業績

論文・学会発表など研究業績の一覧です。
(2024年2月25日更新)

1. 原著論文

2024
  1. Koyama, S., A. Kamada, Y. Furukawa, N. Terada, Y. Nakamura, T. Yoshida, T. Kuroda, and A.C. Vandaele (2024), Atmospheric formaldehyde production on early Mars leading to a potential formation of bio-important molecules. Scientific Reports, 14, 2397. https://doi.org/10.1038/s41598-024-52718-9
  2. Karyu, H., T. Kuroda, T. Imamura, N. Terada, A.C. Vandaele, A. Mahieux, and S. Viscardy (2024), 1-D Microphysics Model of Venusian Clouds from 40 km to 100 km: Impact of the 1 Middle-atmosphere Eddy Transport and SOIR Temperature Profile on the Cloud Structure. The Planetary Science Journal, in press.
  3. Kamada, A., T. Kuroda, N. Terada, M. Kobayashi, H. Nakagawa, and H. Miyamoto (2024),  Modeling 4.3 billion years of water history on Phobos.  Icarus, 410, 115916. https://doi.org/10.1016/j.icarus.2023.115916
2023
  1. Nakamura, Y., N. Terada, S. Koyama, T. Yoshida, H. Karyu, K. Terada, T. Kuroda, A. Kamada, I. Murata, S. Sakai, Y. Suzuki, M. Kobayashi, and F. Leblanc (2023), Photochemical and RadiatiOn Transport model for Extensive USe (PROTEUS). Earth, Planets and Space, 75, 140.  https://doi.org/10.1186/s40623-023-01881-w
  2. Karyu, H., T. Kuroda, K. Itoh, A. Nitta, K. Ikeda, M. Yamamoto, N. Sugimoto, N. Terada, Y. Kasaba, M. Takahashi, and P. Hartogh (2023), Vertical-Wind-Induced Cloud Opacity Variation in Low
    Latitudes Simulated by a Venus GCM. Journal of Geophysical Research Planets, 128, e2022JE007595.
    https://doi.org/10.1029/2022JE007595
2022
  1. Masunaga, K., N. Terada, N. Yoshida, Y. Nakamura, T. Kuroda, K. Yoshioka, Y. Suzuki, H. Nakagawa, T. Kimura, F. Tsuchiya, G. Murakami, A. Yamazaki, T. Usui, and I. Yoshikawa (2022), Alternate oscillations of Martian hydrogen and oxygen upper atmospheres during a major dust storm. Nature Communications, 13, 6609. https://doi.org/10.1038/s41467-022-34224-6
  2. Kodama, T., D. Takasuka, S. Sherriff-Tadano, T. Kuroda, T. Miyakawa, A. Abe-Ouchi, and M. Satoh (2022), Climate of high obliquity exo-terrestrial planets with a three-dimensional cloud resolving climate model. The Astrophysical Journal, 940, 87. https://doi.org/10.3847/1538-4357/ac98ae
  3. Kamada, A., T. Kuroda, T. Kodama, Y. Kasaba, and N. Terada (2022), Evolution of ice sheets on early Mars with subglacial river systems. Icarus, 385, 115117. https://doi.org/10.1016/j.icarus.2022.115117
  4. Yamada, T., P. Baron, L. Neary, T. Nishibori, R. Larsson, T. Kuroda, F. Daerden, and Y. Kasai (2022), Observation Capability of a Ground-Based Terahertz Radiometer for Vertical Profiles of Oxygen and Water Abundances in Martian Atmosphere. IEEE Transactions on Geoscience and Remote Sensing, 60, 1-11. https://doi.org/10.1109/TGRS.2022.3152271
  5. Haider, S.A., Y.S. Siddhi, J. Massom, V. Sheel, and T. Kuroda (2022), Impact of dust loading on ozone, winds and heating rates in the atmosphere of mars: Seasonal variability, climatology and SPICAM observations. Planetary and Space Science, 212, 105424. https://doi.org/10.1016/j.pss.2022.105424
  6. Kurokawa, H., T. Kuroda, S. Aoki, and H. Nakagawa (2022), Can we constrain the origin of Mars’ recurring slope lineae using atmospheric observations? Icarus, 371, 114688. https://doi.org/10.1016/j.icarus.2021.114688
2021
  1. Barucci, M.A., J.‑M. Reess, P. Bernardi, A. Doressoundiram, S. Fornasier, M. Le Du, T. Iwata, H. Nakagawa, T. Nakamura, Y. André, S. Aoki, T. Arai, E. Baldit, P. Beck, J.‑T. Buey, E. Canalias, M. Castelnau, S. Charnoz, M. Chaussidon, F. Chapron, V. Ciarletti, M. Delbo, B. Dubois, S. Gauffre, T. Gautier, H. Genda, R. Hassen‑Khodja, G. Hervet, R. Hyodo, C. Imbert, T. Imamura, L. Jorda, S. Kameda, D. Kouach, T. Kouyama, T. Kuroda, H. Kurokawa, L. Lapaw, J. Lasue, L. Le Deit, A. Ledot, C. Leyrat, B. Le Ruyet, M. Matsuoka, F. Merlin, H. Miyamoto, F. Moynier, N. Nguyen Tuong, K. Ogohara, T. Osawa, J. Parisot, L. Pistre, B. Quertier, S.N. Raymond, F. Rocard, T. Sakanoi, T.M. Sato, E. Sawyer, F. Tache, S. Trémolières, F. Tsuchiya, P. Vernazza, and D. Zeganadin (2021), MIRS: an imaging spectrometer for the MMX mission. Earth, Planets and Space, 73, 211. https://doi.org/10.1186/s40623-021-01423-2
  2. Kamada, A., T. Kuroda, Y. Kasaba, N. Terada, and H. Nakagawa (2021), Global climate and river transport simulations of early Mars around the Noachian and Hesperian boundary. Icarus, 368, 114618. https://doi.org/10.1016/j.icarus.2021.114618
  3. Sugimoto, N., Y. Fujisawa, H. Kashimura, K. Noguchi, T. Kuroda, M. Takagi, and Y.-Y. Hayashi (2021), Generation of gravity waves from thermal tides in the Venus atmosphere. Nature Communications, 12, 3682. https://doi.org/10.1038/s41467-021-24002-1
  4. Miyamoto, A., H. Nakagawa, T. Kuroda, K. Takami, I. Murata, A. S. Medvedev, N. Yoshida, K. Toriumi, S. Aoki, H. Sagawa, Y. Kasaba, and N. Terada (2021), Intense Zonal Wind in the Martian Mesosphere During the 2018 Planet-Encircling Dust Event Observed by Ground-based IR Heterodyne Spectroscopy. Geophysical Research Letters, 48, e2021GL092413. https://doi.org/10.1029/2021GL092413
  5. Koyama, S., N. Terada, H. Nakagawa, T. Kuroda, and Y. Sekine (2021), Stability of Atmospheric Redox States of Early Mars Inferred from Time Response of the Regulation of H and O Losses. The Astrophysical Journal, 912, 135. https://doi.org/10.3847/1538-4357/abf0ac
2020
  1. Kuroda, T., A.S. Medvedev and E. Yiğit (2020), Gravity Wave Activity in the Atmosphere of Mars During the 2018 Global Dust Storm: Simulations With a High-Resolution Model. Journal of Geophysical Research Planets, 125, e2020JE006556. https://doi.org/10.1029/2020JE006556
  2. Nakagawa, H., N. Terada, S.K. Jain, N.M. Schneider, F. Montmessin, R.V. Yelle, F. Jiang, L. Verdier, S.L. England, K. Seki, H. Fujiwara, T. Imamura, N. Yoshida, T. Kuroda, K. Terada, H. Gröller, J. Deighan and B.M. Jakosky (2020), Vertical propagation of wave perturbations in the middle atmosphere on Mars by MAVEN/IUVS. Journal of Geophysical Research Planets, 125, e2020JE006481. https://doi.org/10.1029/2020JE006481
  3. Sato, T.O., T. Kuroda and Y. Kasai (2020), Novel index to comprehensively evaluate air cleanliness: the “Clean aIr Index”. Geoscience Communication, 3, 233–247. https://doi.org/10.5194/gc-3-233-2020
  4. Takami, K., H. Nakagawa, H. Sagawa, P. Krause, I. Murata, Y. Kasaba, T. Kuroda, S. Aoki, T. Kouyama, T. Kostiuk, T.A. Livengood and G. Gilli (2020), Evaluation of a method to retrieve temperature and wind velocity profiles of the Venusian nightside mesosphere from mid-infrared CO2 absorption line observed by heterodyne spectroscopy.  Earth Planet Space, 72, 60. https://doi.org/10.1186/s40623-020-01188-0
  5. Nakagawa, H., S.K. Jain, N.M. Schneider, F. Montmessin, R.V. Yelle, F. Jiang, L. Verdier, T. Kuroda, N. Yoshida, H. Fujiwara, T. Imamura, N. Terada, K. Terada, K. Seki, H. Gröller and J.I. Deighan (2020), A Warm Layer in the Nightside Mesosphere of Mars. Geophysical Research Letters, 47, e2019GL085646. https://doi.org/10.1029/2019GL085646
  6. Kamada, A., T. Kuroda, Y. Kasaba, N. Terada, H. Nakagawa and K. Toriumi (2020), A coupled atmosphere–hydrosphere global climate model of early Mars: A ‘cool and wet’ scenario for the formation of water channels. Icarus, 338, 113567. https://doi.org/10.1016/j.icarus.2019.113567
2019
  1. Kuroda, T., E. Yiğit and A.S. Medvedev (2019), Annual Cycle of Gravity Wave Activity Derived from a High-Resolution Martian General Circulation Model. Journal of Geophysical Research Planets, 124, 1618–1632. https://doi.org/10.1029/2018JE005847
  2. Fujinawa, T., K. Noguchi, A. Kuze, A. Richter, J.P. Burrows, A.C. Meier, T.O. Sato, T. Kuroda, N. Yoshida and Y. Kasai (2019), Concept of small satellite UV/visible imaging spectrometer optimized for tropospheric NO2 measurements in air quality monitoring. Acta Astronautica, 160, 421–432. https://doi.org/10.1016/j.actaastro.2019.03.081
2018年以前
  1. Larsson, R., Y. Kasai, T. Kuroda, S. Sato, T. Yamada, H. Maezawa, Y. Hasegawa, T. Nishibori, S. Nakasuka and P. Hartogh (2018), Mars submillimeter sensor on microsatellite: sensor feasibility study. Geoscientific Instrumentation Methods and Data Systems, 7, 331–341. https://doi.org/10.5194/gi-7-331-2018
  2. Jakosky, B.M., D. Brain, M. Chaffin, S. Curry, J. Deighan, J. Grebowsky,J. Halekas, F. Leblanc, R. Lillis, J.G. Luhmann, L. Andersson, N. Andre, D. Andrews, D. Baird, D. Baker, J. Bell, M. Benna, D. Bhattacharyya, S. Bougher, C. Bowers, P. Chamberlin, J.-Y. Chaufray, J. Clarke, G. Collinson, M. Combi, J. Connerney, K. Connour, J. Correira, K. Crabb, F. Crary, T. Cravens, M. Crismani, G. Delory, R. Dewey, G. DiBraccio, C. Dong, Y. Dong, P. Dunn, H. Egan, M. Elrod, S. England, F. Eparvier, R. Ergun, A. Eriksson, T. Esman, J. Espley, S. Evans, K. Fallows, X. Fang, M. Fillingim, C. Flynn, A. Fogle, C. Fowler, J. Fox, M. Fujimoto, P. Garnier, Z. Girazian, H. Groeller, J. Gruesbeck, O. Hamil, K.G. Hanley, T. Hara, Y. Harada, J. Hermann, M. Holmberg, G. Holsclaw, S. Houston, S. Inui, S. Jain, R. Jolitz, A. Kotova, T. Kuroda, D. Larson, Y. Lee, C. Lee, F. Lefevre, C. Lentz, D. Lo, R. Lugo, Y.-J. Ma, P. Mahaffy, M.L. Marquette, Y. Matsumoto, M. Mayyasi, C. Mazelle, W. McClintock, J. McFadden, A.S. Medvedev, M. Mendillo, K. Meziane, Z. Milby, D. Mitchell, R. Modolo, F. Montmessin, A. Nagy, H. Nakagawa, C. Narvaez, K. Olsen, D. Pawlowski, W. Peterson, A. Rahmati, K. Roeten, N.Romanelli, S. Ruhunusiri, C. Russell, S. Sakai, N. Schneider, K. Seki, R. Sharrar, S. Shaver, D.E. Siskind, M. Slipski, Y. Soobiah, M. Steckiewicz, M.H. Stevens, I. Stewart, A. Stiepen, S. Stone, V. Tenishev, N. Terada, K. Terada, E. Thiemann, R. Tolson, G. Toth, J. Trovato, M. Vogt, T. Weber, P. Withers, S. Xu, R. Yelle, E. Yiğit and R. Zurek (2018), Loss of the Martian atmosphere to space: Present-day loss rates determined from MAVEN observations and integrated loss through time. Icarus, 315, 146–157. https://doi.org/10.1016/j.icarus.2018.05.030
  3. Shaposhnikov, D.S., A.V. Rodin, A.S. Medvedev, A.A. Fedorova, T. Kuroda and P. Hartogh (2018), Modeling the hydrological cycle in the atmosphere of Mars: Influence of a bimodal size distribution of aerosol nucleation particles. Journal of Geophysical Research Planets, 123, 508–526. https://doi.org/10.1002/2017JE005384
  4. Noguchi, K., Y. Morii, N. Oda, T. Kuroda, S. Tellmann and M. Pätzold (2017), Role of stationary and transient waves in CO2 supersaturation during northern winter in the Martian atmosphere revealed by MGS radio occultation measurements. Journal of Geophysical Research Planets, 122, 912–926. https://doi.org/10.1002/2016JE005142
  5. Terada, N., F. Leblanc, H. Nakagawa, A.S. Medvedev, E. Yiğit, T. Kuroda, T. Hara, S.L. England, H. Fujiwara, K. Terada, K. Seki, P.R. Mahaffy, M. Elrod, M. Benna, J. Grebowsky and B.M. Jakosky (2017), Global distribution and parameter dependences of gravity wave activity in the Martian upper thermosphere derived from MAVEN/NGIMS observations. Journal of Geophysical Research Space Physics, 122, 2374–2397. https://doi.org/10.1002/2016JA023476
  6. Kuroda, T., A.S. Medvedev, E. Yiğit and P. Hartogh (2016), Global Distribution of Gravity Wave Sources and Fields in the Martian Atmosphere during Equinox and Solstice Inferred from a High-Resolution General Circulation Model. Journal of the Atmospheric Science, 73, 4895–4909. https://doi.org/10.1175/JAS-D-16-0142.1
  7. Medvedev, A.S., H. Nakagawa, C. Mockel, E. Yiğit, T. Kuroda, P. Hartogh, K. Terada, N. Terada, K. Seki, N.M. Schneider, S.K. Jain, J.S. Evans, J.I. Deighan, W.E. McClintock, D. Lo and B.M. Jakosky (2016), Comparison of the Martian thermospheric density and temperature from IUVS/MAVEN data and general circulation modeling. Geophysical Research Letters, 43, 3095–3104. https://doi.org/10.1002/2016GL068388
  8. Kuroda, T., A.S. Medvedev, E. Yiğit and P. Hartogh, A global view of gravity waves in the Martian atmosphere inferred from a high-resolution general circulation model. Geophysical Research Letters, 42, 9213–9222, doi:10.1002/2015GL066332, 2015.
  9. Yiğit, E., S.L. England, G. Liu, A.S. Medvedev, P.R. Mahaffy, T. Kuroda and B.M. Jakosky, High-altitude gravity waves in the Martian thermosphere observed by MAVEN/NGIMS and modeled by a gravity wave scheme. Geophysical Research Letters, 42, 8993–9000, doi:10.1002/2015GL065307, 2015.
  10. Haider, S.A., I.S. Batista, M.A. Abdu, P. Muralikrishna, S.Y. Shah and T. Kuroda, Dust storm and electron density in the equatorial D regionionosphere of Mars: Comparison with Earth’s ionospherefrom rocket measurements in Brazil. Journal of Geophysical Research Space Physics, 120, 8968–8977, doi:10.1002/2015JA021630, 2015.
  11. Noguchi, K., S. Ikeda, T. Kuroda, S. Tellmann and M. Pätzold, Estimation of changes in the composition of the Martian atmosphere caused by CO2 condensation from GRS Ar measurements and its application to the rederivation of MGS radio occultation measurements. Journal of Geophysical Research Planets, 119, 2510–2521, doi:10.1002/2014JE004629, 2014.
  12. Kuroda, T., A.S. Medvedev and P. Hartogh, Parameterization of radiative heating and cooling rates in the stratosphere of Jupiter. Icarus, 242, 149–157, doi:10.1016/j.icarus.2014.08.001, 2014.
  13. Medvedev, A.S., E. Yiğit, T. Kuroda and P. Hartogh, General circulation modeling of the Martian upper atmosphere during global dust storms, Journal of Geophysical Research Planets, 118, 2234–2246, doi:10.1002/2013JE004429, 2013.
  14. Kuroda, T., A.S. Medvedev, Y. Kasaba and P. Hartogh, Carbon dioxide ice clouds, snowfalls, and baroclinic waves in the northern winter polar atmosphere of Mars, Geophysical Research Letters, 40, 1484–1488, doi:10.1002/grl.50326, 2013.
  15. Kasai, Y., H. Sagawa, T. Kuroda, T. Manabe, S. Ochiai, K. Kikuchi, T. Nishibori, P. Baron, J. Mendrok, P. Hartogh, D. Murtagh, J. Urban, F. von Schéele and U. Frisk, Overview of the Martian atmospheric submillimetre sounder FIRE. Planetary and Space Science, 63-64, 62–82, doi:10.1016/j.pss.2011.10.013, 2012.
  16. Kuroda, T. and P. Hartogh, Wind velocities of different seasons and dust opacities on Mars: Comparison between microwave observations and simulations by general circulation models. Advances in Geosciences, Vol. 19: Planetary Science (PS) (edited by A. Bhardwaj), World Scientific Publishing, pp261–270, 2010.
  17. Kuroda, T., A.S. Medvedev, P. Hartogh and M. Takahashi, On Forcing the Winter Polar Warmings in the Martian Middle Atmosphere during Dust Storms. Journal of the Meteorological Society of Japan, 87, 913–921, doi:10.2151/jmsj.87.913, 2009.
  18. Kuroda, T., P. Hartogh and C. Jarchow, The Martian atmosphere as a submillimeter flux calibration source using an opaque molecular line: Impacts of temperature errors provided by general circulation models. Advances in Geosciences, Vol. 15: Planetary Science (PS) (edited by A. Bhardwaj), World Scientific Publishing, pp17–24, 2009.
  19. Kuroda, T., A.S. Medvedev, P. Hartogh and M. Takahashi, Semiannual oscillations in the atmosphere of Mars. Geophysical Research Letters,35, L23202, doi:10.1029/2008GL036061, 2008.
  20. Yamashita, Y., T. Kuroda and M. Takahashi, Maintenance of zonal wind variability associated with the annular mode on Mars. Geophysical Research Letters,34, L16819, doi:10.1029/2007GL030069, 2007.
  21. Kuroda, T. and P. Hartogh, Comparison of microwave observations of Martian temperature and winds with general circulation model simulations. Advances in Geosciences, Vol. 7: Planetary Science (PS) (edited by A. Bhardwaj), World Scientific Publishing, pp13–20, 2007.
  22. Kuroda, T., A.S. Medvedev, P. Hartogh and M. Takahashi, Seasonal changes of the baroclinic wave activity in the northern hemisphere of Mars simulated with a GCM, Geophysical Research Letters, 34, L09203, doi:10.1029/2006GL028816, 2007.
  23. Kuroda, T., A.S. Medvedev and P. Hartogh, Martian atmosphere during the 2001 global dust storm: Observations with SWAS and simulations with a general circulation model. Advances in Geosciences, Vol. 3: Planetary Science (PS) (edited by A. Bhardwaj), World Scientific Publishing, pp145–154, 2006.
  24. Hartogh, P., A.S. Medvedev, T. Kuroda, R. Saito, G. Villanueva, A.G. Feofilov, A.A. Kutepov and U. Berger, Description and climatology of a new general circulation model of the Martian atmosphere. Journal of Geophysical Research, 110, E11008, doi:10.1029/2005JE002498, 2005.
  25. Kuroda, T., N. Hashimoto, D. Sakai and M. Takahashi, Simulation of the Martian Atmosphere Using a CCSR/NIES AGCM. Journal of the Meteorological Society of Japan, 83, 1–19, 2005.

2. レビュー論文・総説

  1. 黒田剛史, 佐川英夫, 関根康人, 笠井康子, P. Hartogh, 深宇宙探査機によるテラヘルツ波帯観測が拓く惑星科学. 日本リモートセンシング学会誌, 37, 351–361, doi:10.11440/rssj.37.351, 2017.
  2. 笠井康子, 佐川英夫, 関根康人, 黒田剛史, 菊池健一, 西堀俊幸, 真鍋武嗣, JUICE-SWI日本チーム, みんなでふたたび木星へ,そして氷衛星へ その2 ~サブミリ波分光計JUICE-SWIの挑戦~, 日本惑星科学会誌「遊星人」, Vol.23, pp140-148, 2014.
  3. Medvedev, A.S., T. Kuroda and P. Hartogh, Influence of dust on the dynamics of the Martian atmosphere above the first scale height. Aeolian Research, 3, 145–156, 2011.
  4. 今村剛, 笠井康子, 佐川英夫, 黒田剛史, 佐藤毅彦, 上野宗孝, 鈴木睦, 高橋幸弘, 高橋芳幸, はしもとじょーじ, 倉本圭, 火星気象学あるいは水文学への挑戦, 日本惑星科学会誌「遊星人」, Vol.18, pp76-78, 2009.

3. 国際学会プロシーディングス

  1. Kuroda, T., Y. Kasai, S. Nakasuka, H. Maezawa and R. Takahashi, Weather forecast on Mars: Significances and what we need. Abstract book of ‘Mars Atmosphere Data Assimilation workshop 2018’, CNES, LMD and Space Science Institute, 2018.
  2. Kuroda, T. and M. Kadowaki, Simulation of the Small-Scale Dust Activities and their Mutual Interactions on the Atmospheric Dynamics using a High-Resolution Mars General Circulation Model.  Abstract book of ‘Dust in the Atmosphere of Mars and Its Impact on Human Exploration’, Lunar and Planetary Institute, 2017.
  3. Kuroda, T., A.S. Medvedev, E. Yiğit and P. Hartogh, Simulation of Gravity Wave Fields and Their Effects on the Large-scale Flow in the Martian Atmosphere Using a High-resolution General Circulation Model. Abstract book of ‘Sixth international workshop on the Mars atmosphere: modelling and observations’, LMD, CNES and IAA, 2017.
  4. Kuroda, T., Simulation of the Water Cycle Including HDO/H2O Isotopic Fractionation on the Present Mars Using DRAMATIC MGCM. Abstract book of ‘Sixth international workshop on the Mars atmosphere: modelling and observations’, LMD, CNES and IAA,
  5. Mockel, C., A.S. Medvedev, P. Hartogh, E. Yiğit, H. Nakagawa, N. Terada, T. Kuroda, K. Seki, J.S. Evans, N.M. Schneider, J.I. Deighan, W.E. McClintock, B.M. Jakosky and D. Lo, Martian Thermosphere in MAVEN/IUVS Data and MPI-MGCM. Abstract book of ‘Sixth international workshop on the Mars atmosphere: modelling and observations’, LMD, CNES and IAA, 2017.
  6. Yiğit, E., A.S. Medvedev, P. Hartogh, T. Kuroda and D.E. Siskind, Gravity Wave-induced High Altitude Ice Clouds on Mars. Abstract book of ‘Sixth international workshop on the Mars atmosphere: modelling and observations’, LMD, CNES and IAA, 2017.
  7. Noguchi, K., T. Kuroda and H. Hayashi, The Imaging Ultraviolet Spectrograph as part of the CO2 Supersaturation by Atmospheric Waves in the Martian Polar Nights. Abstract book of ‘Sixth international workshop on the Mars atmosphere: modelling and observations’, LMD, CNES and IAA, 2017.
  8. Medvedev, A.S., E. Yiğit, T. Kuroda, C. Mockel and P. Hartogh, Gravity Waves and their Effects from the Martian Troposphere to Thermosphere. Abstract book of ‘Sixth international workshop on the Mars atmosphere: modelling and observations’, LMD, CNES and IAA, 2017.
  9. Kuroda, T., Y. Kasaba, A.S. Medvedev and P. Hartogh, CO2 snowfalls modulated by the baroclinic waves in the northern winter polar atmosphere of Mars. Abstract book of ‘Fifth international workshop on the Mars atmosphere: modelling and observations’, Martin Wood Lecture Theatre, Department of Physics, Oxford, UK, 2014.
  10. Medvedev, A.S., E. Yiğit, T. Kuroda and P. Hartogh, Response of the Martian upper atmosphere to lower atmospheric dust storms: GCM study. Abstract book of ‘Fifth international workshop on the Mars atmosphere: modelling and observations’, Martin Wood Lecture Theatre, Department of Physics, Oxford, UK, 2014.
  11. Kuroda, T., H. Sagawa, Y. Kasai, N. Terada and Y. Kasaba, Modeling and observation of the water isotopic ratios on Mars: Approach to the climate changes. Final Conference Proceeding of ‘Mars Recent Climate Change Workshop’, NASA Ames Research Center, Moffett Field, CA, pp134–137, 2012.
  12. Kuroda, T., Simulation of the mesospheric CO2 ice clouds on Mars using a general circulation model. Abstract book of ‘Fourth international workshop on the Mars atmosphere: modelling and observations’, Institut Oceanographique de Paris, Paris, France, pp413–415, 2011.
  13. Kuroda, T., A.S. Medvedev, P. Hartogh and M. Takahashi, Effects of Dust Storms to the Winter Polar Warmings in the Martian Middle Atmosphere. Final Conference Proceeding of ‘Mars Dust Cycle Workshop’, NASA Ames Research Center, Moffett Field, CA, pp156-160, 2010.
  14. Kuroda, T., P. Hartogh, D. Sakai and M. Takahashi, Simulation of the Water Cycle on Mars in the CCSR/NIES/FRCGC MGCM. Abstract book of ‘Third International Workshop on the Mars Atmosphere: Modeling and Observations’, Williamsburg Woodlands Hotel and Conference Center, Williamsburg, VA, #9049, 2008.
  15. Medvedev, A.S., T. Kuroda, P. Hartogh and M. Takahashi, Semiannual Oscillations in the Atmosphere of Mars. Abstract book of ‘Third International Workshop on the Mars Atmosphere: Modeling and Observations’, Williamsburg Woodlands Hotel and Conference Center, Williamsburg, VA, #9047, 2008.
  16. Kuroda, T., D. Sakai, M. Takahashi, A.S. Medvedev and P. Hartogh, First results of the water cycle simulation in CCSR/NIES MGCM. Abstract book of ‘Mars Water Cycle Workshop’, Museum National d’Histoire Naturelle, Paris, France, 2008.
  17. Kuroda, T. and M. Takahashi, Baroclinic Waves in the Martian Atmosphere: Study Using the CCSR/NIES Martian GCM. Abstract book of ‘Second workshop on Mars atmosphere modelling and observations’, Palacio de Congresos y Exposiciones, Granada, Spain, 1-5-3, 2006.
  18. Kuroda, T., A.S. Medvedev and P. Hartogh, The Martian Atmosphere during the 2001 Global Dust Storm: Observation with SWAS and Simulations with a General Circulation Model. Abstract book of ‘Second workshop on Mars atmosphere modelling and observations’, Palacio de Congresos y Exposiciones, Granada, Spain, 2-3-2, 2006.
  19. Medvedev, A.S., P. Hartogh, T. Kuroda, R. Saito, A.G. Feofilov and A.A. Kutepov, A New General Circulation Model of the Martian Atmosphere: Description and First Results. Abstract book of ‘Second workshop on Mars atmosphere modelling and observations’, Palacio de Congresos y Exposiciones, Granada, Spain, 1-1-5, 2006.
  20. Medvedev, A.S., P. Hartogh and T. Kuroda, Winter Polar Warmings and the Meridional Transport on Mars Simulated with a GCM. Abstract book of ‘Second workshop on Mars atmosphere modelling and observations’, Palacio de Congresos y Exposiciones, Granada, Spain, 1-2-7, 2006.

4. 学会招待講演

  1. Kuroda, T., A. Kamada, N. Terada and Y. Kasaba, DRAMATIC on Mars: 3-Dimensional Simulations of Atmospheric Waves, CO2 Snowfall, Water Cycle and Paleoclimate. The 4th International Conference on Lunar and Deep Space Exploration (LDSE), Zhuhai International Convention and Exhibition Center, Zhuhai, China, 22 July 2019.
  2. 黒田剛史, 鎌田有紘, 鳥海克成, 笠羽康正, 寺田直樹, 中川広務, 火星古気候の大気・水圏結合モデリング, 日本気象学会2018年度秋季大会, 仙台国際センター, 2018年10月31日.
  3. Kamada, A., T. Kuroda, Y. Kasaba, N. Terada, H. Nakagawa and K. Toriumi, A coupled atmosphere–hydrosphere global climate model of early Mars: “cool and wet” scenario for the formation of water channels. JpGU 2018, PPS07-01, Makuhari Messe, Chiba, Japan, 20 May 2018.
  4. 黒田剛史, 火星大気モデルの開発状況と今後の展望, 第9回深宇宙探査学シンポジウム-2020s火星への旅立ち-, 東京大学柏キャンパス, 2017年12月8日.
  5. 黒田剛史, Approaches to the material transport and climate change on Mars using a general circulation model. 第21回大気化学討論会, 東京工業大学地球生命研究所, S-4, 2015年10月20日.
  6. 黒田剛史, A.S. Medvedev, P. Hartogh, Research with modeling of planetary atmosphere at MPS since 2004. 第16回惑星圏研究会, 東北大学青葉サイエンスホール, 2015年2月17日.
  7. 黒田剛史, Atmospheric dynamics and material transport in the Martian lower atmosphere: towards the connection to upper atmosphere. 第16回惑星圏研究会, 東北大学青葉サイエンスホール, 2015年2月17日.
  8. 黒田剛史, A.S. Medvedev, J. Sethunadh, P. Hartogh, Modeling of Jupiter’s stratosphere: new radiation code and impacts on the dynamics. 第16回惑星圏研究会, 東北大学青葉サイエンスホール, 2015年2月16日.
  9. 黒田剛史, Current status and future prospects of the observations and modeling of Martian atmosphere. 第15回惑星圏研究会, 東北大学青葉記念会館, 2014年2月21日.
  10. 黒田剛史, 大気大循環モデル(GCM)を用いた火星大気力学・物質循環研究の現状. 火星大気圏・電磁圏研究会, 立教大学, 2012年12月20日.

5. 国内シンポジウム等集録

  1. 黒田剛史, 五藤大輔, 笠井康子, 是津耕司, Stretch NICAM-Chemを用いた福岡市を中心とする高分解能大気汚染シミュレーション. 第30回大気圏シンポジウム講演集, 宇宙航空研究開発機構・宇宙科学研究所, 2016.
  2. 黒田剛史, A.S. Medvedev, P. Hartogh, Yiğit, 高分解能火星 GCM による重力波の励起と伝播のシミュレーション:季節変化の解析. 第30回大気圏シンポジウム講演集, 宇宙航空研究開発機構・宇宙科学研究所, 2016.
  3. 野口克行, 黒田剛史, 林寛生, 火星大気におけるCO2過飽和に対する定常波と非定常波の役割. 第30回大気圏シンポジウム講演集, 宇宙航空研究開発機構・宇宙科学研究所, 2016.
  4. 中川広務, A.S. Medvedev, 黒田剛史, Yiğit, 寺田直樹, 寺田香織, 藤原均, C. Mochel, P. Hartogh, 関華奈子, H. Groller, R.V. Yelle, F. Montmessin, N.M. Schneider, J.I. Deighan, S. Jain, B. Jakosky, 青木翔平, 佐川英夫,笠羽康正, MAVEN/IUVSと地上観測連携による火星中層大気観測. 第30回大気圏シンポジウム講演集, 宇宙航空研究開発機構・宇宙科学研究所, 2016.
  5. 黒田剛史, A.S. Medvedev, P. Hartogh, Yiğit, 高分解能火星 GCM による重力波の励起と伝播のシミュレーション. 第29回大気圏シンポジウム講演集, 宇宙航空研究開発機構・宇宙科学研究所, 2016.
  6. 伊藤一成, 黒田剛史, 笠羽康正, 寺田直樹, 池田恒平, 高橋正明, GCM study of the Venusian cloud formation and distribution: Effects of atmospheric chemistry and circulation. 第29回大気圏シンポジウム講演集, 宇宙航空研究開発機構・宇宙科学研究所, 2016.
  7. 野口克行, 森井靖子, 小田尚香, 黒田剛史, 火星大気におけるCO2過飽和に対する大気波動の役割. 第29回大気圏シンポジウム講演集, 宇宙航空研究開発機構・宇宙科学研究所, 2016.
  8. 黒田剛史, A.S. Medvedev, P. Hartogh, Research with modeling of planetary atmosphere at MPS since 2004. 第16回惑星圏研究会集録, 2015.
  9. 黒田剛史, Atmospheric dynamics and material transport in the Martian lower atmosphere: towards the connection to upper atmosphere. 第16回惑星圏研究会集録, 2015.
  10. 黒田剛史, A.S. Medvedev, J. Sethunadh, P. Hartogh, Modeling of Jupiter’s stratosphere: new radiation code and impacts on the dynamics. 第16回惑星圏研究会集録, 2015.
  11. 黒田剛史, Current status and future prospects of the observations and modeling of Martian atmosphere. 第15回惑星圏研究会集録, 2014.
  12. 黒田剛史, 笠羽康正, A.S. Medvedev, P. Hartogh, 火星におけるCO2大気の凝結と傾圧不安定波の影響. 第27回大気圏シンポジウム講演集, 宇宙航空研究開発機構・宇宙科学研究所, 2013.
  13. 黒田壮大, 黒田剛史, 笠羽康正, P. Drossart, G. Piccioni, 池田恒平, 高橋正明, Venus Express/VIRTIS観測とGCMシミュレーションによる金星北半球の雲層緯度構造の研究. 第27回大気圏シンポジウム講演集, 宇宙航空研究開発機構・宇宙科学研究所, 2013.
  14. 黒田剛史, A.S. Medvedev, P. Hartogh, Radiative Heat Balances in Jupiter’s Stratosphere: Development of a Radiation Code for the Implementation to a GCM. 第14回惑星圏研究会集録, 2013.
  15. 黒田剛史, 佐川英夫, 笠井康子, 笠羽康正, 火星大気のHDO/H2O循環:観測とシミュレーションによるアプローチ. 第26回大気圏シンポジウム講演集, 宇宙航空研究開発機構・宇宙科学研究所, 2012.
  16. 黒田剛史, 火星サブミリ波サウンダ検討チーム, MELOS 気象オービタが拓く,火星中層大気の大循環と力学.  第25回大気圏シンポジウム講演集, 宇宙航空研究開発機構・宇宙科学研究所, 2011.
  17. 黒田剛史, A.S. Medvedev, P. Hartogh, 高橋正明, 大気大循環モデルと最新の観測データから見る火星大気の力学と物質循環. 第11回惑星圏研究会集録, 東北大学, pp5–8, 2010.
  18. 黒田剛史, P. Hartogh, 笠井康子, 佐川英夫, 青山友貴奈, 酒井大輔, 高橋正明, 火星大気における水循環:観測とシミュレーションの現状と将来計画. 第24回大気圏シンポジウム講演集, 宇宙航空研究開発機構・宇宙科学研究本部, 2010.
  19. 黒田剛史, 佐川英夫, 笠井康子, 真鍋武嗣, 落合啓, 西堀俊幸, J. Mendrok, P. Baron, P. Hartogh, J. Urban, D. Murtagh, U. Frisk, 酒井大輔, 高橋正明, 火星中高層大気の科学:火星大気GCM を利用した水循環研究とサブミリ波サウンダによる火星水循環観測. 第10回惑星圏研究会集録, 東北大学,  pp19–23, 2009.
  20. 佐川英夫, 黒田剛史, 笠井康子,真鍋武嗣, 西堀俊幸, 落合啓, J. Mendok, P. Baron, P. Hartogh, 火星サブミリ波サウンダ検討チーム, 火星中高層大気の科学. 第23回 大気圏シンポジウム講演集, 宇宙航空研究開発機構・宇宙科学研究本部, 2009.
  21. 黒田剛史, 高橋正明, 橋本尚久, 酒井大輔, CCSR/NIES 火星GCMの現状. 第18回大気圏シンポジウム講演集, 宇宙航空研究開発機構・宇宙科学研究本部, pp30–33, 2004.
  22. 黒田剛史, 高橋正明, 橋本尚久, 酒井大輔, CCSR/NIES 火星GCMの現状. 地球流体力学研究集会「地球流体における波動と対流現象の力学」研究集会報告 15ME-S4, 九州大学応用力学研究所, pp35–40, 2004.
  23. 黒田剛史, 高橋正明, 橋本尚久, CCSR/NIES AGCMを用いた火星大気シミュレーション. 地球流体力学研究集会「惑星大気の力学」研究集会報告 13ME-S7, 九州大学応用力学研究所, pp43–52, 2002.
  24. 黒田剛史, 高橋正明, 橋本尚久, CCSR/NIES AGCMを用いた火星大気シミュレーション. 第15回大気圏シンポジウム講演集, 宇宙科学研究所, pp238–241, 2001.
  25. 黒田剛史, 永島達也, 高橋正明, CCSR/NIES AGCMを用いた火星大気シミュレーション. 第14回大気圏シンポジウム講演集, 宇宙科学研究所, pp173–176, 2000.
  26. 黒田剛史, 永島達也, 高橋正明, CCSR/NIES AGCMを用いた火星大気シミュレーション. 第13回大気圏シンポジウム講演集, 宇宙科学研究所, pp168–171, 1999.

6. 国際学会一般発表(国内で開催された国際学会・国際セッションを含む)

(口頭発表)

  1. Kuroda, T., Y. Zou, A. Kamada, T. Kodama, and N. Terada, Global climate modeling of TRAPPIST-1e using MIROC for the model intercomparison. Japan Geoscience Union Meeting 2021, PAE16-02, Online, 6 June 2021.
  2. Kuroda, T., Kasai, T. Yamada, H. Maezawa, R. Takahashi, and S. Nakasuka, TEREX-1: A micro-satellite terahertz lander for the exploration of water/oxygen resources on Mars. 43rd COSPAR Scientific Assembly, B0.5-0006-21, Online, 31 January 2021.
  3. Kuroda, T., Kamada, Y. Kasaba, N. Terada, H. Nakagawa, and K. Toriumi, Hydrological and glaciological activities on early Mars for the formation of valley networks simulated in a global climate model. 43rd COSPAR Scientific Assembly, B4.1-0011-21, Online, 29 January 2021.
  4. Kuroda, T., GCM Simulations of the Martian Winter Polar Atmosphere and CO2 Snowfalls: Dependence of Horizontal Resolution and Radiative Effects of CO2 Ice Clouds. Seventh International Conference on Mars Polar Science and Exploration, Sala Niní Marshall, Ushuaia, Argentina, 13 January 2020.
  5. Kuroda, T., A. Kamada, K. Toriumi, Y. Kasaba, N. Terada, H. Nakagawa, Simulation of the Water Environment on the Present and Past Mars Using a Global Climate Model. Planet 2/RESCEU Symposium 2019, Bankoku Shinryokan, Okinawa, Japan, 15 October 2019.
  6. Kuroda, T., K. Itoh, A. Nitta, T. Akiba, K. Ikeda, N. Terada, Y. Kasaba, M. Takahashi, A.S. Medvedev, P. Hartogh, Maintenances of Venusian Sulfuric Acid Clouds due to Chemistry and Dynamics Simulated by a General Circulation Model. International Venus Conference 2019, Hilton Niseko Village, Hokkaido, Japan, 2 June 2019.
  7. Kuroda, T., A. Kamada, K. Toriumi, Y. Kasaba, N. Terada, H. Nakagawa, GCM simulations of the present and past water environment on Mars. Japan Geoscience Union Meeting 2019, PPS04-08, Makuhari Messe, Chiba, Japan, 26 May 2019.
  8. Kuroda, T., A. Kamada, K. Toriumi, Y. Kasaba, N. Terada, H. Nakagawa, Water environment on the present and past Mars: GCM simulations. The 1st International Workshop for Aquaplanetology, Earth-Life Science Institute/Tokyo Institute of Technology, Tokyo, Japan, 5 March 2019.
  9. Kuroda, T., A. Kamada, K. Toriumi, Y. Kasaba, N. Terada, H. Nakagawa, GCM simulations of the Water Environment on Mars: Present and Past. The 20th Symposium on Planetary Sciences 2019, Tohoku University, Sendai, Japan, 21 February 2019.
  10. Kuroda, T., P. Khatri, T. Hayasaka. Y. Kasai and K. Zettsu, Urban air quality predictions with 1km horizontal resolutions using WRF-CMAQ model and Himawari data, 9th GEMS Science Team Meeting, Best Western Premier Seoul Garden Hotel, Seoul, South Korea, 2 October 2018.
  11. Kuroda, T., A. Kamada, K. Toriumi, Y. Kasaba, N. Terada, H. Nakagawa, Simulation of the coupled atmosphere and hydrosphere on early Mars using a GCM, European Planetary Science Congress 2018, EPSC2018-157, TU Berlin, Berlin, Germany, 17 September 2018.
  12. Kuroda, T., A. Kamada, K. Toriumi, Y. Kasaba, N. Terada, H. Nakagawa, A coupled atmosphere-hydrosphere global climate model of early Mars: Reproduction of a ‘cool and wet’ scenario for the formation of water channels, COSPAR 2018 42nd Assembly, C3.1-0013-18, Pasadena Convention Center, Pasadena, CA, USA, 21 July 2018.
  13. Kuroda, T., R. Larsson, H. Sagawa, S. Aoki, and Y. Kasai, O2 and related chemistry on Mars: Potential scientific targets for the future Mars terahertz sensor missions. AOGS 2018, PS03-D4-PM1-304A-021, Hawaii Convention Center, Honolulu, HI, USA, 7 June 2018.
  14. Kuroda, T., Simulation of the high-resolution water cycle and HDO/H2O isotopic fractionation on Mars using DRAMATIC MGCM. European Planetary Science Congress 2017, EPSC2017-156-1, Radisson Blu Hotel Latvija, Riga, Latvia, 19 September 2017.
  15. Kuroda, T., Simulation of the Martian atmosphere using a General Circulation Model: Dynamics, CO2 snowfall, water cycle and paleoclimate, Rocks & Stars II Conference, Max Planck Institute for Solar System Research, Göttingen, Germany, 14 September 2017.
  16. Kuroda, T., D. Goto, Y. Kasai and K. Zettsu, Simulation of the cross-border transports and horizontal high-resolution distributions of aerosols in Fukuoka, Japan: Towards the predictions for health care. 2017 Joint IASPO-IAMAS-IAGA Assembly, M01-557, Cape Town International Convention Centre, Cape Town, South Africa, 31 August 2017.
  17. Kuroda, T., D. Goto, Y. Kasai and K. Zettsu, Demonstration of the aerosol simulation around Fukuoka city with the horizontal resolution of ~5km using Stretch NICAM-Chem. EMeRGe Topical Workshop TEAM, Bremen University, Bremen, Germany, 16 February 2017.
  18. Kuroda, T., A.S. Medvedev, E. Yiğit and P. Hartogh, Simulation of Gravity Wave Fields and Their Effects on the Large-scale Flow in the Martian Atmosphere Using a High-resolution General Circulation Model. 6th international workshop on the Mars atmosphere: Modelling and observations (MAMO), University of Granada, Granada, Spain, 18 January 2017.
  19. Kuroda, T., A.S. Medvedev, E. Yiğit and P. Hartogh, Global distribution of gravity wave fields and their seasonal dependence in the Martian atmosphere simulated in a high-resolution general circulation model. DPS48/EPSC11 meeting, Pasadena Convention Center, Pasadena, CA, USA, 18 October 2016.
  20. Kuroda, T., D. Goto, Y. Kasai and K. Zettsu, Demonstration of the atmospheric simulation for Kyushu region with the horizontal resolution of ~5km using NICAM: Towards the air pollution prediction system. 7th GEMS Science Team Meeting, Yonsei, University, Seoul, South Korea, 11 October 2016.
  21. Kuroda, T., A.S. Medvedev, Y. Kasaba and P. Hartogh, Baroclinic Waves and CO2 Snowfalls in Martian Winter Polar Atmosphere Simulated by a General Circulation Model. 6th International Conference of Mars Polar Science and Exploration, University of Iceland, Reykjavik, Iceland, 5 September 2016.
  22. Kuroda, T., A.S. Medvedev, E. Yiğit and P. Hartogh, “Generation and propagation of gravity wave activities in Martian lower atmosphere simulated by a high-resolution GCM”. International GEMSIS and ASINACTR-G2602 Workshop: Future Perspectives of Researches in Space Physics, Nagoya Univwesity, Nagoya, Japan, 24 March 2016.
  23. Kuroda, T., A.S. Medvedev, J. Sethunadh and P. Hartogh, Radiation and Dynamics in Jupiter’s Stratosphere. AOGS 2015, PS02-D2-PM1-324-003, Suntec Singapore, Singapore, 4 August 2015.
  24. Kuroda, T., A.S. Medvedev, J. Sethunadh and P. Hartogh, Simulation of Jupiter’s stratosphere: new radiation code and impacts on the dynamics. 26th IUGG General Assembly 2015, IUGG-2232, Prague Congress Centre, Prague, Czech Republic, 24 June 2015.
  25. Kuroda, T., A.S. Medvedev, J. Sethunadh and P. Hartogh, Simulation study of Jupiter’s stratosphere: development of a new radiation code and impacts on the dynamics. Japan Geoscience Union Meeting 2015, PPS01-03, Makuhari Messe International Convention Complex, Chiba, Japan, 26 May 2015.
  26. Kuroda, T., A.S. Medvedev and P. Hartogh, Parameterization of the radiative forcing in the stratosphere of Jupiter. 40th COSPAR Scientific Assembly, B0.3-0028-14, Lomonosov Moscow State University, Moscow, Russia, 6 August 2014.
  27. Kuroda, T., A.S. Medvedev, Y. Kasaba and P. Hartogh, CO2 snowfalls, seasonal ice cap formations and baroclinic waves in the winter polar atmosphere of Mars. 40th COSPAR Scientific Assembly, B0.2-0007-14, Lomonosov Moscow State University, Moscow, Russia, 3 August 2014.
  28. Kuroda, T., A.S. Medvedev and P. Hartogh, Radiative Forcing by Molecules in the Stratosphere of Jupiter. AOGS 2014, PS15-D1-AM1-CD-002, Royton Sapporo Hotel, Sapporo, Japan, 28 July 2014.
  29. Kuroda, T., A.S. Medvedev and P. Hartogh, Simulated radiative forcing by molecules in Jupiter’s stratosphere. Japan Geoscience Union Meeting 2014, PPS01-10, Pacifico Yokohama, Yokohama, Japan, 30 April 2014.
  30. Kuroda, T., A.S. Medvedev, Y. Kasaba and P. Hartogh, CO2 Snowfalls Modulated by the Baroclinic Waves in the Northern Winter Polar Atmosphere of Mars. Fifth international workshop on the Mars atmosphere: modelling and observations, Martin Wood Conference Facility, Oxford, United Kingdom, 15 January 2014.
  31. Kuroda, T., A.S. Medvedev, Y. Kasaba and P. Hartogh, Simulated CO2 Snowfalls on Mars: Feasibility of Forecasts. 1st COSPAR Symposium, Centara Grand at Central Plaza Ladprao, Bangkok, Thailand, 14 November 2013.
  32. Kuroda, T., A.S. Medvedev, Y. Kasaba and P. Hartogh, CO2 Snowfalls and Baroclinic Waves in the Northern Winter Polar Atmosphere of Mars. European Planetary Science Congress 2013, EPSC2013-262, University College London, London, United Kingdom, 9 September 2013.
  33. Kuroda, T., A.S. Medvedev, Y. Kasaba and P. Hartogh, Interactions between CO2 Snowfalls and Baroclinic Waves in the Winter Polar Atmosphere of Mars. AOGS 2013, PS03-D5-PM2-P11-024, Brisbane Convention & Exhibition Centre, Brisbane, Australia, 28 June 2013.
  34. Kuroda, T., A.S. Medvedev and P. Hartogh, Radiative Heat Balances in Jupiter’s Stratosphere. AOGS 2013, PS05-D2-PM2-P6-005, Brisbane Convention & Exhibition Centre, Brisbane, Australia, 25 June 2013.
  35. Kuroda, T., H. Sagawa, T.M. Sato, Y. Kasai and JUICE-SWI Team, Dynamics and material transport of Jupiter’s stratosphere as scientific targets of JUICE-SWI. Japan Geoscience Union Meeting 2013, PPS01-07, Makuhari Messe International Convention Complex, Chiba, Japan, 21 May 2013.
  36. Kuroda, T., A.S. Medvedev, Y. Kasaba and P. Hartogh, CO2 snowfalls affected by the baroclinic waves in the winter polar atmosphere of Mars. Japan Geoscience Union Meeting 2013, PPS04-03, Makuhari Messe International Convention Complex, Chiba, Japan, 21 May 2013.
  37. Kuroda, T., H. Sagawa, H. Nakagawa, Y. Kasai, N. Terada and Y. Kasaba, Approach to the history of water environment on Mars from the detections of water isotopic ratios and numerical simulations using an atmospheric general circulation model. 3rd Conference on Terrestrial Mars Analogues, Hotel Meridien N’Fis, Marrakech, Morocco, 25 October 2012.
  38. Kuroda, T., Modeling of the atmospheric water and its isotopic fractionations on Mars. Rocks ‘n’ Stars, Veranstaltungszentrum am Wilhelmsplatz, Goettingen, Germany, 10 October 2012.
  39. Kuroda, T., Simulation of the Water Cycle on Mars: Impacts of Supersaturation. AOGS-AGU (WPGM) Joint Assembly 2012, PS02-D4-PM1-Aqu3-010, Resorts World Convention Centre, Singapore, 16 August 2012.
  40. Kuroda, T., H. Sagawa, Y. Kasai, P. Hartogh, J. Urban, H. Nakagawa and Y. Kasaba, Scientific Targets of the Mars Sub-millimetre Sounder FIRE. AOGS-AGU (WPGM) Joint Assembly 2012, PS12-D1-AM1-Leo1-003, Resorts World Convention Centre, Singapore, 13 August 2012.
  41. Kuroda, T., Modeling of the atmospheric water and its isotopic ratio on Mars. International Symposium on Atmospheres of Terrestrial Planets: Observation & Modeling, Physical Research Laboratory, Ahmedabad, India, 24 July 2012.
  42. Kuroda, T., H. Sagawa, Y. Kasai, N. Terada and Y. Kasaba, Investigations of the water isotopic ratios on Mars by modeling and observation: Approach to the climate changes. 39th COSPAR Scientific Assembly, B0.2-0007-12, Narayana Murthy Centre of Excellence, Mysore, India, 19 July 2012.
  43. Kuroda, T., H. Sagawa, Y. Kasai and Y. Kasaba, Water isotopic ratio in the Mars atmosphere: observational plan and simulation using a general circulation model. Japan Geoscience Union Meeting 2012, PPS03-03, Makuhari Messe International Convention Complex, Chiba, Japan, 24 May 2012.
  44. Kuroda, T., H. Sagawa, Y. Kasai, N. Terada and Y. Kasaba, Modeling and observation of the water isotopic ratios on Mars: Approach to the climate changes. Mars Recent Climate Change Workshop, NASA Ames Research Center, Moffett Field, CA, USA, 17 May 2012.
  45. Kuroda, T., CO2 Ice Clouds Distributions and Wind Fields in the Martian Mesosphere: Comparisons Between Simulations by a General Circulation Model and Observations. AOGS 2011, PS08-03-D2-PM2-201F-019, Taipei International Convention Center, Taipei, Taiwan, 9 August 2011.
  46. Kuroda, T., H. Sagawa, P. Hartogh and Y. Kasai, Dynamics and Chemistry of Middle Atmosphere on Mars: Scientific Targets of FIRE/MELOS. AOGS 2011, PS13-D1-AM2-201E-013, Taipei International Convention Center, Taipei, Taiwan, 8 August 2011.
  47. Kuroda, T. and Mars SMM Sounder Team, General circulation and dynamics of Martian middle atmosphere. Japan Geoscience Union Meeting 2011, PPS002-03, Makuhari Messe International Convention Complex, Chiba, Japan, 25 May 2011.
  48. Kuroda, T., Simulation of the CO2 Ice Clouds in the Martian Mesosphere Using a General Circulation Model. The International Symposium on Planetary Science 2011, Tohoku University Katahira Sakura Hall, Sendai, Japan, 9 March 2011.
  49. Kuroda, T., Simulation of the mesospheric CO2 ice clouds on Mars using a general circulation model. Fourth international workshop on the Mars atmosphere: modelling and observations, Institut Oceanographique de Paris, Paris, France, 11 February 2011.
  50. Kasai, Y., T. Kuroda, H. Sagawa, P. Hartogh, D. Murtagh and MELOS SMM Sounder Team, Development of the Submillimeter Instrument onboard Japanese Martian Orbiter. The First Moscow Solar System Symposium, 1MS3-5-7, Space Research Institute, Moscow, Russia, 14 October 2010.
  51. Kuroda, T., Simulation of the Equatorial CO2 Ice Clouds on Mars using a General Circulation Model. DPS 42nd annual meeting, 45.04, Pasadena Convention Center, Pasadena, CA. USA, 7 October 2010.
  52. Kuroda, T., P. Hartogh, Y. Kasai, H. Sagawa, M. Takahashi and MELOS SMM Sounder Team, GCM simulations of the dynamics and material transport on Martian atmosphere in preparation the MELOS SMM Sounder. 38th COSPAR Scientific Assembly, C34-0013-08, Bremen Exhibition & Conference Center, Bremen, Germany, 18 July 2010.
  53. Kuroda, T., P. Hartogh, Y. Kasai, H. Sagawa, Y. Aoyama, A.S. Medvedev and M. Takahashi, MELOS sub-millimeter sounder and DRAMATIC MGCM: Observation plan and modeling of Martian atmosphere. International Workshop on Advances in Planetary Atmospheres and Exploration, Physical Research Laboratory, Ahmedabad, India, 12 July 2010.
  54. Kuroda, T., P. Hartogh, H. Sagawa and Y. Kasai, Vertical Distributions and Transports of Water Vapor and H2O/CO2 Ice Particles in the Martian Atmosphere: Comparison between Recent Observations and a General Circulation Model. AOGS 2010, PS13-A008, Hyderabad International Convention Centre, Hyderabad, India, 5 July 2010.
  55. Kuroda, T., H. Sagawa, Y. Kasai, P. Hartogh, M. Takahashi and MELOS SMM Sounder Team, Impact of the MELOS sub-millimeter sounder on Martian atmospheric science: Preparative experiments using a Martian GCM. Japan Geoscience Union Meeting 2010, PPS001-04, Makuhari Messe International Convention Complex, Chiba, Japan, 23 May 2010.
  56. Kuroda, T., A.S. Medvedev, P. Hartogh and M. Takahashi, Effects of the Solstitial Dust Storms to the Winter Polar Warmings in the Martian Middle Atmosphere. EGU General Assembly 2010, EGU2010-6549, Austria Center Vienna, Vienna, Austria, 6 May 2010.
  57. Kuroda, T., A.S. Medvedev, P. Hartogh and M. Takahashi, Effects of Dust Storms to the Winter Polar Warmings in the Martian Middle Atmosphere. Mars Dust Cycle Workshop, NASA Ames Research Center, Moffett Field, CA, USA, 17 September 2009.
  58. Kuroda, T. and P. Hartogh, Wind velocities in different seasons and dust opacities on Mars: Comparison between microwave observations and simulations by general circulation models. AOGS 2009, PS16-A006, Suntec Singapore, Singapore, 14 August 2009.
  59. Kuroda, T., A.S. Medvedev, P. Hartogh and M. Takahashi, Mechanism of intensification of the meridional circulation during dust storms on Mars. AOGS 2009, PS08-A017, Suntec Singapore, Singapore, 13 August 2009.
  60. Kuroda, T., P. Hartogh, D. Sakai and M. Takahashi, Simulation of the water cycle on Mars in the CCSR/NIES/FRCGC MGCM. Third International Workshop on the Mars Atmosphere: Modeling and Observations, #9049, Williamsburg Woodlands Hotel and Conference Center, Williamsburg, VA, USA, 12 November 2008.
  61. Kuroda, T., A.S. Medvedev, P. Hartogh and M. Takahashi, Study of the semiannual oscillations in the Martian atmosphere with a general circulation model. AOGS 2008, PS12-A014, BEXCO Convention Center, Busan, Korea, 17 June 2008.
  62. Kuroda, T. and P. Hartogh, Simulation of the water cycle on Mars for the Herschel mission. AOGS 2008, PS09-A013, BEXCO Convention Center, Busan, Korea, 16 June 2008.
  63. Kuroda, T., D. Sakai, M. Takahashi, A.S. Medvedev and P. Hartogh, First results of the water cycle simulation in CCSR/NIES MGCM. Mars Water Cycle Workshop, Museum National d’Histoire Naturelle, Paris, France, 22 April 2008.
  64. Kuroda, T., A.S. Medvedev, P. Hartogh and M. Takahashi, Semi-annual oscillation in the atmosphere of Mars: a study with a general circulation model. European Planetary Science Congress 2007, EPSC2007-A-00204, Kongress Hotelam Templiner See, Potsdam, Germany, August 2007.
  65. Kuroda, T., P. Hartogh and C. Jarchow, The Martian Atmosphere as a Submm Flux Calibration Source Using an Opaque Molecular Line: Impacts of Temperature Errors Provided by General Circulation Models. AOGS 4th Annual Meeting, PS01-AS08-A0003, Queen Sirikit National Convention Center, Bangkok, Thailand, July 2007.
  66. Kuroda, T., A.S. Medvedev, P. Hartogh and M. Takahashi, Seasonal changes of the baroclinic wave activity in the northern hemisphere of Mars simulated with a General Circulation Model. IUGG XXIV General Assembly, 5341, Perugia, Italy, July 2007.
  67. A.S. Medvedev, T. Kuroda and P. Hartogh, Seasonal changes in baroclinic wave activity simulated with a general circulation model of the Martian atmosphere. European Planetary Science Congress 2006, EPSC2006-A-00317, Estrel Convention Center Berlin, Germany, September 2006.
  68. Kuroda, T. and P. Hartogh, Microwave observation of Martian temperature and wind fields: Comparison with the simulation by MAOAM. AOGS 3rd Annual Meeting, 59-AS-A0965, Suntec Singapore, Singapore, July 2006.
  69. Kuroda, T., A.S. Medvedev and P. Hartogh, Dust radiative scheme in MAOAM: Comparison with the SWAS observation during the 2001 global dust storm. Fourth MATSUP Workshop, Geowissenschaftliches Zentrum Göttingen, Germany, March 2006
  70. Kuroda, T., A.S. Medvedev and P. Hartogh, The Martian Atmosphere during the 2001 Global Dust Storm: Observation with SWAS and Simulations with a General Circulation Model. Second workshop on Mars atmosphere modelling and observations, 2-3-2, Palacio de Congresos y Exposiciones, Granada, Spain, February 2006.
  71. Kuroda, T. and M. Takahashi, Baroclinic Waves in the Martian Atmosphere: Study Using the CCSR/NIES Martian GCM. Second workshop on Mars atmosphere modelling and observations, 1-5-3, Palacio de Congresos y Exposiciones, Granada, Spain, February 2006.
  72. Kuroda, T., Studies of the Martian meteorology using General Circulation Models ~ Radiative effects of Martian dust. AOGS 2nd Annual Meeting, 58-PS-A0613, Suntec Singapore, Singapore, June 2005.
  73. Kuroda, T. and P. Hartogh, Temperature inversion during the 2001 global dust storm on Mars: Observation with SWAS and modeling with MAOAM. AOGS 2nd Annual Meeting, 58-PS-A1133, Suntec Singapore, Singapore, June 2005.
  74. Kuroda, T., A.S. Medvedev and P. Hartogh, Radiative effects of dust in the MAOAM-GCM. Third MATSUP Workshop, TU Darmstadt, Germany, March 2005.
  75. Kuroda, T., M. Takahashi, N. Hashimoto and D. Sakai, Simulation of the Martian Atmosphere Using a CCSR/NIES AGCM. Joint AOGS 1st Annual Meeting & 2nd APHW Conference 2004, 57-OSP-M282, Suntec Singapore, Singapore, July 2004.

(ポスター発表)

  1. Kuroda, T., A. Kamada, Y. Kasaba, N. Terada, H. Nakagawa and K. Toriumi, A Coupled Atmosphere-Hydrosphere Global Climate Model of Early Mars: Reproduction of the ‘Cool and Wet’ Scenario and the Formation of Water Channels. AGU Fall Meeting 2019, P11C-3468, Moscone Convention Center, San Francisco, CA, USA, December 2019.
  2. Kuroda, T., T.O. Sato and Y. Kasai, Mapping and Prediction of the “Clean Air Index” for each municipality in Japan using WRF-CMAQ, Satellite and Ground Sensor Data. IUGG General Assembly 2019, JM09p-116, Palais des Congrès de Montréal, Montreal, Canada, July 2019.
  3. Kuroda, T., P. Khatri, T. Hayasaka, D. Goto, Y. Kasai and K. Zettsu, Data assimilation of the cross-border transport of aerosols/PM2.5 using Himawari 8 data and NICAM-Chem model. 2018 joint 14th iCACGP Symposium and 15th IGAC Science Conference, Sunport Takamatsu Convention Center, Takamatsu, Japan, September 2018.
  4. Kuroda, T., R. Larsson, H. Sagawa, S. Aoki, Y. Kasai, H. Maezawa and Y. Kasaba, O2 distributions and related chemistry on Mars: Potential scientific targets for the future Mars terahertz sensor missions. European Planetary Science Congress 2018, EPSC2018-595, TU Berlin, Berlin, Germany, September 2018.
  5. Kuroda, T., P. Khatri, T. Hayasaka, D. Goto, Y. Kasai and K. Zettsu, Feasibility study of the predictions about the cross-border transport of aerosols/PM2.5 using the data assimilation with Himawari 8 data and NICAM-Chem model. COSPAR 2018 42nd Assembly, A1.1-0075-18, Pasadena Convention Center, Pasadena, CA, USA, July 2018.
  6. Kuroda, T. and M. Kadowaki, Simulation of the small-scale dust activities and their mutual interactions on the atmospheric dynamics using a high-resolution Mars general circulation model. Dust in the Atmosphere of Mars and Its Impact on Human Exploration workshop, Lunar and Planetary Institute, Houston, TX, USA, June 2017.
  7. Kuroda, T., Simulation of the Water Cycle Including HDO/H2O Isotopic Fractionation on the Present Mars Using DRAMATIC MGCM. 6th international workshop on the Mars atmosphere: Modelling and observations (MAMO), University of Granada, Granada, Spain, January 2017.
  8. Kasaba, Y., T. Kuroda, K. Ikeda, N. Terada, M. Takahashi, A.S. Medvedev, P. Hartogh and S. Aizawa, Effects of the atmospheric chemistry and dynamics on the distributions of Venusian sulfuric acid clouds in low- and mid-latitudes simulated by a general circulation model. 2016 AGU Fall Meeting, P53B-2194, Moscone Convention Center, San Francisco, CA, USA, December 2016.
  9. Kuroda, T., D. Goto, Y. Kasai and K. Zettsu, Simulation of the cloud and aerosol distributions with the horizontal with the horizontal resolution of ~5km using NICAM. 2nd workshop on Atmospheric Composition Observation System Simulation Experiments (OSSEs), University of Reading, Reading, UK, November 2016.
  10. Kuroda, T., A.S. Medvedev, E. Yiğit and P. Hartogh, Assessment of the generation and propagation of the gravity waves in the Martianatmosphere using a high-resolution general circulation model. JpGU 2016, PPS02-P03, Makuhari Messe, Chiba, Japan, May 2016.
  11. Kuroda, T., A.S. Medvedev, Y. Kasaba and P. Hartogh, Weather Forecasts on Mars: CO2 Snowfalls Related to the Baroclinic Waves in the Northern Winter Polar Atmosphere. The Eighth International Conference on Mars, #1176, California Institute of Technology, Pasadena, CA, USA, July 2014.
  12. Kuroda, T., A.S. Medvedev, Y. Kasaba and P. Hartogh, Simulated CO2 Snowfalls and Baroclinic Waves in the Northern Winter Polar Atmosphere on Mars: Feasibility of Forecasts. 2013 AGU Fall Meeting, P41C-1933, Moscone Convention Center, San Francisco, CA, USA, December 2013.
  13. Kuroda, T., F. Kato, A. Nitta, M. Kuroda, Y. Kasaba and M. Takahashi, Simulation of the formation, evaporation and transport of sulfuric acid clouds on Venus using a general circulation model. Fourth International Venus Workshop, Abstract Nr. 53, Museo Diocesano, Catania, Italy, June 2013.
  14. Kuroda, T., H. Sagawa, H. Nakagawa, Y. Kasai, N. Terada and Y. Kasaba, Modeling and observation of the atmospheric water cycle and isotopic fractionation on Mars. European Planetary Science Congress 2012, EPSC2012-287, IFEMA-Feria de Madrid, Madrid, Spain, September 2012.
  15. Kuroda, T., A.S. Medvedev and P. Hartogh, Radiative effects of molecules in Jupiter’s stratosphere: Development of a code for the implementation to a GCM. European Planetary Science Congress 2012, EPSC2012-290, IFEMA-Feria de Madrid, Madrid, Spain, September 2012.
  16. Kuroda, T., A.S. Medvedev and P. Hartogh, Radiative effects of molecules in Jupiter’s stratosphere for the implementation to a GCM. 39th COSPAR Scientific Assembly, C3.1-0022-12, Narayana Murthy Centre of Excellence, Mysore, India, July 2012.
  17. Kuroda, T., N. Terada, Y. Kasai and Y. Kasaba, Modeling of the atmospheric water cycle including the isotopic ratio on Mars. Comparable Climatology of Terrestrial Planets, Hotel Boulderado, Boulder, CO, USA, June 2012.
  18. Kuroda, T., A.S. Medvedev and Y. Kasaba, Influence of atmospheric dynamics on the CO2 ice cloud formation on Mars studied with a general circulation model. EPSC-DPS Joint Meeting 2011, EPSC-DPS2011-333, La Cité Internationale des Congrès Nantes Métropole, Nantes, France, October 2011.
  19. Kuroda, T., A.S. Medvedev and P. Hartogh, Development of a radiation code for a Jupiter’s stratosphere GCM. JUICE Science Workshop, Observatoire de Meudon, Meudon, France, August 2011.
  20. Kuroda, T., Simulation of the CO2 Ice Clouds and Wind Fields in the Mesosphere of Mars using a General Circulation Model. IUGG 2011 General Assembly, #3338, Melbourne Convention & Exhibition Centre, Melbourne, Australia, July 2011.
  21. Kuroda, T., Y. Kasai, H. Sagawa, P. Hartogh, T. Manabe, D. Murtagh and the MELOS-SMM Sounder Team, Submillimeter wave instrument on the Japanese Mars orbiter MELOS-1. EGU General Assembly 2010, EGU2010-6541, Austria Center Vienna, Vienna, Austria, May 2010.
  22. Kuroda, T., Y. Kasai, H. Sagawa, P. Hartogh, D.P. Murtagh, T. Manabe, J. Mendrok, T. Nishibori, S. Ochiai, Y. Aoyama and the MELOS/Mars SMM Sounder Team, Submillimeter Wave Sounder for the Japanese Mars Mission (MELOS). 2009 AGU Fall Meeting, P13B-1274, Moscone Convention Center, San Francisco, CA, USA, December 2009.
  23. Kuroda, T., A.S. Medvedev, P. Hartogh and M. Takahashi, Mechanism Of Intensification Of The Meridional Circulation During Dust Storms On Mars. DPS 41st annual meeting, 49.03, El Conquistador Resort, Fajardo, Puerto Rico, USA, October 2009.
  24. Kuroda, T., A.S. Medvedev, P. Hartogh and M. Takahashi, Equatorial semiannual oscillations in the atmospheres of Mars and Earth. 43rd ESLAB Symposium: International Conference on Comparative Planetology: Venus – Earth – Mars, ESTEC, Noordwijk, Nederland, May 2009.
  25. Kuroda, T., A.S. Medvedev, P. Hartogh and M. Takahashi, Semi-annual oscillations in the atmosphere of Mars. EGU General Assembly 2009, EGU2009-2629, Austria Center Vienna, Vienna, Austria, April 2009.
  26. Kuroda, T., P. Hartogh, D. Sakai and M. Takahashi, Simulation of the water cycle on Mars in the CCSR/NIES/FRCGC MGCM. 37th COSPAR Scientific Assembly, C34-0013-08, le Palais des congres, Montreal, Canada, July 2008.
  27. Kuroda, T., A.S. Medvedev, P. Hartogh and M. Takahashi, Simulation of transient waves in the Martian atmosphere using general circulation models. The 36th COSPAR Science Assembly, C3.1-0032-06, Beijing Institute of Technology, Beijing, China, July 2006.
  28. Kuroda, T., M. Takahashi and N. Hashimoto, Simulation of the Martian Atmosphere Using a CCSR/NIES AGCM. IAMAS 2001, Innsbruck, Austria, July 2001.

7. 国内学会一般発表(国際学会・国際セッションを除く、口頭発表のみ)

  1. 黒田剛史, 黒川宏之, 青木翔平, 中川広務, Simulation of Possible Water Emission from RSL on Mars using a High Resolution GCM. 第21回惑星圏研究会, 東北大学青葉サイエンスホール, 2020年2月19日.
  2. 黒田剛史, 火星大気大循環モデリングの精緻化:重力波と水輸送. 地球電磁気・地球惑星圏学会第146回総会及び講演会, R009-18, 熊本市国際交流会館, 2019年10月24日.
  3. 黒田剛史, A.S. Medvedev, E. Yiğit, 火星における大気重力波の発生と伝播:高分解能GCM実験. 日本流体力学会年会2019, 電気通信大学, 2019年9月15日.
  4. 黒田剛史, 鎌田有紘, 鳥海克成, 笠羽康正, 寺田直樹, 中川広務, 火星古気候を想定した全球3次元大気・水圏結合モデリング, 日本惑星科学会2018年秋季講演会, A1, 旭川市科学館サイパル, 2018年10月17日.
  5. 黒田剛史, 木星成層圏と火星古気候の放射計算, CPS/WTK 惑星大気放射計算ミニワークショップ, 神戸大学, 2018年3月9日.
  6. 黒田剛史, 笠羽康正, GCMを用いた火星の水循環とHDO/H2O同位体分別のシミュレーション:国際連携に向けて, 地球電磁気・地球惑星圏学会第142回総会及び講演会, R009-15, 京都大学宇治キャンパス, 2017年10月18日.
  7. 黒田剛史, 五藤大輔, 笠井康子, 是津耕司, Stretch NICAM-Chemを用いた福岡市を中心とする高分解能大気汚染シミュレーション, 第30回大気圏シンポジウム, 宇宙航空研究開発機構・宇宙科学研究所, 2016年12月6日.
  8. 黒田剛史, A.S. Medvedev, E. Yiğit, P. Hartogh, 高分解能火星 GCM による重力波の励起と伝播のシミュレーション:季節変化の解析, 第30回大気圏シンポジウム, 宇宙航空研究開発機構・宇宙科学研究所, 2016年12月5日.
  9. 黒田剛史, DRAMATIC MGCMを用いた現在の火星環境における水循環のシミュレーション, 地球電磁気・地球惑星圏学会第140回総会及び講演会, R009-01, 九州大学伊都キャンパス, 2016年11月21日.
  10. 伊藤一成, 黒田剛史, 笠羽康正, 寺田直樹, 池田恒平, 高橋正明, GCMを用いた金星低・中緯度の雲生成と分布の研究:化学と循環の影響. 日本地球惑星科学連合2016年度連合大会, PCG21-11, 幕張メッセ国際会議場, 2016年5月26日.
  11. 黒田剛史, A.S. Medvedev, E. Yiğit and P. Hartogh, 高分解能火星GCMによる重力波の励起と伝播のシミュレーション. 第29回大気圏シンポジウム, 宇宙航空研究開発機構・宇宙科学研究所, 2016年3月7日.
  12. 黒田剛史, A.S. Medvedev, E. Yiğit, P. Hartogh, Study of the gravity waves on Martian atmosphere using a high-resolution Mars General Circulation Model. 第17回惑星圏研究会, 東北大学青葉記念会館, 2016年2月24日.
  13. 黒田剛史, A.S. Medvedev, E. Yiğit, P. Hartogh, 高分解能火星GCMが示した火星大気重力波の励起と伝播. 地球型惑星圏環境に関する研究集会, 立教大学太刀川記念館, 2015年12月22日
  14. 黒田剛史, 木星成層圏大気力学の概要/GCMにより示唆される火星大気における重力波の重要性. 第287回生存圏シンポジウム「電波を用いた観測が切り拓く地球および惑星大気科学」, 奈良女子大学, 2015年6月1日.
  15. 黒田剛史, A.S. Medvedev, J. Sethunadh, P. Hartogh, A GCM for the stratosphere of Jupiter being developed in the Max Planck Institute. 日仏連携による惑星大気モデル研究, 神戸大学, 2015年5月14日.
  16. 黒田剛史, A.S. Medvedev, P. Hartogh, Development of the Japanese-German Mars GCMs: Toward the coupling between lower and upper atmosphere. 日仏連携による惑星大気モデル研究, 神戸大学, 2015年5月11日.
  17. 黒田剛史, 惑星大気GCMの物理過程. 地球流体データ解析・数値計算ワークショップ, 東北大学, 2015年3月10日.
  18. 黒田剛史, P. Hartogh, A.S. Medvedev, J. Sethunadh, 笠井康子, 関根康人, 佐川英夫, JUICE-SWIチーム, JUICEによる木星系探査: 木星成層圏大気研究とサブミリ波分光計の観測計画. 系外惑星大気WS2015/惑星大気研究会, 東京大学, 2015年3月4日.
  19. 黒田剛史, 火星GCMを用いた大気上下結合シミュレーション,および重力波の効果の研究. 地球型惑星圏環境に関する研究集会, 立教大学太刀川記念館, 2014年12月26日
  20. 黒田剛史, 火星極域の大気環境と二酸化炭素降雪:天気予報の可能性. 日本惑星科学会2014年秋季講演会, O1-02, 東北大学片平さくらホール, 2014年9月24日.
  21. 黒田剛史, 笠羽康正, Alexander S. Medvedev, Paul Hartogh, 火星におけるCO2 大気の凝結と傾圧不安定波の影響. 第27回大気圏シンポジウム, 宇宙航空研究開発機構・宇宙科学研究所, 2013年3月1日.
  22. 黒田剛史, A.S. Medvedev, P. Hartogh, Radiative Heat Balances in Jupiter’s Stratosphere: Development of a Radiation Code for the Implementation to a GCM. 第14回惑星圏研究会, 東北大学川内北キャンパスマルチメディア教育研究棟, 2013年2月22日.
  23. 黒田剛史, Simulation of the water cycle on Mars: Effects of the supersaturation. 第13回惑星圏研究会, 東北大学青葉記念会館, 2012年4月4日.
  24. 黒田剛史, 佐川英夫, 笠井康子, 笠羽康正, 火星大気のHDO/H2O循環:観測とシミュレーションによるアプローチ. 第26回大気圏シンポジウム, 宇宙航空研究開発機構・宇宙科学研究所, 2012年3月2日.
  25. 黒田剛史, 佐川英夫, 笠井康子, 笠羽康正, 火星大気におけるHDO/H2O比:測定の科学的意義と大気大循環モデルを用いた循環のシミュレーション. 地球電磁気・地球惑星圏学会第130回総会・講演会, B009-02, 神戸大学,  2011年11月4日.
  26. 黒田剛史, 佐川英夫, 笠井康子, 笠羽康正, 火星大気におけるHDO/H2O比測定の科学的意義およびHDO/H2O循環の3 次元シミュレーション. 日本惑星科学会2011年秋季講演会, S21-02, 相模女子大学, 2011年10月24日.
  27. 黒田剛史, 火星サブミリ波サウンダ検討チーム, MELOS 気象オービタが拓く,火星中層大気の大循環と力学. 第25回大気圏シンポジウム, 宇宙航空研究開発機構・宇宙科学研究所, 2011年2月22日.
  28. 黒田剛史, 大気大循環モデルを用いた火星赤道域上層に見られるドライアイス雲のシミュレーション. 地球電磁気・地球惑星圏学会第128回総会・講演会, B009-12, 沖縄県市町村自治会館, 2010年11月2日.
  29. 黒田剛史, A.S. Medvedev, P. Hartogh, 高橋正明, 大気大循環モデルと最新の観測データから見る火星大気の力学と物質循環. 第11回惑星圏研究会, 東北大学青葉記念会館, 2010年3月15日.
  30. 黒田剛史, P. Hartogh, 酒井大輔, 高橋正明, 笠井康子, 佐川英夫, 青山友貴奈, 火星大気における水循環:観測とシミュレーションの現状と将来計画. 第24回大気圏シンポジウム, 宇宙航空研究開発機構・宇宙科学研究本部, 2010年2月19日.
  31. 笠井康子, 黒田剛史, 佐川英夫, 青山友貴奈, 火星サブミリ波サウンダ検討チーム, サブミリ波サウンダによる火星中高層大気循環の観測. 日本気象学会2009秋季大会, アクロス福岡, 2009年11月27日.
  32. 黒田剛史, A.S. Medvedev, P. Hartogh, 高橋正明, 火星全球ダストストームによる極夜の昇温と南北循環強化のメカニズム. 日本気象学会2009秋季大会, アクロス福岡, 2009年11月27日.
  33. 黒田剛史, 笠井康子, 佐川英夫, P. Hartogh, D. Murtagh, 火星サブミリ波サウンダ検討チーム, MELOSサブミリ波サウンダによる火星大気水蒸気観測とその科学的意義. ミリ・サブミリ波帯の惑星大気観測に関するワークショップ, 国立天文台, 2009年11月20日.
  34. 黒田剛史, 高橋正明, 酒井大輔, P. Hartogh, 佐川英夫, 笠井康子, 火星サブミリ波サウンダ検討チーム, 火星大気の水循環(観測とシミュレーションの現状). 日本地球惑星科学連合2009年度連合大会, 幕張メッセ国際会議場, 2009年5月18日.
  35. 黒田剛史, 高橋正明, 酒井大輔, P. Hartogh, 火星大気水循環のシミュレーション. 日本気象学会2008年度秋季大会, D307, 仙台国際センター, 2008年11月21日.
  36. 黒田剛史, 高橋正明, A.S. Medvedev, P. Hartogh, 火星大気の半年振動とそのメカニズム. 日本気象学会2008年度秋季大会, D159, 仙台国際センター, 2008年11月19日.
  37. 黒田剛史, 高橋正明, A.S. Medvedev, P. Hartogh, 火星大気大循環モデルで示唆された赤道半年振動とそのメカニズム. 日本地球惑星科学連合2008年度連合大会, 幕張メッセ国際会議場, 2008年5月25日.
  38. 黒田剛史, 高橋正明, 橋本尚久, 酒井大輔, CCSR/NIES火星GCMの現状. 第18回大気圏シンポジウム, 宇宙航空研究開発機構・宇宙科学研究本部, 2004年2月.
  39. 黒田剛史, 高橋正明, 橋本尚久, 酒井大輔, CCSR/NIES火星GCMの現状. 第5回地球流体力学研究集会「地球流体における波動と対流現象の力学」, 九州大学 応用力学研究所, 2003年11月.
  40. 黒田剛史, 高橋正明, 火星大気におけるCO2近赤外太陽光吸収の効果. 日本気象学会2003年秋季大会, D114, 宮城県民会館・勾当台会館, 2003年10月.
  41. 黒田剛史, 高橋正明, 橋本尚久, CCSR/NIES AGCMを用いた火星大気シミュレーション. 第3回地球流体力学研究集会「惑星大気の力学」, 九州大学応用力学研究所, 2001年12月.
  42. 黒田剛史, 高橋正明, 橋本尚久, CCSR/NIES AGCMを用いた火星大気シミュレーション. 日本惑星科学会2001年秋季講演会, 203, 岡山理科大学, 2001年10月.
  43. 黒田剛史, 高橋正明, 橋本尚久, CCSR/NIES AGCMを用いた火星大気シミュレーション. 地球惑星科学関連2001年合同大会, Aa-016, 代々木国立オリンピック 記念青少年総合センター, 2001年6月.
  44. 黒田剛史, 高橋正明, 橋本尚久, CCSR/NIES AGCMを用いた火星大気シミュレーション. 日本気象学会2001年春季大会, A301, 東京大学本郷キャンパス, 2001年5月.
  45. 黒田剛史, 高橋正明, 橋本尚久, CCSR/NIES AGCMを用いた火星大気シミュレーション. 第15回大気圏シンポジウム, 宇宙科学研究所, 2001年3月.
  46. 黒田剛史, 高橋正明, 永島達也, 橋本尚久, CCSR/NIES AGCMを用いた火星大気シミュレーション. 地球惑星科学関連2000年合同大会, Pc-006, 代々木国立オリンピック記念青少年総合センター, 2000年6月.
  47. 黒田剛史, 永島達也, 高橋正明, CCSR/NIES AGCMを用いた火星大気シミュレーション. 第14回大気圏シンポジウム, 宇宙科学研究所, 2000年3月.
  48. 黒田剛史, 永島達也, 高橋正明, CCSR/NIES AGCMを用いた火星大気シミュレーション. 日本気象学会1999年秋季大会, A305, アクロス福岡, 1999年11月.
  49. 黒田剛史, 永島達也, 高橋正明, CCSR/NIES AGCMを用いた火星大気シミュレーション. 第13回大気圏シンポジウム, 宇宙科学研究所, 1999年3月.

8. レポート・自己紹介記事

  1. 黒田剛史, 3rd Conference on Terrestrial Mars Analoguesに参加して, 地球電磁気・地球惑星圏学会会報, 第214号, pp24-25, 2013.
  2. 遠藤智史, 黒田剛史, 古関俊也, 安成哲平, 山下陽介, 日本を飛び出して~若手研究者の海外研究生活報告~, 日本気象学会機関誌「天気」, Vol. 58, pp.275-281, 2011.
  3. 黒田剛史, 第1回モスクワ太陽系シンポジウム(The first Moscow Solar System Symposium), 国際学会出席旅費支援報告書, 宇宙科学振興会, 2010.
  4. 黒田剛史, New Face, 日本惑星科学会誌「遊星人」, Vol. 19, pp178-180, 2010.