Interannual oxygen isotope variability in Indian summer monsoon precipitation reflects changes in moisture sources:G. Kathyat, A. Sinha, M. Tanoue, K. Yoshimura, H. Li, H. Zhang, H. Cheng・Commun. Earth Environ., 2, doi: 10.1038/s43247-021-00165-z, 2021.5

Advances in Land Surface Modelling:E. M. Blyth, V. K. Arora, D. B. Clark, S. J. Dadson, M. G. DeKauwe, D. M. Lawrence, J. R. Melton, J. Pongratz, R. H. Turton, K. Yoshimura, H. Yuan・Curr. Clim. Change Rep., 7, 45-71, doi: 10.1007/s40641-021-00171-5, 2021.5

Potential of a SAR Small-Satellite Constellation for Rapid Monitoring of Flood Extent:N. Kitajima, R. Seto, D. Yamazaki, X. Zhou, W. Ma, S. Kanae・Remote Sens., 13, doi:10.3390/rs13101959, 2021.5

Applicability of a nationwide flood forecasting system for Typhoon Hagibis 2019:W. Ma, Y. Ishitsuka, A. Takeshima, K. Hibino, D. Yamazaki, K. Yamamoto, M. Kachi, R. Oki, T. Oki, K. Yoshimura・Sci. Rep., 11, doi: 10.1038/s41598-021-89522-8, 2021.5

Variations in mineralogy of dust in an ice core obtained from northwestern Greenland over the past 100 years:N. Nagatsuka, K. Goto-Azuma, A. Tsushima, K. Fujita, S. Matoba, Y. Onuma, R. Dallmayr, M. Kadota, M. Hirabayashi, J. Ogata, Y. Ogawa-Tsukagawa, K. Kitamura, M. Minowa, Y. Komuro, H. Motoyama, T. Aoki・Clim. Past, 17, 1341-1362, doi: 10.5194/cp-17-1341-2021, 2021.6

Influence of low-frequency PNA variability on MJO teleconnections to North American atmospheric river activity:K. Toride, G. J. Hakim・Geophysical Research Letters, 48, doi: 10.1029/2021GL094078, 2021.6

Applying an isotope-enabled regional climate model over the Greenland ice sheet: effect of spatial resolution on model bias:M. Breil, E. Christner, A. Cauquoin, M. Werner, G. Schädler・Clim. Past, 17, 1685-1699, doi: 10.5194/cp-17-1685-2021, 2021.8

Revisiting online and offline data assimilation comparison for paleoclimate reconstruction: an idealized OSSE study:A. Okazaki, T. Miyoshi, K. Yoshimura, S.J. Greybush, F. Zhang・JGR-Atmos., 126, doi: 10.1029/2020JD034214, 2021.8

Improving Weather Forecasting by Assimilation of Water Vapor Isotopes:M. Tada, K. Yoshimura, K. Toride・Sci Rep, 11, doi: 10.1038/s41598-021-97476-0, 2021.9

Estimation of Water Origins within an Explosive Cyclone over the Sea of Japan Using an Isotopic Regional Spectral Model:X. Li, R. Kawamura, A. Sugimoto, K. Yoshimura・J. Hydrometeorol., 22(11), 2825-2841, doi: 10.1175/JHM-D-21-0027.1, 2021.10

High resolution nudged isotope modeling with ECHAM6-wiso: Impacts of updated model physics and ERA5 reanalysis data:A. Cauquoin, M. Werner・J. Adv. Model. Earth. Syst., 13(11), doi: 10.1029/2021MS002532, 2021.11

Contribution of the Southern Annular Mode on variations in water isotopes of daily precipitation at Dome Fuji, East Antarctica:K. Kino, A. Okazaki, A. Cauquoin, K. Yoshimura・J. Geophys. Res. Atmos., 126, doi: 10.1029/2021JD035397, 2021.11

Interglacial Antarctic-Southern Ocean climate decoupling due to moisture source area shifts:A. Landais, B. Stenni, V. Masson-Delmotte, J. Jouzel, A. Cauquoin, É. Fourré, B. Minster, E. Selmo, T. Extier, M. Werner, F. Vimeux, R. Uemura, I. Crotti, A. Grisart・Nat. Geosci., 14, 918-923, doi: 10.1038/s41561-021-00856-4, 2021.11

Correction of the surface water formation parameter used in a malaria transmission model and future malaria projections for Africa:I. Syafarina, A. L. Latifah, Y. Miura, T. Nitta, K. Yoshimura・Hydrol. Res. Let., 15(4), 98-104, doi: 10.3178/hrl.15.98, 2021.12

The uncertainty of flood frequency analyses in hydrodynamic model simulations:X. Zhou, W. Ma, W. Echizenya, D. Yamazaki・Nat. Hazards Earth Syst. Sci., 21, 1071-1085, doi: 10.5194/nhess-21-1071-2021, 2021

Stable isotopic composition in French tap waters:V. Daux, B. Minster, A. Cauquoin, O. Jossoud, M. Werner・The Geological Society, London, Special Publications, 507, 47-61, doi: 10.1144/SP507-2020-207, 2021

Global simulation of snow algal blooming by coupling a land surface and newly developed snow algae models:Y. Onuma, K. Yoshimura, N. Takeuchi・Journal of Geophysical Research: Biogeosciences, 127, doi: 10.1029/2021JG006339, 2022.1

The Nonhydrostatic ICosahedral Atmospheric Model for CMIP6 HighResMIP simulations (NICAM16-S): experimental design, model description, and impacts of model updates: Kodama, C., 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, Geosci. Model Dev., doi:10.5194/gmd-14-795-2021, 2021

Aleutian Low variability for the last 7,500 years and its relation to the westerly jet, Quaternary Research:Nagashima, K., J. Addison, T. Irino, T. Omori, K. Yosimura, N. Harada, doi:10.1017/qua.2020.116, 2021

Potential of mid-tropospheric water vapor isotopes to improve large-scale circulation and weather predictability:Toride, K., K. Yoshimura, M. Tada, C. Diekmann, B. Ertl, F. Khosrawi, M. Schneider, Geophysical Research Letters, 48, e2020GL091698, doi:10.1029/2020GL091698, 2021

Development of Reservoir Flood Control Scheme for Global Flood Models:R. Hanazaki, D. Yamazaki, K. Yoshimura・Journal of Advances in Modeling Earth Systems, 14, doi: 10.1029/2021MS002944, 2022.2

Toward Improved Comparisons Between Land-Surface-Water-Area Estimates From a Global River Model and Satellite Observations:Zhou X., C. Prigent, D. Yamazaki・Water Resources Research, doi: 10.1029/2020WR029256, 2021.5

Modeling Daily Floods in the Lancang-Mekong River Basin Using an Improved Hydrological-Hydrodynamic Model:Jie Wang, Xiaobo Yun, Yadu Pokhrel, Dai Yamazaki, Qiudong Zhao, Aifang Chen, Qiuhong Tang・Water Resources Research, doi: 10.1029/2021WR029734, 2021.8

Development of a coupled simulation framework representing the lake and river continuum of mass and energy (TCHOIR v1.0):Tokuda, D., Kim, H., Yamazaki, D., & Oki, T.・Geosci. Model Dev., doi: 10.5194/gmd-14-5669-2021, 2021.9

A hydrography upscaling method for scale-invariant parametrization of distributed hydrological models:Dirk Eilander, Willem van Verseveld, Dai Yamazaki, Albrecht Weerts, Hessel C. Winsemius, and Philip J. Ward・Hydrol. Earth Syst. Sci, doi: 10.5194/hess-25-5287-2021, 2021.9

ECLand: The ECMWF Land Surface Modelling System:Boussetta S, Balsamo G, Arduini G, Dutra E, McNorton J, Choulga M, Agustí-Panareda A, Beljaars A, Wedi N, Munõz-Sabater J, de Rosnay P, Sandu I, Hadade I, Carver G, Mazzetti C, Prudhomme C, Yamazaki D and Zsoter E・Atmosphere, doi: 10.3390/atmos12060723, 2021

Global Reach-level 3-hourly River Flood Reanalysis (1980-2019):Yuan Yang, Ming Pan, Peirong Lin, Hylke E. Beck, Zhenzhong Zeng, Dai Yamazaki, Cédric H. David, Hui Lu, Kun Yang, Yang Hong, and Eric F. Wood・Bulletin of the American Meteorological Society, doi: 10.1175/BAMS-D-20-0057.1, 2021

A Vector-Based River Routing Model for Earth System Models: Parallelization and Global Applications:Mizukami N., M.P. Clark, S. Gharari, E. Kluzek, M. Pan, P. Lin, H.E. Beck, D. Yamazaki・Journal of Advances in Modeling Earth Systems, doi: 10.1029/2020MS002434, 2021

Development of a Reservoir Flood Control Scheme for Global Flood Models:Risa Hanazaki, Dai Yamazaki, Kei Yoshimura・Journal of Advances in Modeling Earth Systems, 14(3), doi: 10.1029/2021MS002944, 2022.2

Sustainability assessment of marine aquaculture considering nutrients inflow from the land in Kyushu Area:H. Gao, J. Zhou, S. Dong, D. Kitazawa・Water, 14(6), 943, doi.org: 10.3390/w14060943, 2022.3

Nitta, T., T. Arakawa, M. Hatono, A. Takeshima, K. Yoshimura, Development of Integrated Land Simulator. Prog. Earth Planet. Sci., 7, 68, 2020. https://doi.org/10.1186/s40645-020-00383-7.

Latifah, A. L., R. K. Lestari, I. Syafarina, K. Yoshimura , Sensitivity experiments of rainfall to warm cloud auto-conversion threshold and relative humidity threshold of cloudiness in RegCM4.6 over the Maritime Continent, Atmosphere-Ocean,2020.https://doi.org/10.1080/07055900.2020.1737500.

Ohki, M., K. Yamamoto, T. Tadono, K. Yoshimura, Automated processing for flood area detection using ALOS-2 and hydrodynamic simulation data, Remote Sensing,2020 https://doi.org/10.3390/rs12172709.

Hatono, M. and K. Yoshimura, Development of a global sediment dynamics model, PEPS,2020 https://doi.org/10.1186/s40645-020-00368-6.

Miura, Y. and K. Yoshimura, Development and verification of a three‐dimensional variably saturated flow model for assessment of future global water resources, JAMES,2020 https://doi.org/10.1029/2020MS002093.

Miriam C. Jones, Max Berkelhammer, Katherine J. Keller, Matthew J. Wooller, Kei Yoshimura, High sensitivity of Bering Sea winter sea ice to winter insolation and carbon dioxide over the last 5500 years, Sci. Adv.,2020 https://doi.org/10.1126/sciadv.aaz9588.

Nakajima, T., T. Ohara, T. Masui, T. Takemura, K. Yoshimura, D. Goto, T. Hanaoka, S. Itahashi, G. Kurata, J. Kurokawa, T. Maki, Y. Masutomi, M. Nakata, T. Nitta, X. Seposo, K. Sudo, C. Suzuki, K. Suzuki, H. Tsuruta, K. Ueda, S. Watanabe, Y. Yu, K. Yumimoto, S. Zhao, A development of reduction scenarios of the short-lived climate pollutants (SLCPs) for mitigating global warming and environmental problems, PEPS,2020 https://doi.org/10.1186/s40645-020-00351-1.

S. Sengupta, S. K. Bhattacharya, A. Parekh, Nimya S S, K. Yoshimura, A. Sarkar, Signatures of monsoon intra-seasonal oscillation and stratiform process in rain isotope variability in northern Bay of Bengal and their simulation by isotope enabled general circulation model, Clim. Dyn,2020 https://doi.org/10.1007/s00382-020-05344-w.

G. Xu, X. Liu, W. Sun, P. Szejner, X. Zeng, K. Yoshimura, V. Trouet, Seasonal divergence between soil water availability and atmospheric moisture recorded in intra-annual tree-ring δ18O extremes, ESL,2020 https://doi.org/10.1088/1748-9326/ab9792.

John C. H. Chiang, Michael J. Herman, Kei Yoshimura, and Inez Y. Fung, Enriched East Asian oxygen isotope of precipitation indicate reduced summer seasonality in regional climate and westerlies, PNAS, 2020 https://doi.org/10.1073/pnas.1922602117.

Yokohata, T., K. Saito, K. Takata, T. Nitta, Y. Satoh, T. Hajima, T. Sueyoshi, and G. Iwahana, Model improvement and future projection of permafrost processes in a global land surface model, PEPS,2020 https://doi.org/10.1186/s40645-020-00380-w.

Essery, R., Kim, H., Wang, L., Bartlett, P., Boone, A., Brutel-Vuilmet, C., Burke, E., Cuntz, M., Decharme, B., Dutra, E., Fang, X., Gusev, Y., Hagemann, S., Haverd, V., Kontu, A., Krinner, G.,Lafaysse, M., Lejeune, Y., Marke, T., Marks, D., Marty, C., Menard, C. B., Nasonova, O., Nitta, T., Pomeroy, J., Schädler, G., Semenov, V., Smirnova, T., Swenson, S., Turkov, D., Wever, N., and Yuan, H. Snow cover duration trends observed at sites and predicted by multiple models, The Cryosphere, 14, 4687–4698,2020 https://doi.org/10.5194/tc-14-4687-2020.

Menard C. B., R. Essery, G. Krinner, G. Arduini, P. Bartlett, A. Boone, C. Brutel-Vuilmet, E. Burke, M. Cuntz, Y. Dai, B. Decharme, E. Dutra, X. Fang, C. Fierz, Y. Gusev, S. Hagemann, V. Haverd, H. Kim, M. Lafaysse, T. Marke, O. Nasonova, T. Nitta, M. Niwano, J. Pomeroy, G. Schädler, V. Semenov, T. Smirnova, U. Strasser, S. Swenson, D. Turkov, N. Wever, and H. Yuan, Scientific and human errors in a snow model intercomparison, BAMS,2020 https://doi.org/10.1175/BAMS-D-19-0329.1.

Yokohata, T., T. Kinoshita, G. Sakurai, Y. Pokhrel, A. Ito, M. Okada, Y. Satoh, E. Kato, T. Nitta, S. Fujimori, F. Felfelani, Y. Masaki, T. Iizumi, M. Nishimori, N. Hanasaki, K. Takahashi, Y. Yamagata, and S. Emori, MIROC-INTEG-LAND version 1: a global biogeochemical land surface model with human water management, crop growth, and land-use change, Geosci. Model Dev.,2020 https://doi.org/10.5194/gmd-13-4713-2020.

Onuma, Y., Takeuchi, N., Tanaka, S., Nagatsuka, N., Niwano, M. and Aoki, T., Physically based model of the contribution of red snow algal cells to temporal changes in albedo in northwest Greenland, Cryosphere, 14, 2087-2101,2020 https://doi.org/10.5194/tc-14-2087-2020.

Ma, W., Z. Wei, P. Wang and J. Asanuma, Transpiration and evaporation of grassland using land surface modelling, Hydrological processes,2020 https://doi.org/10.1002/hyp.13792.

Takeshima, A., Kim, H., Shiogama, H., Lierhammer, L., Scinocca, J. F., Seland, Ø., & Mitchell, D, Global aridity changes due to differences in surface energy and water balance between 1.5° C and 2° C warming. Environmental Research Letters,2020 https://doi.org/10.1088/1748-9326/ab9db3.

Earlier flood forecasting could help avoid disaster in Japan:Prevention WEB（UNDRR), 2021.6.18

Better weather forecasting through satellite isotope data assimilation:University of Washington(Department of Atmospheric Sciences), 2021.9.15

Eerie `Blood Snow’ Is Likely Synced Up With Climate Change, Scientists Say:VICE, 2022.2.2

Red Snow: Scientists Link Rare ‘Blood Snow’ Phenomenon to Climate Change:Nature world news, 2022.2.3

¿Sangre en la Nieve? No, son algas:La Gran Noticia, 2022.2.4

Un nouveau modèle de prévision pour anticiper les épisodes de neige rouge:SciencePost, 2022.2.10

2020

Bering Sea ice extent is at most reduced state in last 5,500 years:EurekAlert!, 2020.9.2

Le “Parthénon” souterrain qui protège Tokyo des inondations:Le Point International, 2020.10.12

The underground ‘Parthenon’ protecting Tokyo from floods:France24, 2020.10.12

Japonya’nın dev ‘Yerebatan Sarnıcı’ Tokyo’yu su baskınlarından koruyor:euronews, 2020.10.13

The `Parthenon’ protecting Tokyo from floodwater:taipei times, 2020.10.13

The underground reservoir protecting Tokyo from floods:the japan times, 2020.10.15

Việt Nam đang chịu ‘tác động thời tiết tồi tệ nhất thế giới’:VnExpress, 2020.10.19

Vietnam endures world’s ‘worst weather impacts’: experts:VnExpress, 2020.10.20

Biến đổi khí hậu, biến động địa chất: Nhìn từ Rào Trăng 3:Nhan Dan, 2020.10.24

‘Partenón’ subterráneo: sistema que protege a Tokio de inundaciones:METEORED, 2020.10.25

Awards

芳村圭・馬文超・山本晃輔：宇宙開発利用大賞 文部科学大臣賞

　「衛星・陸域水循環融合システムToday’s Earthの開発」2022年3月

芳村圭・山本晃輔 ・可知美佐子・沖理子・山崎 大：令和3年度文部科学大臣表彰

     科学技術賞（科学技術振興部門）「衛星データ融合陸域水循環システム開発と防災利用への貢献」2021年4月