[I] Selected Publications(latest → past)
(1) Kuramochi, M., H. Ueda, T. Inoue, M. Honda, and K. Takaya, 2023: Coherent amplification of the Okhotsk high, Korean trough, and northwestern Pacific subtropical high during heavy rainfall over Japan in August 2021. Prog. Earth Planet. Sci., 10, 69, doi:10.1186/s40645-023-00598-4.
*令和3年8月の大雨の要因を解明 [a]Open access pdf [b]TSUKUBA JOURNAL [c] Research News [d]EurekAlert! [e]日本語要旨
(2) Ueda, H., M. Kuramochi, and H. Mitsudera, 2023: Interannual variations of sea-ice extent in the Okhotsk Sea – A Pan-Okhotsk climate system perspective. Atmos.-Ocean, 61, 234−245.
*オホーツク海海氷の年々変動の要因を解明 [a]Journal link [b]TSUKUBA JOURNAL
(3) Ueda, H., M. Kuramochi, K. Takaya, Y. Takaya, S. Asano, and S. Maeda, 2022: Genesis of upper-tropospheric anticyclones over the Asian-western Pacific sector from tropical-extratropical interaction perspective. J. Climate, 35, 997−1008.
*チベット(南アジア)高気圧・UTACの形成メカニズム(熱源応答、惑星波の寄与) (4) Ueda, H., M. Yokoi, and M. Kuramochi, 2021: Enhanced subtropical anticyclone over the Indo–Pacific Ocean associated with stagnation of the Meiyu–Baiu rainband during summer, 2020. SOLA, 17B, 14−18.
*令和2年7月豪雨の要因を解明
[a]
Open access pdf (5) Ueda, H., K. Miwa, and Y. Kamae, 2018: Seasonal modulation of tropical cyclone occurrence associated with coherent Indo-Pacific variability during decaying phase of El Niño. J. Meteor. Soc. Japan, 96, 381−390.
*台風の発生頻度とENSO・インド洋の海水温との関係 [a]Open access pdf [b]TSUKUBA JOURNAL
(6) 植田宏昭,釜江陽一,2018:2015,2016年における台風発生数の季節的な変調.天気,65,749−753.
*ポテチショックに関する「天気」調査報告 (7) Ueda, H., Y. Amagai, and M. Hayasaki, 2017: South-coast cyclone in Japan during El Niño-caused warm winters. Asia-Pac. J. Atmos. Sci., 53, 287−293.
*南岸低気圧とENSOの関係
[a]Journal link [b]TSUKUBA JOURNAL
(8) Ueda, H., Y. Kamae, M. Hayasaki, A. Kitoh, S. Watanabe, Y. Miki, and A. Kumai, 2015: Combined effects of recent Pacific cooling and Indian Ocean warming on the Asian monsoon. Nat. Commun., 6, 8854, doi:10.1038/ncomms9854.
*気候ハイエイタスとアジア域の降水変動
[a]
Open access pdf
(9) Ueda, H., A. Kibe, M. Saitoh, and T. Inoue, 2015: Snowfall variations in Japan and its linkage with tropical forcing. Int. J. Climatol., 35, 991–998.
*ラ・ニーニャ現象と多雪
[a] Open access pdf [b]プレスリリース
(10) Ueda, H., H. Kuroki, M. Ohba, and Y. Kamae, 2011: Seasonally asymmetric transition of the Asian monsoon in response to ice age boundary conditions. Climate Dyn., 37, 2167–2179.
*最終氷期最盛期のアジアモンスーン
(11) Ueda, H., M. Ohba, and S.-P. Xie, 2009: Important factors for the development of the Asian-northwest Pacific summer monsoon. J. Climate, 22, 649–669.
*モンスーンの季節進行における海洋・陸面フィードバックの定量化(IPRC在外研究)
(12) Ueda, H., A. Iwai, K. Kuwako, and M. E. Hori, 2006: Impact of anthropogenic forcing on the Asian summer monsoon as simulated by eight GCMs. Geophys. Res. Lett., 33, L06703, doi:10.1029/2005GL025336.
*温暖化時の降水と風のパラドックスと南北温度コントラスト
(13) Ueda, H., H. Kamahori, and N. Yamazaki, 2003: Seasonal contrasting features of heat and moisture budgets between the eastern and western Tibetan Plateau during the GAME IOP. J. Climate, 16, 2309–2324.
*GAME集中観測のゾンデデータを使った4次元同化に基づくQ1, Q2解析
(14) Ueda, H., and J. Matsumoto, 2000: A possible triggering process of east-west asymmetric anomalies over the Indian Ocean in relation to 1997/98 El Niño. J. Meteor. Soc. Japan, 78, 803–818.
*インド洋ダイポールモードのlife cycleをENSOと赤道モンスーンの結合から読み解く
(15) Ueda, H., and T. Yasunari 1996: Maturing process of the summer monsoon over the western North Pacific: A coupled ocean/atmosphere system. J. Meteor. Soc. Japan, 74, 493–508.
*モンスーンの段階的な季節進行と日本の四季の移ろい
山本・正野論文賞対象論文 「天気」の解説はこちら→ Open access pdf
(16) Ueda, H., T. Yasunari, and R. Kawamura, 1995: Abrupt seasonal change of large-scale convective activity over the western Pacific in the northern summer. J. Meteor. Soc. Japan, 73, 795–809.
*Convection jump発見論文(修士時代の研究)
[II] Refereed full publication list(latest→past)*in English
Takemura, K., H. Sato, H. Nakamigawa, S. Tanaka, S. Maeda, Y. N. Takayabu, H. Ueda, R. Kawamura, M. Kimoto, Y. Tanimoto, H. Naoe, M. Nonaka, T. Hirooka, H. Mukougawa, M. Watanabe, Y. Imada, H. Kawase, and H. Nakamura, 2025: Large-scale factors for the persistent extreme heatwave over Japan in 2024 summer and late-July heavy rainfall in northern Japan. SOLA, 21, 329–339.
Nakanishi, R., M. Kuramochi, and H. Ueda, 2025: Summertime convection jump over the subtropical western North Pacific and its relation to Rossby wave breaking near the Asian jet exit region. J. Meteor. Soc. Japan, 103, 5–15.
[a] Open access pdf [b]TSUKUBA JOURNAL
Matsushita, T., M. Harada, H. Ueda, T. Nakagawa, Y. Kubota, Y. Suzuki, and Y. Kamae, 2024: Contrasting responses of summer precipitation to orbital forcing in Japan and China over the past 450 kyr. Climate Past, 20, 2017–2029.
Takemura, K., H. Sato, A. Ito, T. Umeda, S. Maeda, M. Hirai, Y. Tamaki, H. Murai, H. Nakamigawa, Y. N. Takayabu, H. Ueda, R. Kawamura, Y. Tanimoto, H. Naoe, M. Nonaka, T. Hirooka, H. Mukougawa, M. Watanabe, and H. Nakamura, 2024: Preliminary diagnosis of primary factors for an unprecedented heatwave over Japan in 2023 summer. SOLA, 20, 69–78.
Asazuma, Y., M. Kuramochi, and H. Ueda, 2024: Intra-seasonal and interannual variations of sea ice along the Okhotsk coast of Hokkaido from the viewpoint of atmospheric circulation. Okhotsk Sea and Polar Oceans Research, 8, 8–16.
Kuramochi, M., H. Ueda, T. Inoue, M. Honda, and K. Takaya, 2023: Coherent amplification of the Okhotsk high, Korean trough, and northwestern Pacific subtropical high during heavy rainfall over Japan in August 2021. Prog. Earth Planet. Sci., 10, 69, doi:10.1186/s40645-023-00598-4.
Selected Publication(1)参照
Kuramochi, M., H. Ueda, T. Iwasaki, and K. Takaya, 2023: Interannual variability of the mass-weighted isentropic zonal mean meridional circulation in the Northen Hemisphere winter. J. Climate, 36, 5605–5618.
*MIM系ETD循環の年々変動について Ueda, H., M. Kuramochi, and H. Mitsudera, 2023: Interannual variations of sea-ice extent in the Okhotsk Sea – A Pan-Okhotsk climate system perspective. Atmos.-Ocean, 61, 234−245.
Selected Publication(2)参照
Kuramochi, M., and H. Ueda, 2023: Two types of wintertime teleconnection patterns over the western North Pacific associated with regionally different heating anomalies. J. Meteor. Soc. Japan, 101, 21−37.
[a]Open access pdf [b]TSUKUBA JOURNAL
Kuramochi, M., M. Kajino, and H. Ueda, 2023: Interannual variability of dust deposition in Japan during spring season and related atmospheric circulation fields. J. Meteor. Soc. Japan, 101, 255−270. Kamae, Y., H. Ueda, T. Inoue, and H. Mitsudera, 2023: Atmospheric circulations associated with sea-ice reduction events in the Okhotsk Sea. J. Meteor. Soc. Japan, 101, 125−137.
*オホーツク海における海氷の急激な減少と大気循環との関係 Ueda, H., M. Kuramochi, K. Takaya, Y. Takaya, S. Asano, and S. Maeda, 2022: Genesis of upper-tropospheric anticyclones over the Asian-western Pacific sector from tropical-extratropical interaction perspective. J. Climate, 35, 997−1008.
Selected Publication(3)参照
Ueda, H., M. Yokoi, and M. Kuramochi, 2021: Enhanced subtropical anticyclone over the Indo–Pacific Ocean associated with stagnation of the Meiyu–Baiu rainband during summer, 2020. SOLA, 17B, 14−18.
*令和2年7月豪雨の要因を解明
Selected Publication(4)参照
Kuramochi, M., H. Ueda, C. Kobayashi, Y. Kamae, and K. Takaya, 2021: Anomalous warm winter 2019/2020 over East Asia associated with trans-basin Indo-Pacific connections. SOLA, 17B, 9−13.
*2019/2020年の記録的暖冬の要因を解明
[a]
Open access pdf [b]TSUKUBA JOURNAL
Naoi, M., Y. Kamae, H. Ueda, and W. Mei, 2020: Impacts of seasonal transitions of ENSO on atmospheric river activity over East Asia. J. Meteor. Soc. Japan, 98, 655−668.
*ENSOの季節性と大気の川との関係 Ueda, H., K. Miwa, and Y. Kamae, 2018: Seasonal modulation of tropical cyclone occurrence associated with coherent Indo-Pacific variability during decaying phase of El Niño. J. Meteor. Soc. Japan, 96, 381−390.
Selected Publication(5)参照
Endo, H., A. Kitoh, and H. Ueda, 2018: A unique feature of the Asian summer monsoon response to global warming: The role of different land–sea thermal contrast change between the lower and upper troposphere. SOLA, 14, 57−63.
*対流圏の上層と下層の大陸と海陸温度勾配に着目した温暖化に伴う夏のアジアモンスーンの応答 Kamae, Y., T. Kawana, M. Oshiro, and H. Ueda, 2017: Seasonal modulation of the Asian summer monsoon between the Medieval Warm Period and Little Ice Age: a multi model study. Prog. Earth Planet. Sci., 4, 22, doi:10.1186/s40645-017-0136-7.
*過去1000年の夏季アジアモンスーン変動(中世温暖期、小氷期)
[a]Open access pdf
[b]日本語要旨
Kamae, Y., W. Mei, S.-P. Xie, M. Naoi, and H. Ueda, 2017: Atmospheric rivers over the northwestern Pacific: Climatology and interannual variability. J. Climate, 30, 5605−5619.
*Atmospheric riverに関する研究 Ueda, H., Y. Amagai, and M. Hayasaki, 2017: South-coast cyclone in Japan during El Niño-caused warm winters. Asia-Pac. J. Atmos. Sci., 53, 287−293.
Selected Publication(7)参照
Kamae, Y., X. Li, S.-P. Xie, and H. Ueda, 2017: Atlantic effects on recent decadal trends in global monsoon. Climate Dyn., 49, 3443−3455.
*グローバルモンスーンの10年規模変動における大西洋の影響 Kamae, Y., H. Shiogama, Y. Imada, M. Mori, O. Arakawa, R. Mizuta, K. Yoshida, C. Takahashi, M. Arai, M. Ishii, M. Watanabe, M. Kimoto, S.-P. Xie, and H. Ueda, 2016: Forced response and internal variability of summer climate over western North America. Climate Dyn., 49, 403−417.
*アメリカ西部の干ばつについて Kamae, Y., K. Yoshida, and H. Ueda, 2016: Sensitivity of Pliocene climate simulations in MRI-CGCM2.3 to respective boundary conditions. Climate Past, 12, 1619−1634.
*鮮新世(3Ma)の気候再現〜境界条件の違いに着目して〜 Kamae, Y., T. Ogura, M. Watanabe, S.-P. Xie, and H. Ueda, 2016: Robust cloud feedback over tropical land in a warming climate. J. Geophys. Res.: Atmos., 121, 2593−2609.
*温暖化時の熱帯陸面上における雲フィードバック Ueda, H., Y. Kamae, M. Hayasaki, A. Kitoh, S. Watanabe, Y. Miki, and A. Kumai, 2015: Combined effects of recent Pacific cooling and Indian Ocean warming on the Asian monsoon. Nat. Commun., 6, 8854, doi:10.1038/ncomms9854.
Selected Publication(8)参照
Ueda, H., A. Kibe, M. Saitoh, and T. Inoue, 2015: Snowfall variations in Japan and its linkage with tropical forcing. Int. J. Climatol., 35, 991–998.
Selected Publication(9)参照
Kamae, Y., H. Shiogama, M. Watanabe, M. Ishii, H. Ueda, and M. Kimoto, 2015: Recent slowdown of tropical upper tropospheric warming associated with Pacific climate variability. Geophys. Res. Lett., 42, 2995−3003.
*近年の熱帯上層気温の上昇鈍化について
Dolan, A. M., S. J. Hunter, D. J. Hill, A. M. Haywood, S. J. Koenig, B. L. Otto-Bliesner, A. Abe-Ouchi, F. Bragg, W.-L. Chan, M. A. Chandler, C. Contoux, A. Jost, Y. Kamae, G. Lohmann, D. J. Lunt, G. Ramstein, N. A. Rosenbloom, L. Sohl, C. Stepanek, H. Ueda, Q. Yan, and Z. Zhang, 2015: Using results from the PlioMIP ensemble to investigate the Greenland Ice Sheet during the mid-Pliocene Warm Period. Climate Past, 11, 403–424.
*PlioMIP(3Ma鮮新世)の気候再現データに基づくグリーンランド氷床の研究
Ogata, T., H. Ueda, T. Inoue, M. Hayasaki, A. Yoshida, S. Watanabe, M. Kira, M. Ooshiro, and A. Kumai, 2014: Projected future changes in the Asian monsoon: A comparison between CMIP3 and CMIP5 model results. J. Meteor. Soc. Japan, 92, 207–225.
*夏期アジアモンスーンの将来予測〜CMIP3とCMIP5の比較〜
Hill, D. J., A. M. Haywood, D. J. Lunt, S. J. Hunter, F. J. Bragg, C. Contoux, C. Stepanek, L. Sohl, N. A. Rosenbloom, W.-L. Chan, Y. Kamae, Z. Zhang, A. Abe-Ouchi, M. A. Chandler, A. Jost, G. Lohmann, B. L. Otto-Bliesner, G. Ramstein, and H. Ueda, 2014: Evaluating the dominant components of warming in Pliocene climate simulations. Climate Past, 10, 79–90.
*PlioMIP(3Ma鮮新世)の温暖化を引き起こした要因について
Salzmann, U., A. M. Dolan, A. M. Haywood, W.-L. Chan, J. Voss, D. J. Hill, A. Abe-Ouchi, B. Otto-Bliesner, F. J. Bragg, M. A. Chandler, C. Contoux, H. J. Dowsett, A. Jost, Y. Kamae, G. Lohmann, D. J. Lunt, S. J. Pickering, M. J. Pound, G. Ramstein, N. A. Rosenbloom, L. Sohl, C. Stepanek, H. Ueda, and Z. Zhang, 2013: Challenges in quantifying Pliocene terrestrial warming revealed by data-model discord. Nat. Climate Change, 3, 969–974.
*PlioMIP(3Ma鮮新世)の陸面昇温量の定量化-観測とモデルの整合性から
Zhang, R., Q. Yan, Z. S. Zhang, D. Jiang, B. L. Otto-Bliesner, A. M. Haywood, D. J. Hill, A. M. Dolan, C. Stepanek, G. Lohmann, C. Contoux, F. Bragg, W.-L. Chan, M. A. Chandler, A. Jost, Y. Kamae, A. Abe-Ouchi, G. Ramstein, N. A. Rosenbloom, L. Sohl, and H. Ueda, 2013: Mid-Pliocene East Asian monsoon climate simulated in the PlioMIP. Climate Past, 9, 2085–2099.
*PlioMIP(3Ma鮮新世)の東アジアモンスーン
Zhang, Z.-S., K. H. Nisancioglu, M. A. Chandler, A. M. Haywood, B. L. Otto-Bliesner, G. Ramstein, C. Stepanek, A. Abe-Ouchi, W.-L. Chan, F. J. Bragg, C. Contoux, A. M. Dolan, D. J. Hill, A. Jost, Y. Kamae, G. Lohmann, D. J. Lunt, N. A. Rosenbloom, L. E. Sohl, and H. Ueda, 2013: Mid-pliocene Atlantic Meridional Overturning Circulation not unlike modern. Climate Past, 9, 1495–1504.
*現在と異なる鮮新世中期の大西洋の子午面循環について
Dowsett, H. J., K. M. Foley, D. K. Stoll, M. A. Chandler, L. E. Sohl, M. Bentsen, B. L. Otto-Bliesner, F. J. Bragg, W.-L. Chan, C. Contoux, A. M. Dolan, A. M. Haywood, J. A. Jonas, A. Jost, Y. Kamae, G. Lohmann, D. J. Lunt, K. H. Nisancioglu, A. Abe-Ouchi, G. Ramstein, C. R. Riesselman, M. M. Robinson, N. A. Rosenbloom, U. Salzmann, C. Stepanek, S. L. Strother, H. Ueda, Q. Yan, and Z. Zhang, 2013: Sea surface temperature of the mid-Piacenzian ocean: A data-model comparison. Sci. Rep., 3, 2013, doi:10.1038/srep02013.
*鮮新世(ピアセンジアン)の海面水温について
Haywood, A. M., D. J. Hill, A. M. Dolan, B. L. Otto-Bliesner, F. Bragg, W.-L. Chan, M. A. Chandler, C. Contoux, H. J. Dowsett, A. Jost, Y. Kamae. G. Lohmann, D. J. Lunt, A. Abe-Ouchi, S. J. Pickering, G. Ramstein, N. A. Rosenbloom, U. Salzmann, L. Sohl, C. Stepanek, H. Ueda, Q. Yan, and Z. Zhang, 2013: Large-scale features of Pliocene climate: results from the Pliocene Model Intercomparison Project. Climate Past, 9, 191–209.
*鮮新世の気候モデル再現プロジェクト(PlioMIP)について
Inoue, T., and H. Ueda, 2012: Delay of the Baiu withdrawal in Japan under global warming condition with relevance to warming patterns of SST. J. Meteor. Soc. Japan, 90, 855–868.
*温暖化時の海面水温の空間パターンと梅雨明けの遅延の関係
Adachi, S. A., F. Kimura, H. Kusaka, T. Inoue, and H. Ueda, 2012: Comparison of the impact of global climate changes and urbanization on summertime future climate in the Tokyo metropolitan area. J. Appl. Meteor. Climatol., 51, 1441–1454.
*東京の夏期気温の将来変化〜都市化と地球温暖化影響の比較〜
Kamae, Y., and H. Ueda, 2012: Mid-Pliocene global climate simulation with MRI-CGCM2.3: set-up and initial results of PlioMIP Experiments 1 and 2. Geosci. Model Dev., 5, 793–808.
*気象研究所の大気海洋結合モデルを用いた鮮新世中期の気候再現
Ueda, H., H. Kuroki, M. Ohba, and Y. Kamae, 2011: Seasonally asymmetric transition of the Asian monsoon in response to ice age boundary conditions. Climate Dyn., 37, 2167–2179.
Selected Publication(10)参照
Kamae, Y., and H. Ueda, 2011: Evaluation of simulated climate in lower latitude regions during the mid-Pliocene warm period using paleovegetation data. SOLA, 7, 177–180.
*鮮新世中期の低緯度における気候再現と植生プロキシとの比較
Kamae, Y., H. Ueda, and A. Kitoh, 2011: Hadley and Walker circulations in mid-Pliocene warm period simulated by an atmospheric general circulation model. J. Meteor. Soc. Japan, 89, 475–493.
*鮮新世中期のハドレー・ウォーカー循環
Okumura, Y. M., M. Ohba, C. Deser, and H. Ueda, 2011: A Proposed mechanism for the asymmetric duration of El Niño and La Niña, J. Climate, 24, 3822–3829.
*エル・ニーニョとラ・ニーニャの非対称な遷移過程について
Inoue, T., and H. Ueda, 2011: Delay of the first transition of Asian summer monsoon under global warming condition. SOLA, 7, 81–84.
*温暖化時の夏季アジアモンスーン開始の遅れ
Open access pdfKomatsu, Y., M. Shinoda, and H. Ueda, 2011: Snowmelt and atmospheric heating processes over eastern Mongolia. SOLA, 7, 1–4.
*モンゴル東部の融雪における陸面加熱過程について
Ohba, M., and H. Ueda, 2010: A GCM study on effects of continental drift on tropical climate at the Early and Late Cretaceous. J. Meteor. Soc. Japan, 88, 869–881.
*白亜紀の大陸移動による気候への影響について
Ohba, M., D. Nohara, and H. Ueda, 2010: Simulation of asymmetric ENSO transition in WCRP CMIP3 multimodel experiments. J. Climate, 23, 6051–6067.
*気候モデルで再現されたENSOの非対称な遷移過程
Kawase, H., T. Yoshikane, M. Hara, F. Kimura, T. Yasunari, B. Ailikun, H. Ueda, and T. Inoue, 2009: Intermodel variability of future changes in the Baiu rainband estimated by the pseudo global warming downscaling method, J. Geophys. Res., 114, D24110, doi:10.1029/2009JD011803.
*温暖化時の梅雨前線の変化について
Kamae, Y., and H. Ueda, 2009: Suppressant effect of instantaneous CO2 doubling on global precipitation. Tsukuba Geoenvironmental Sciences, 5, 11–16.
*瞬間二酸化炭素倍増実験における降水抑制効果について
Futami, M., M. Ohba, and H. Ueda, 2009: Role of soil moisture in the seasonal progress of the Asian summer monsoon. Tsukuba Geoenvironmental Sciences, 5, 3–9.
*夏期アジアモンスーンの季節進行における土壌水分の役割
Ohba, M., and H. Ueda, 2009: Seasonally different response of the Indian Ocean to the remote forcing of El Niño: linking the dynamics and thermodynamics. SOLA, 5, 176–179.
*ENSOのインド洋への影響〜季節的に異なる応答〜
Kodama, Y.-M., M. Katsumata, S. Mori, S. Sato, Y. Hirose, and H. Ueda, 2009: Climatology of warm rain and associated latent heating derived from TRMM PR observations. J. Climate, 22, 4908–4929.
*TRMM降雨レーダーに基づく潜熱加熱の算定
Inoue, T., and H. Ueda, 2009: Evaluation for the seasonal evolution of the summer monsoon over the Asian and western North Pacific sector in the WCRP CMIP3 multi-model experiments. J. Meteor. Soc. Japan, 87, 539–560.
*CMIP3に基づくアジアモンスーンの再現性の評価
Ueda, H., M. Ohba, and S.-P. Xie, 2009: Important factors for the development of the Asian-northwest Pacific summer monsoon. J. Climate, 22, 649–669.
Journal linkSelected Publication(11)参照
Ohba, M., and H. Ueda, 2009: Role of nonlinear atmospheric response to SST on the asymmetric transition process of ENSO. J. Climate, 22, 177–192.
*ENSOの非対称な遷移過程における大気のSSTに対する非線形応答の役割
Ohba, M., and H. Ueda, 2007: An impact of SST anomalies in the Indian Ocean in acceleration of the El Niño to La Niña transition. J. Meteor. Soc. Japan, 85, 335–348.
*インド洋の全域昇温がエル・ニーニョの遷移を加速させる
Ohba, M., and H. Ueda, 2006: A role of zonal gradient of SST between the Indian Ocean and the western Pacific in localized convection around the Philippines. SOLA, 2, 176–179.
*フィリピン東方海上における対流強化とインド洋ー西太平洋間の水温勾配との関係
Ueda, H., and M. E. Hori, 2006: Two causes of the 2004 hot summer in East Asia. Geogr. Rev. Japan, 79, 715–724.
*2004年の日本の猛暑における二つの原因(PJパターンとシルクロードパターンの寄与)
Ishizaki, N., and H. Ueda, 2006: Seasonal heating processes over the Indochina Peninsula and the Bay of Bengal prior to the monsoon onset in 1998. J. Meteor. Soc. Japan, 84, 375–387.
*インドシナ半島におけるプレモンスーン期の非断熱加熱の算定
Inoue, T., H. Ueda, and T. Inoue, 2006: Cloud properties over the Bay of Bengal derived from NOAA-9 split window data and the TRMM PR product. SOLA, 2, 41–44.
*Split-window法を用いたベンガル湾での雲特性
Ueda, H., A. Iwai, K. Kuwako, and M. E. Hori, 2006: Impact of anthropogenic forcing on the Asian summer monsoon as simulated by eight GCMs. Geophys. Res. Lett., 33, L06703, doi:10.1029/2005GL025336.
Selected Publication(12)参照
Hori, M. E., and H. Ueda, 2006: Impact of global warming on the East Asian winter monsoon as revealed by nine coupled atmosphere-ocean GCMs. Geophys. Res. Lett., 33, L03713, doi:10.1029/2005GL024961.
*温暖化時の冬期モンスーンの変化について
Ueda, H., 2005: Air-sea coupled process involved in stepwise seasonal evolution of the Asian summer monsoon. Geogr. Rev. Japan, 78, 825–841.
*夏期アジアモンスーンの季節進行における大気海洋陸面相互作用
Ohba, M., and H. Ueda, 2005: Basin-wide warming in the equatorial Indian Ocean associated with El Niño. SOLA, 1, 89–92.
*エル・ニーニョに関係したインド洋の全域昇温
Kodama, Y.-M., A. Ohta, M. Katsumata, S. mori, S. Satoh, and H. Ueda, 2005: Seasonal transition of predominant precipitation type and lightning activity over tropical monsoon areas derived from TRMM observations. Geophys. Res. Lett., 32, L14710, doi:10.1029/2005GL022986.
*TRMMに基づく熱帯モンスーン地域における雷活動
Ueda, H., and R. Kawamura, 2004: Summertime anomalous warming over the midlatitude western North Pacific and its relationships to the modulation of the Asian monsoon. Int. J. Climatol., 24, 1109–1120.
*中緯度西太平洋における顕著な昇温とアジアモンスーンの関係
Ueda, H., M. E. Hori, and D. Nohara, 2003: Observational study of the thermal belt over the slope of Mt. Tsukuba. J. Meteor. Soc. Japan, 81, 1283–1288.
*筑波山斜面温暖帯の観測結果
Ueda, H., H. Kamahori, and N. Yamazaki, 2003: Seasonal contrasting features of heat and moisture budgets between the eastern and western Tibetan Plateau during the GAME IOP. J. Climate, 16, 2309–2324.
Selected Publication(13)参照
Ueda, H., M. Shinoda, and H. Kamahori, 2003: Spring northward retreat of Eurasian snow cover relevant to seasonal and interannual variations of atmospheric circulation. Int. J. Climatol., 23, 615–629.
*ユーラシア大陸の積雪の季節的な後退と大気循環の関係
Inaba, H., R. Kawamura, T. Kayahara, and H. Ueda, 2002: Extraordinary persistence of foehn observed in the Hokuriku district of Japan in the 1999 summer. J. Meteor. Soc. Japan, 80, 579–594.
*北陸地方の1999年夏のフェーン現象
Kawamura, R., Y. Fukuta, H. Ueda, T. Matsuura, and S. Iizuka, 2002: A mechanism of the onset of the Australian summer monsoon. J. Geophys. Res., 107, 4204, doi:10.1029/2001JD001070.
*オーストラリアモンスーンのオンセットのメカニズム
Ueda, H., 2001: Equatorial monsoon system as regulation for a dipole mode in the Indian Ocean. Pap. Meteor. Geophys., 51, 147–154.
*赤道モンスーンとインド洋ダイポールモードとの関係
Ueda, H., and J. Matsumoto, 2000: A possible triggering process of east-west asymmetric anomalies over the Indian Ocean in relation to 1997/98 El Niño. J. Meteor. Soc. Japan, 78, 803–818.
Selected Publication(14)参照
Ueda, H., and T. Yasunari 1998: Role of warming over the Tibetan Plateau in early onset of the summer monsoon over the Bay of Bengal and the South China Sea. J. Meteor. Soc. Japan, 76, 1–12.
*アジアモンスーンの開始と対流圏中上層の温度勾配の季節的な反転
Ueda, H., and T. Yasunari 1996: Maturing process of the summer monsoon over the western North Pacific: A coupled ocean/atmosphere system. J. Meteor. Soc. Japan, 74, 493–508.
Selected Publication(15)参照
Ueda, H., T. Yasunari, and R. Kawamura, 1995: Abrupt seasonal change of large-scale convective activity over the western Pacific in the northern summer. J. Meteor. Soc. Japan, 73, 795–809.
Selected Publication(16)参照
Uyeda, H., Y. Asuma, N. Takahashi, S. Shimizu, O. Kikuchi, A Kinoshita, S. Matsuoka, M. Katsumata, K. Takeuchi, T. Endoh, M. Ohi, S. Satoh, Y. Tachibana, T. Ushiyama, Y. Fujiyoshi, R. Shirooka, N. Nishi, T. Tomita, H. Ueda, T. Sueda, and A. Sumi, 1995: Doppler radar observations on the structure and characteristics of tropical clouds during the TOGA-COARE IOP in Manus, Papua New Guinea: Outline of the observation. J. Meteor. Soc. Japan, 73, 415–426.
*TOGA-COAREドップラーレーダー集中観測(パプアニューギニア・マヌス島)
[III] Publication list(latest→past)*in Japanese
植田宏昭,木部亜有美,齋藤美香,井上知栄,2019:冬季日本の降雪変動における熱帯からの遠隔強制.気象研究ノート第240号「南岸低気圧による大雪 Ⅱ:マルチスケールの要因」,105−113.
*ラ・ニーニャによる遠隔応答が引き起こす日本海側での豪雪
植田宏昭,雨貝裕介,早崎将光,2019:エルニーニョ現象と南岸低気圧の関係.気象研究ノート第240号「南岸低気圧による大雪 Ⅱ:マルチスケールの要因」,114−118.
*エルニーニョと南岸低気圧の関係
植田宏昭,釜江陽一,2018:2015,2016年における台風発生数の季節的な変調.天気,65,749−753.
Selected Publication(6)参照
中津留高広,林 陽生,上野健一,植田宏昭,辻村真貴,浅沼 順,日下博幸,2011:筑波山(男体山)の過去100年間における気温の長期変化.天気,58,1055−1061.
*筑波山観測ステーションの長期観測データに基づく地球温暖化と都市化の影響分離
植田宏昭,小塙祐人,大庭雅道,井上知栄,釜江陽一,池上久通,竹内 茜,石井直貴,2011:筑波山の東西南北4斜面における高度100 m間隔での通年観測 ー斜面温暖帯に着目してー.天気,58,777−784.
*大気科学野外実験を通して頑張った現地観測
植田宏昭,2009:日本気象学会創立125周年記念国際シンポジウム「次世代の大気科学に期待すること」(2007年度春季大会)の報告 5.気候研究におけるデータ解析の意義と今後の課題.天気,56,434−440.
矢野伸二郎,辻村真貴,田瀬則雄,植田宏昭,2006:筑波山斜面における降水の安定同位体比時空間分布形成プロセス.水文・水資源学会誌,19,383−391.
*学内共同研究
堀 正岳,植田宏昭,野原大輔,2006:筑波山西側斜面における斜面温暖帯の発生頻度と時間変化特性.地理学評論,79,26−38.
*斜面温暖帯JMSJ論文の発展版
植田宏昭,出森浩一郎,小垣哲也,2004:風力発電の導入に向けた筑波山六所平における風況調査.天気,51,895−899.
*3年間の現地観測データに基づく風況調査
谷田貝亜紀代,山崎信雄,釜堀弘隆,高橋清利,植田宏昭,青梨和正,隈 健一,竹内義明,多田英夫,2000:GAME再解析について.水文・水資源学会誌,13,486−495.
*GAME再解析作成過程の解説
植田宏昭,1998:海洋性モンスーンの季節進行における大気海洋相互作用の役割 ー1997年度山本・正野論文賞受賞記念講演ー.天気,45,611−620.
*山本正野論文賞の解説
植田宏昭,安成哲三,1998:西太平洋上の海洋性モンスーンの季節進行と日本付近の夏季天候との関係 一1993年冷夏・1994年暑夏時の事例解析一.天気,45,199−215.
*夏の冷夏・猛暑の原因を探る