H. Kubokawa, 2015/10/27: Basic state and gravity wave simulated by high-top global non-hydrostatic atmospheric model NICAM, Asian Conference on Meteorology, Kyoto, Japan.
  3. T. Nasuno, Y. Kajikawa, C. Kodama, Y. Yamada, A. T. Noda, and M. Satoh, 2015/10/26-27: Interannual variability of the East Asian monsoon in June, July, and August in objective analysis and global nonhydrostatic simulations, Asian Conference on Meteorology, Kyoto, Japan.
  4. A. T. Noda, M. Satoh, Y. Yamada, C. Kodama, T. Miyakawa, T. Seiki, 2015/09/11: Cold and warm rain simulated using a global nonhydrostatic model without cumulus parameterization, and their Responses to Global Warming, Tropical Meteorology Workshop, Aizuwakamatsu, Fukushima, Japan.
  5. M. Satoh, Y. Yamada, C. Kodama, M. Sugi, M. Nakano, and A. T. Noda, 2015/08/05: Tropical cyclone statistics simulated by a NICAM AMIP-type simulation and their future changes, AOGS2015, AS31-A003, Singapore.
  6. A. T. Noda, M. Satoh, Y. Yamada, C. Kodama, T. Miyakawa, T. Seiki, 2015/08/04: Cold and warm rain simulated using a global nonhydrostatic model without cumulus parameterization, and their responses to global warming, AOGS2015, AS31-A004, Singapore.
  7. M. Satoh, M. Nakano, T. Miyakawa, Y. Kajikawa, Y. Miyamoto, and C. Kodama, 2015/06/22-24: Extended-range forecast experiments with NICAM using the K computer, Workshop on Sub-seasonal to Seasonal Predictability of Monsoons, Jeju, Republic of Korea.
  8. T. Seiki, C. Kodama, M. Satoh, T. Hashino, Y. Hagihara, and H. Okamoto, 2015/06/08-11: Vertical grid spacing necessary for simulating tropical cirrus clouds, CFMIP Meeting 2015, Monterey, USA.

2014

  1. M. Satoh, Y. Yamada, M. Sugi, C. Kodama, and A. T. Noda, 2014/09/26: Constraint on future change in global frequency of tropical cyclones due to global warming, Joint Workshop of 6th International Workshop on Global Cloud Resolving Modeling and 3rd International Workshop on Nonhydrostatic Numerical Models, Kobe, Japan.
  2. T. Seiki, C. Kodama, A. T. Noda, and M. Satoh, 2014/09/25: Impact of a new cloud microphysics scheme on cirrus cloud radiative forcing and its feedback to atmospheric temperature, Joint Workshop of 6th International Workshop on Global Cloud Resolving Modeling and 3rd International Workshop on Nonhydrostatic Numerical Models, Kobe, Japan.
  3. M. Satoh, Y. Yamada, M. Sugi, C. Kodama, and A. T. Noda, 2014/09/11: Constraint on future change in global frequency of tropical cyclones due to global warming, Tropical Meteorology Workshop, Toyama, Japan.
  4. A. T. Noda, M. Satoh, Y. Yamada, C. Kodama, and T. Seiki, 2014/09/11: Responses of tropical and subtropical high-cloud statistics to global warming, Tropical Meteorology Workshop, Toyama, Japan.
  5. K. Kikuchi, C. Kodama, M. Satoh, T. Nasuno, K. Oouchi, and H. Miura, 2014/08/01: Tropical intraseasonal oscillation in an AMIP-type experiment in NICAM, AOGS 11th Annual Meeting, AS05-A016, Sapporo, Japan.
  6. A. T. Noda, Y. Yamada, C. Kodama, T. Seiki, and M. Satoh, 2014/08/01: Responses of high-cloud statistics in low latitudes to a warmer atmosphere, AOGS 11th Annual Meeting, AS05-A006, Sapporo, Japan.
  7. Y.-W. Chen, T. Seiki, C. Kodama, M. Satoh, Y. Yamada, and A. T. Noda, 2014/07/31: Cloud responses to global warming simulated by two different cloud microphysical schemes implemented in a Nonhydrostatic ICosahedral Atmospheric Model (NICAM), AOGS 11th Annual Meeting, AS49-A007, Sapporo, Japan.
  8. Y. Yamada, C. Kodama, A. T. Noda, M. Nakano, M. Sugi, T. Nasuno, K. Oouchi, M. Satoh, M. Sawada, Y. Miyamoto, H. Yashiro, and H. Tomita, 2014/07/30: Examining impacts of a global warming on the development rate of tropical cyclone intensity using a global non-hydrostatic model, AOGS 11th Annual Meeting, AS07-25-A053, Sapporo, Japan.
  9. T. Miyakawa, M. Satoh, H. Miura, H. Tomita, H. Yashiro, Y. Yamada, A. T. Noda, C. Kodama, M. Kimoto, and K. Yoneyama, 2014/07/30: CINDY2011/DYNAMO MJO events in global cloud-system resolving simulations, AOGS 11th Annual Meeting, AS33-A026, Sapporo, Japan.
  10. T. Seiki, C. Kodama, A. T. Noda, and M. Satoh, 2014/07/30: Impact of a new cloud microphysics scheme on cirrus cloud radiative forcing and its feedback to atmospheric temperature, AOGS 11th Annual Meeting, AS49-A009, Sapporo, Japan.
  11. T. Miyakawa, M. Satoh, H. Miura, H. Tomita, H. Yashiro, Y. Yamada, A. T. Noda, C. Kodama, M. Kimoto, and K. Yoneyama, 2014/07/28: Madden-Julian Oscillation events in global cloud-system resolving simulations, AOGS 11th Annual Meeting, AS39-A015, Sapporo, Japan.
  12. Y.-W. Chen, T. Seiki, C. Kodama, M. Satoh, A. T. Noda, and Y. Yamada, 2014/07/14: Cloud responses to global warming simulated by two different cloud microphysical schemes implemented in Nonhydrostatic Icosahedral Atmospheric Model (NICAM), 7th International Scientific Conference on the Global Water and Energy Cycle (GEWEX), 21-6, The Hague, The Netherlands.
  13. T. Seiki, C. Kodama, A. T. Noda, and M. Satoh, 2014/07/10: Improvements in global cloud-system resolving simulation using a double-moment bulk cloud microphysics scheme, CFMIP meeting, Egmond aan Zee, The Netherlands.
  14. Y.-W. Chen, T. Seiki, C. Kodama, M. Satoh, A. T. Noda, and Y. Yamada, 2014/07/09: Cloud responses to global warming simulated by two different cloud microphysical schemes implemented in Nonhydrostatic Icosahedral Atmospheric Model (NICAM), CFMIP meeting, Egmond aan Zee, The Netherlands.
  15. T. Miyakawa, M. Satoh, H. Miura, H. Tomita, H. Yashiro, A. T. Noda, Y. Yamada, C. Kodama, M. Kimoto, and K. Yoneyama, 2014/01/16: Simulation of Winter MJO cases using NICAM, Workshop on Tropical Dynamics and the MJO, Hawaii, U.S.A.

2013

  1. T. Miyakawa, M. Satoh, H. Miura, H. Tomita, H. Yashiro, Y. Yamada, C. Kodama, M. Kimoto, K. Yoneyama, and A. T. Noda, 2013/12/11: CINDY2011/DYANMO MJO case simulated by a global cloud-system resolving model NICAM, American Geophysical Union 2013 Fall meeting, San Francisco, U.S.A.
  2. Y. Yamada, C. Kodama, and M. Satoh, 2013/08/29: Investigating tropical cyclone activity and its future change in 10 years experiments using NICAM, 1st NICAM workshop, Hawaii, U.S.A.
  3. T. Miyakawa, M. Satoh, H. Miura, H. Tomita, H. Yashiro, A. T. Noda, Y. Yamada, C. Kodama, M. Kimoto, and K. Yoneyama, 2013/08/29: Simulation of winter Madden-Julian Oscillation cases: How well can NICAM predict MJOs?, 1st NICAM workshop, Hawaii, U.S.A.
  4. A. T. Noda, C. Kodama, Y. Yamada, and M. Satoh, 2013/06/12: Changes of cloud-size statistics and associated changes of radiative forcing due to global warming in global cloud-resolving simulations, CFMIP meeting, Max Planck Institute, Hamburg, Germany.
  5. T. Miyakawa, M. Satoh, H. Miura, T. Nasuno, T. Kogawa, Y. Yamada, A. T. Noda, Y. Kajikawa, C. Kodama, and H. Yashiro, 2013/03/04: Simulation of winter Madden-Julian Oscillation cases, MJO Field Data and Science Workshop.

2012

  1. M. Satoh, A. T. Noda, C. Kodama, Y. Yamada, and T. Hashino, 2012/12/3-7: Cloud evaluation using satellite simulators and cloud changes for global nonhydrostatic simulations with NICAM, AGU Fall Meeting, San Francisco, CA, U.S.A.
  2. M. Satoh, A. T. Noda, C. Kodama, and Y. Yamada, 2012/9/10-14: Response of upper clouds in global warming experiments obtained using a global nonhydrostatic model, NICAM, with explicit cloud processes, 1st Pan-GASS Conference, Boulder, Colorado, U.S.A.
  3. M. Satoh, A. T. Noda, C. Kodama, and Y. Yamada, 2012/8/13-17: Response of upper clouds in global warming experiments obtained using a global nonhydrostatic model, NICAM, with explicit cloud processes, AOGS 9th Annual Meeting 2012, Singapore.
  4. M. Satoh, A. T. Noda, C. Kodama, Y. Yamada, and S. Iga, 2012/8/7-9: Cloud responses simulated by NICAM, CMMAP 13th Team Meeting, Fort Collins, U.S.A.
  5. M. Satoh, A. T. Noda, C. Kodama, Y. Yamada, and S. Iga, 2012/6/18-22: An Assessment of cloud properties simulated by NICAM using ISCCP, CALIPSO and CloudSat satellite simulators, CALIPSO, CloudSat, EarthCARE Joint Workshop, Paris, France.

2011

  1. A. T. Noda, Y. Yamada, C. Kodama, and M. Satoh, 2011/10/24: Changes of cloud statistics due to greenhouse warming in global nonhydrostatic simulations with explicit cloud processes, WCRP Open Science Conference, Sheraton Denver Downtown Hotel, Denver, U.S.A. (Poster).
  2. T. Iwasaki and C. Kodama, 2011/07/05: Sensitivity of wave instability to the UTLS baroclinicity, IUGG 2011, Melbourne, Australia.

2010

  1. A. T. Noda, C. Kodama, M. Satoh, H. Tomita, T. Nasuno, S. Iga, K. Oouchi, H. Taniguchi and Y. Yamada, 2010/06/21-25: Application of COSP to global cloud-resolving simulations, GEWEX Cloud Assessment, Berlin, Germany.

2009

  1. M. Watanabe, T. Iwasaki, C. Kodama and S. Hasegawa, 2009/07/21: Compensating Meridional Energy Transports Associated with Stationary Eddies and Transients, IAMAS, M06.30/21302, Montreal, Canada.

2008

2007

  1. T. Iwasaki, Y. Mochizuki and C. Kodama, 2007/07/10: Global warming diagnosis based on the atmospheric energy conversion diagram, IUGG 2007, MS017 5609, Perugia, Italy.

2006

  1. T. Iwasaki, Y. Mochizuki, C. Kodama, K. Shibata and S. Yukumoto, 2006/05/31: Global energy conversion diagnosis based on wave-mean-flow interactions and its analysis of the global warming simulation, CMOS 2006, 845, Toronto, Canada.

2005

  1. T. Iwasaki, C. Kodama, Y. Mochizuki, K. Shibata and S. Yukimoto, 2005/08/11: Global energy conversion diagnosis based on wave-mean-flow interactions and its analysis of the global warming, IAMAS 2005, 3B2.6, Beijing, China.

Books

Reports, Data, etc

Academic Degree

Ph.D. thesis

  • Chihiro Kodama (Thesis Adviser: Prof. Toshiki Iwasaki), 2009: Aqua planet experiment on influence of the sea surface temperature rise on baroclinic instability wave activity and its implications for global warming, Department of Geophysics, Graduate School of Science, Tohoku University, Japan

Support from External Funding etc

Continue

  • Research projects using Fugaku "Global climate change simulation with cloud-resolving scale", Principal Investigator, Oct/2024-Sep/2025.

Finish

  • Research projects using Fugaku "Global atmosphere-ocean coupled simulation toward cloud- and eddy-resolving scales", Principal Investigator, Oct/2023-Sep/2024.
  • Grants-in-Aid for Scientific Research, (for Transformative Research Area (B)), Grant Number 20H05728, "Challenge to a global cloud-resolving climate modeling", Principal Investigator, Oct/2020-Mar/2023 (extended to Mar/2024).
  • Grants-in-Aid for Scientific Research, (for Transformative Research Area (B)), Grant Number 20H05727, "Management for the deep-numerical-analysis climate science", Co-Investigator, Oct/2020-Mar/2023 (extended to Mar/2024).
  • Research projects using Fugaku "Global climate simulation with cloud-resolving scale", Principal Investigator, Apr/2022-Mar/2023.
  • Grants-in-Aid for Scientific Research, (for Young Scientists-A), Grant Number 17H04856, "Climatological analysis of cloud and precipitation system associated with extratropical cyclone with a focus on difference between Northern and Southern Hemispheres", Principal Investigator, Apr/2017-Mar/2021 (extended to Mar/2023).
  • Research projects using Fugaku "Global high-resolution climate simulation toward cloud-resolving scale", Principal Investigator, Apr/2021-Mar/2022.
  • Fugaku Trial Access Projects "Global high-resolution climate simulation toward cloud-resolving scale", Principal Investigator, Jan/2021-Mar/2021.
  • Grants-in-Aid for Scientific Research, (for Young Scientists-B), Grant Number 26800252, "Role of the atmospheric gravity wave and tropical convection on long-term variation of the stratospheric general circulation", Principal Investigator, Apr/2014-Mar/2017.

    Strategic Project with Special Support "High-resolution Large-ensemble Experiments for Anomalous Tropical Cyclone Year Using Global Non-hydrostatic Atmospheric Model", Principal Investigator, Aug/2016-Nov/2016. Strategic Project with Special Support "Is Near-future Projection of Tropical Cyclone Feasible? High-resolution Large-ensemble Experiments Using Global Non-hydrostatic Atmospheric Model", Principal Investigator, Apr/2016-Jul/2016.

  • Junior Researcher Promotion Project (K computer) "Tentative English name: Simulation using middle atmosphere model which explicitly resolves atmospheric gravity wave and tropical convection", Principal Investigator, Apr/2014-Mar/2015.
  • EUCLIPSE International Summerschool on "Clouds and Climate", 24/Jun/2013-5/Jul, Les Houches, France (as a student, travel support partly by WCRP).

Other activity

Continue

Finish

  • CFMIP meeting 2017 LOC.
  • Organizer, Workshop on global precipitation systems 2016 "Diversity and Future Outlook of Weather and Climate Models", 28-29/Nov/2016 (link).
  • JAMSTEC Image of the Week - Gallery of the Sea and the Earth
  • Member, Committee on younger generation and gender equality, Meteorological Society of Japan, Oct/2012-May/2016.
  • NCAS Climate Modelling Summer School 2011, 2011/09/11-23, University of Cambridge, U.K (as a student).
  • (as of 16 November 2024) Reviews for
    • Journal of Geophysical Research (x5)
    • Journal of the Meteorological Society of Japan (x4)
    • Journal of Advances in Modeling Earth Systems (x3)
    • Journal of Climate (x3)
    • Tenki (The bulletin journal of the Meteorological Society of Japan) (x2)
    • Geophysical Research Letters (x2)
    • Scientific Reports (x1)
    • Geoscience Letters (x1)
    • Guest Editor, Journal of the Meteorological Society of Japan (x1)
    • Earth and Space Science (x1)
    • Science Advances (x1)
    • Climate Dynamics (x1)
    • Progress in Earth and Planetary Science (x1)