Journal Papers

• Sathsara, K. T. L., N. Suzuki and H. Kusaka, 2025: WRF-UCM simulations of urbanization impacts on land-sea breeze circulations during three heatwaves in Colombo, Sri Lanka. Theoretical and Applied Climatology, 156, 537. （Date：Online 2025/09/27・Print 2025/09/27）（DOI：https://doi.org/10.1007/s00704-025-05808-1）（Acknowledgement：JSPS KAKENHI JP24K07130・the KDDI Foundation・文部科学省(MEXT) 気候変動予測先端研究プログラム (SENTANプログラム) 課題4 (課題番号: JPMXD0722678534)）（Cited：web of science 0times・google scholar 0times）　PDFはこちら

• Vitanova, L.L., H. Kusaka, Q. V. Doan, F. Chen, D. Petrova-Antonova and S. Subasinghe, 2025: Evaluating the seasonal impact of urbanisation on surface air temperature in Beijing over three decades: 1990s, 2010s, and 2030s. Environmental Research Communications, 7, 045021. （Date：Online 2025/04/16・Print 2025/04/16）（DOI：https://doi.org/10.1088/2515-7620/adc90）（Acknowledgement: GATE project, funded by Horizon 2020 WIDESPREAD-2018- 2020 TEAMING Phase 2 (no. 857155)・‘Research, Innovation and Digitalization for Smart Transformation’ 2021-2027 (PRIDST)(no. BG16RFPR002-1.014-0010-C01)・FLEdge projects, funded by the Driving Urban Transitions (DUT) Partnership (no. KP-06-D002/5)・JSPS KAKENHI Grant Number JP24K07130, the Environment Research and Technology Development Fund (JPMEERF2024RA1) of the Environmental Restoration and Conservation Agency provided by Ministry of the Environment of Japan・the Multidisciplinary Cooperative Research Program in Center for Computational Sciences, University of Tsukuba・ E-Dengue project funded by the Wellcome Trust [226474/Z/22/Z]）（Cited：web of science 0回・google scholar 0回）　PDFはこちら
  
  

• Abe, H., H. Kusaka, Y. Azegami, and H. Tanaka, 2025: Spatial structure of local winds “Rokko-oroshi”: A case study using Doppler lidar observation and WRF simulation. Atmospheric Science Letters, 26(2), e1294. （Date：Online 2025/02/19・Print 2025/02/19）（DOI：https://doi.org/10.1002/asl.1294）（Acknowledgement：竹中工務店共同研究費・学際領域展開ハブ形成プログラム JPMXP1323015474）（Cited：web of science 0回・google scholar 0回）　PDF
  
  

• Magnaye, A. M. T. and H. Kusaka, 2025: Enhancing Numerical Simulation Accuracy for Extreme Heat Events in Metro Manila. SOLA, 21, 76-84. （Date：Online 2025/02/16・Print -）（DOI：https://doi.org/10.2151/sola.2025-010）（Acknowledgement：JSPS KAKENHI JP24K07130・JST-SPRING JPMJSP2124・学際共同利用）（Cited：web of science 0回・google scholar 0回）　PDF
  
  

• Sathsara, K. T. L. and H. Kusaka, 2025: Impact of high-resolution land use data on numerical simulations of Colombo’s thermal environment during heatwaves. Theoretical and Applied Climatology, 156, 106. （Date：Online 2025/01/15・Print 2025/01/15）（DOI：https://doi.org/10.1007/s00704-024-05242-9）（Acknowledgement：JSPS KAKENHI JP24K07130・the KDDI Foundation・文部科学省統合的気候モデル高度化研究プログラム JPMXD0722678534・学際共同利用）（Cited：web of science 0回・google scholar 0回）　PDF
  
  

• Xue, L., Q. V. Doan, H. Kusaka, C. He, and F. Chen, 2025: Land-surface-physics-based downscaling versus conventional dynamical downscaling for high-resolution urban climate change information: The case study of two cities. Urban Climate, 59, 102228. （Date：Online 2024/12/20・Print 2025/02/01）（DOI：https://doi.org/10.1016/j.uclim.2024.102228）（Acknowledgement：学際共同利用）（Cited：web of science 0回・google scholar 0回）　PDF

• Nakamura, Y., Y. Asano, A. Suzuki-Parker, and H. Kusaka, 2024: Verification of heat stress mitigation effects by UV parasols using UTCI observations and thermal sensory questionnaire survey. Building and Environment, 266, 112025. （Date：Online 2024/12/1・Print 2024/12/1）（DOI：https://doi.org/10.1016/j.buildenv.2024.112025）（Acknowledgement：環境研究総合推進費 JPMEERF20232003）（Cited：web of science 0times・google scholar 0times）　PDF ★

• Syed Mahbar, S. F., and H. Kusaka, 2024: Synergistic interactions between urban heat islands and heat waves in the Greater Kuala Lumpur and surrounding areas. International Journal of Climatology, 44, 4886-4906. （Date：Online 2024/9/15・Print 2024/11/15）（DOI：https://doi.org/10.1002/joc.8614）（Acknowledgement：科研費基盤C JP24K07130）（Cited：web of science 0times・google scholar 0times）　PDF ★

• Syed Mahbar, S. F., and H. Kusaka, 2024: Urbanisation increases cloudiness over Greater Kuala Lumpur during southwest and northeast monsoons. Weather, , . （Date：Online 2024/11/04・Print 2024/11/04）（DOI：https://doi.org/10.1002/wea.7644）（Acknowledgement：科研費基盤C JP24K07130, 科研費基盤S JP23H05494）（Cited：web of science 0times・google scholar 0times）　PDF ★

• Sato, T., H. Hino, and H. Kusaka, 2024: Separating urban heat island circulation and convective cells through dynamic mode decomposition. Atmospheric Science Letters, 25(12), e1279. （Date：Online 2024/10/30・Print 2024/10/30）（DOI：https://doi.org/10.1002/asl.1279）（Acknowledgement：学際領域展開ハブ形成プログラム JPMXP1323015474, 科研費基盤C JP21K03656）（Cited：web of science 0times・google scholar 0times）　PDF

• Kusaka, H., R. Ikeda, T. Sato, S. Iizuka, and T. Boku, 2024: Development of a Multi-Scale Meteorological Large-Eddy Simulation Model for Urban Thermal Environmental Studies: The “City-LES” Model Version 2.0. Journal of Advances in Modeling Earth Systems, 16, e2024MS004367. （Date：Online 2024/10/05・Print 2024/10/05）（DOI：https://doi.org/10.1029/2024MS004367）（Acknowledgement：文部科学省共同利用・共同研究体制構築推進事業：大学連携研究推進プログラム（CURE）JPMXP1323015474・筑波大学CCS多分野連携研究プログラム・JPMEERF20232003・JP21K03656）（Cited：web of science 0times・google scholar 1times）　PDF ★
  
  

• Magnaye, A.M.T., and H. Kusaka, 2024: Potential effect of urbanization on extreme heat events in Metro Manila Philippines using WRF-UCM. Sustainable Cities and Society, 110, 105584. （Date：Online 2024/06/08・Print 2024/09/01）（DOI : https://doi.org/10.1016/j.scs.2024.105584）（Acknowledgement：JSPS KAKENHI JP24K07130・JST-SPRING JPMJSP2124）（Cited：web of science 0times・google scholar 0times）　PDF ★
  
  

• Kusaka, H., Y. Imai, H. Kobayashi, Q. V. Doan, and T. Ngo-Duc, 2024: Influence of foehn winds of Truong Son Mountains on the high temperatures observed in North-Central Vietnam during May 31-June 5, 2017. Journal of Applied Meteorology and Climatology, 63(5), 597-616. （Date：Online 2024/02/22・Print 2024/05/01）（DOI：https://doi.org/10.1175/JAMC-D-23-0010.1）（Acknowledgement：NAFOSTED 105.06-2021.14）（Cited：web of science 0times・google scholar 0times）　PDF ★
  
  

• Kusaka, H., S. Nishiba, and Y. Asano, 2024: Why does Japan’s south foehn,“Jintsu-Oroshi,” tend to onset during the night?: An investigation based on two case studies. Journal of Applied Meteorology and Climatology, 63(2), 263-282. （Date：Online 2024/02/06・Print 2024/02/01）（DOI：https://doi.org/10.1175/JAMC-D-23-0063.1）（Acknowledgement：JPMEERF20232003）（Cited：web of science 0times・google scholar 0times）　PDF ★

• Asano, Y., H. Kusaka, and M. Inatsu, 2023: Future projections of wet snow accretion and snowfall in Kanto Plain, Japan, using a large ensemble climate simulation. Meteorological Applications, 30(6), e2162. （Date：Online 2023/11/23・Print 2023/11/23）（DOI：https://doi.org/10.1002/met.2162）（Acknowledgement：JPMEERF20192005, JPMEERF20232003）（Cited：web of science 0回・google scholar 0回）　PDF

• Sato, T., and H. Kusaka, 2023: Applicability of methods for inflow turbulence generation developed in a CFD field to the thermally driven convective boundary layer simulation. Journal of Applied Meteorology and Climatology, 62, 1783-1801. （Date：Online 2023/11/27・Print 2023/12/01）（DOI：https://doi.org/10.1175/JAMC-D-23-0053.1）（Acknowledgement：JP21K03656, CCS）（Cited：web of science 0 times・google scholar 0 times）　PDF ★

• Kusaka, H., N. Suzuki, M. Yabe, and H. Kobayashi, 2023: The snow-shadow effect of Sado Island on Niigata City and the coastal plain. Atmospheric Science Letters, 24(11), e1182. （Date：2023/11/03）（DOI：https://doi.org/10.1002/asl.1182）（Acknowledgement：JPMEERF20232003）（Cited：web of science 0 times・google scholar 0 times）　PDF ★

• Sato, T., and H. Kusaka, 2023: Investigation of a geometric parameter corresponding to the turbulent length scale within an urban canopy layer. Boundary-Layer Meteorology, 189, 215-233. （Date：Online 2023/10/30・Print 2023/10/30）（DOI：https://doi.org/10.1007/s10546-023-00832-y）（Acknowledgement：JP21K03656, CCS）（Cited：web of science 0 times・google scholar 0 times）　PDF

• Xu, X., A. Maruyama, and H. Kusaka, 2023: Improvements in the land and crop modeling over flooded rice fields by incorporating the shallow paddy water. Journal of Advances in Modeling Earth Systems, 15, e2022MS003248. （Date：2023/08/12）（DOI：https://doi.org/10.1029/2022MS003248）（Acknowledgement：JP19H03084）（Cited：web of science 0 times・google scholar 0 times）　PDF

• Sato, T., and H. Kusaka, 2023: Intercomparison of Synthetic Inflow Turbulence Generation Methods for Large-Eddy Simulation Models in Thermally Driven Convective Boundary Layer Simulations. SOLA, 19, 165-172. （Date：2023/08/11）（DOI：https://doi.org/10.2151/sola.2023-022）（Acknowledgement：JP21K03656, CCS）（Cited：web of science 0回・google scholar 0回）　PDF

• Azegami, Y., M. Imanishi, K. Fujiwara, H. Kusaka, 2023: Effects of solar radiation in the streets on pedestrian route choice in a city during the summer season. Building and Environment, 235, 110250. （Date：Online 2023/05/01・Print 2023/05/01）（DOI：https://doi.org/10.2139/ssrn.4364217）(Cited：web of science 1 times・google scholar 3 times）　PDF ★

• Gu, Y., H. Kusaka, Q.-V. Doan, 2023: An advection fog event response to future climate forcing in the 2030s–2080s: a case study for Shanghai. Frontiers of Earth Science, 17, 527-546. （Date：Online 2023/02/27・Print 2023/02/27）（DOI：https://doi.org/10.1007/s11707-022-1002-5）（Acknowledgement：NSFC 52175103）(Cited：web of science 0 times・google scholar 0 times）　PDF 

• Doan, Q. V., S. Kobayashi, H. Kusaka, F. Chen, C. He, and D. Niyogi, 2023: Tracking Urban Footprint on Extreme Precipitation in an African Megacity. Journal of Applied Meteorology and Climatology, 62(2), 209-226.（Date：Online 2023/02/16・Print 2023/02/01）（DOI：https://doi.org/10.1175/JAMC-D-22-0048.1）（Cited：web of science 2 times・google scholar 2 times）

• Nishi, A., H. Kusaka, 2023: Future changes of the extreme high-temperature events influenced by foehn winds in Niigata, Japan. Atmospheric Science Letters, , e1137. （Date：2023/02/01）（DOI：https://doi.org/10.1002/asl.1137）（Acknowledgement：ERCA JPMEERF20192005）（Cited：web of science 1 times・google scholar 2 times）　PDF 

• Kusaka, H., Y. Asano, and R. Kimura, 2022: Wisteria trellises and tents as tools for improved thermal comfort and heat stress mitigation: Meteorological, physiological, and psychological analyses considering the relaxation effect of greenery. Meteorological Applications, 29(1), e2046.（Date：Online 2022/01/27）（DOI：https://doi.org/10.1002/met.2046）（Acknowledgement：ERCA, ERTDF）（Cited：web of science 6 times・google scholar 8 times）　PDF

• Negishi, M., and H. Kusaka, 2022: Development of statistical and machine learning models to predict the occurrence of radiation fog in Japan. Meteorological Applications, 29(2), e2048.（Date：Online 2022/03/03）（DOI：https://doi.org/10.1002/met.2048）（Acknowledgement：CCS, JSPS）（Cited：web of science 4 times・google scholar 7 times）　PDF

• Asano Y, Y. Nakamura, A. Suzuki-Parker, S. Aiba, and H. Kusaka, 2022: Effect of walking in heat-stressful outdoor environments in an urban setting on cognitive performance indoors. Building and Environment, 213, 108893.（Date；2022/04/01）（DOI：https://doi.org/10.1016/j.buildenv.2022.108893）（Acknowledgement：SIP, ERCA）（Cited：web of science 6 times・google scholar 9 times）　PDF ★

• Kusaka H., Y. Nakamura, and Y. Asano, 2022: (NOTES AND CORRESPONDENCE) UV Parasol, Dry-Mist Spraying, and Street Trees as Tools for Heat Stress Mitigation. Journal of the Meteorological Society of Japan, 100(4), 677−685.（Date：2022/05/13）（DOI：10.2151/jmsj.2022-035）（Acknowledgement：ERCA）（Cited：web of science 2 times・google scholar 3 times）　PDFはこちら

• Doan, Q. V., F. Chen, Y. Asano, Y. Gu, A. Nishi, H. Kusaka, and D. Niyogi, 2022: Causes for asymmetric warming of sub‐diurnal temperature responding to global warming. Geophysical Research Letters, 49, e2022GL100029.（Date：2022/09/23）（DOI：https://doi.org/10.1029/2022GL100029）（Acknowledgement：JSPS, CCS, NASA, USDA）（Cited：web of science13 times・google scholar 17 times）　PDFはこちら

• Nishi, A., H. Kusaka, S. Nakamura, 2022: Mesoscale and local-scale climatology of extreme temperature events in Niigata, Japan. International Journal of Climatology, 42, 9897-9908. （Date：Online 2022/09/15・Print 2022/12/30）（DOI：https://doi.org/10.1002/joc.7870）（Acknowledgement：ERCA JPMEERF20192005, CCS）（Cited：web of science 4 times・google scholar 6 times）　PDF

• Nakamura, S., H. Kusaka, R. Sato, T. Sato, 2022: Heatstroke risk projection in japan under current and near future climates. Journal of the Meteorological Society of Japan, 100, 597-615. （Date：Online 2022/03/11・Print 2022/03/11）（DOI：https://doi.org/10.2151/jmsj.2022-030）（Acknowledgement：SI-CAT JPMXD0715667165, ERCA JPMEERF20192005）（Cited：web of science 2 times・google scholar 7 times）　PDF 

• Sato, R., H. Kusaka, 2022: Climatological study of airflow channelling in relation to surface geostrophic wind. Meteorological Applications, 29, e2082. （Date：2022/07/07）（DOI：https://doi.org/10.1002/met.2082）（Acknowledgement：ERCA JPMEERF20192005, SIP）（Cited：web of science 1 times・google scholar 1 times）　PDF

• Yamada, S., H. Kusaka, 2022: Spatial structure and formation mechanism of local winds “Suzuka-oroshi” at the foothills of Suzuka Mountains, Japan. Journal of the Meteorological Society of Japan, 100, 751-766. （Date：Online 2022/03/21・Print 2022/03/21）（DOI：https://doi.org/10.2151/jmsj.2022-039）（Acknowledgement：ERCA  JPMEERF20192005, CCS）（Cited：web of science 1 times・google scholar 2 times）　PDF

• Kusaka H., Y. Nakamura, and Y. Asano, 2022: (NOTES AND CORRESPONDENCE) UV Parasol, Dry-Mist Spraying, and Street Trees as Tools for Heat Stress Mitigation. Journal of the Meteorological Society of Japan, 100(4), 677−685.（Date：2022/05/13）（DOI：10.2151/jmsj.2022-035）（Acknowledgement：ERCA）（CIted：web of science 2 times・google scholar 3 times）　PDF

• Doan, Q. V., F. Chen, Y. Asano, Y. Gu, A. Nishi, H. Kusaka, and D. Niyogi, 2022: Causes for asymmetric warming of sub‐diurnal temperature responding to global warming. Geophysical Research Letters, 49, e2022GL100029.（Date：2022/09/23）（DOI：https://doi.org/10.1029/2022GL100029）（Acknowledgement：JSPS, CCS, NASA, USDA）（Cited：web of science 13 times・google scholar 17 times）　PDF

<In Japanese>

• Azegami, Y., K. Ohtake, H. Tanaka, and H. Kusaka, 2022: Study on the effect of gloval warming on typhoon characteristics at landfall in Japan. Wind Engineering Research, 27, 126-133.（Date: 2022/12/05）（Cited：web of science - times・google scholar 1 times）　PDF

• Sato, T., H. Kusaka, and H. Hino, 2021: Quantitative assessment of the contribution of meteorological variables to the prediction of the number of heat stroke patients for Tokyo.. SOLA, 16, 104-108. （Date：Online 2021/05/20・Print 2021/05/20）（DOI：https://doi.org/10.2151/sola.2020-018）（Acknowledgement：SI-CAT JPMXD0715667165・JSPS 17H01748）（Cited：web of science 8 times・google scholar 12 times）　PDF

• Doan, Q. V., H. Kusaka, T. Sato, and F. Chen, 2021: A structural self-organizing map (S-SOM) algorithm for weather typing. Geoscientific Model Development, 14, 2097-2111.（Date：2020/10/09）（DOI：https://doi.org/10.5194/gmd-2020-278）（Acknowledgement：ERCA・JSPS）（Cited：web of science 15 times・google scholar 0 times）　PDF

• Kusaka, H., A. Nishi, A. Kakinuma, Q. V. Doan, T. Onodera, and S. Endo, 2021: Japan's south foehn on the Toyama Plain: Dynamical or thermodynamical mechanisms? International Journal of Climatology, 41, 1-18.（Date：Online 2021/04/07・Print 2021/9/8）（DOI：10.1002/joc.7133）（Acknowledgement：ERCA・SIP・NEDO・CCS）（Cited：web of science 13 times・google scholar 20 times）　PDF ★

• Sato, T., and H. Kusaka, 2021: Statistical Intercomparison of Similarity Metrics in Sea Level Pressure Classification, Journal of the Meteorological Society of Japan, 99, 993-1001.（Date：Online 2021/08/20・Print 2021/08/20）（DOI：10.2151/jmsj.2021-047）（Acknowledgement：ERCA）（Cited：web of scienc 1 times・google scholar 1 times）　PDF

• Asano, Y., and H. Kusaka, 2021: Numerical simulation study of the effects of foehn winds on white head incidences in Yamagata Prefecture, Japan. Meteorological Applications, 28(6), e2042.（Date：2020/12/28）（DOI：https://doi.org/10.1002/met.2042）（Acknowledgement：ERCA・SIP）（Cited：web of science 7 times・google scholar 9 times）　PDF
  
  

• Vitanova, L. L., H. Kusaka, Q.-V. Doan, S. Subasinghe, 2021: How urban growth changes the heat island effect and human thermal sensations over the last 100 years and towards the future in a European city?. Meteorological Applications, 28, e2019. （Date：2021/08/08）（DOI：https://doi.org/10.1002/met.2019）（Acknowledgement：CCS）（Cited：web of science 6 times・google scholar 5 times）　PDF

• Ikeda, T., and H. Kusaka, 2021: Development of Models for Predicting the Number of Patients with Heatstroke on the Next Day Considering Heat Acclimatization. Journal of the Meteorological Society of Japan, 99(6), 1395-1412.（Date：Online 2021/08/20・Print 2021/12/16）（DOI：10.2151/jmsj.2021-067）（Acknowledgement：ERCA）（Cited：web of science 9 times・google scholar 16 times）　PDF

• Doan, Q. V.,  H. Kusaka, T. Sato, and F. Chen, 2020: S-SOM v1.0: a structural self-organizing map algorithm for weather typing. Geoscientific Model Development,  14, 2097-2111.（Date：Online 2020/10/09・Print 2021/04/22）（DOI：https://doi.org/10.5194/gmd-2020-278.）（Acknowledgement：ERCA・JSPS）（Cited：web of science 15 times・google scholar 15 times）　PDF

• Sato, T.,  H. Kusaka, and H. Hino,  2020: Quantitative assessment of the contribution of meteorological variables to the prediction of the number of heat stroke patients for Tokyo. SOLA,  16,  104−108.（Date：2020/06/26）（DOI：10.2151/sola.2020-018.）（Acknowledgement：SI-CAT・JSPS）（Cited：web of science 8 times・google scholar 12 times）　PDF

• Koyanagi, T., and H. Kusaka, 2019: A climatological study of the strongest local winds of Japan“Inami-kaze”. International Journal of Climatology,   40, 1007-1021.（Date：Online 2019/07/29・Print 2020/02/03）（DOI：10.1002/joc.6252）（Acknowledgement：SIP）（Cited：web of science 7 times・google scholar 8 times）　PDF ★

• Gu, Y.,  H. Kusaka,  V. Q. Doan, and J. G. Tan,  2019: Impacts of urban expansion on fog types in Shanghai, China: numerical experiments by WRF model. Atmospheric Research, 220, 57-74.（Date：Online 2019/01/02・Print 2019/05/19）（DOI：10.1016/j.atmosres.2018.12.026）（Cited：web of science 17 times・google scholar 21 times）　PDF ★

• Vitanova, L. L.,  H. Kusaka, V. Q. Doan, and A. Nishi,  2019: Numerical Study of the Urban Heat Island in Sendai City with Potential Natural Vegetation and the 1850s and 2000s Land-Use Data. Journal of the Meteorological Society of Japan,   97(1), 227-252.（Date：Online 2019/02/09）（DOI：10.2151/jmsj.2019-013）（Acknowledgement：CCS・SI-CAT）（Cited：web of science 5 times・google scholar 7 times）　PDF ★

• Nishi, A., and H. Kusaka,  2019: Comparison of Spatial Pattern and Mechanism between Convexity and Gap Winds. SOLA, 15, 12-16.（Date：Online 2019/02/05）（DOI：10.2151/sola.2019-003）（Acknowledgement： SIP）（Cited：web of science 3 times・google scholar 6 times）　PDF

• Nishi, A., and H. Kusaka, 2019: Effect of Foehn Wind on Record-Breaking High Temperature Event (41.1 degrees C) at Kumagaya on 23 July 2018. SOLA, 15, 17-21.（Date：Online 2019/02/05）（DOI：10.2151/sola.2019-004）（Acknowledgement： SIP）（Cited：web of science 18 times・google scholar 29 times）　PDF

• Nishi, A., and H. Kusaka, 2019: A Climatological Study of the Local “Karakkaze” Wind, with a Focus on Temperature Change. SOLA, 15, 149-153.（Date：Online 2019/07/17）（DOI：https://doi.org/10.2151/sola.2019-027）（Acknowledgement：SIP）（Cited：web of science 2 times・google scholar 6 times）　PDF

• Nishi, A., and H. Kusaka, 2019: The “Karakkaze” Local Wind as a Convexity Wind: A Case Study using Dual-Sonde Observations and Numerical Simulations. SOLA, 15, 160-165.（Date：Online 2019/08/21）（DOI：https://doi.org/10.2151/sola.2019-029）（Acknowledgement：NEDO）（Cited：web of science 2 times・google scholar 4 times）　PDF

• Nishi, A., and H. Kusaka, 2019: Effect of mountain convexity on the locally strong "Karakkaze" wind. J. Meteor. Soc. Japan,   97(4), 787-803.（Date：2019/04/19）（DOI：https://doi.org/10.2151/jmsj.2019-044）（Acknowledgement：SIP）（Cited：web of science 1 times・google scholar 5 times）　PDF ★

• Nishi, A., H. Kusaka, L. L. Vitanova, and Y. Imai, 2019: Contributions of Foehn and Urban Heat Island to the Extreme High-Temperature Event in Niigata City during the Night of 23–24 August 2018. SOLA,  15, 132-136.（Date：2019/05/27）（DOI：https://doi.org/10.2151/sola.2019-024）（Acknowledgement：CCS・ERTDF）（Cited：web of science 7 times・google scholar 10 times）　PDF

• Kusaka, H., A. Nishi, M. Mizunari, and H. Yokoyama, 2019: Urban Impacts on Spatiotemporal Pattern of Short-Duration Convective Precipitation in a Coastal City Adjacent to a Mountain range. Quart. J. Roy. Meteor. Soc., 2237-2254.（Date：2019/05/26）（DOI：https://doi.org/10.1002/qj.3555）（Acknowledgement：CCS・JSPS・S-8）（Cited：web of science 19 times・google scholar 24 times）　PDF ★

• Sato, T., O. Tatebe, and H. Kusaka, 2019: In-situ Data Analysis System for High Resolution Meteorological Large Eddy Simulation Model. 6th IEEE/ACM International Conference on Big Data Computing, Applications and Technologies (BDCAT’19), 155-158.（Date：Online 2019/12/02）（DOI：doi/pdf/10.1145/3365109.3368769）（Acknowledgement：JSPS）（Cited：web of science - times・google scholar 4 times）

<In Japanese>

• Kusaka, H., K. Igari, R. Kokubo, T. Sato, and Q. V. Doan,  2019: 土地利用と人間活動が都市中心部の気温と暑さ指数の分布特性に及ぼす影響. E-Journal GEO,  14(1), 180-196.（Date：2019/07/03）（Acknowledgement：SI-CAT）（Cited：web of science - times・google scholar 0 times）　PDF

• Dang, T. N., Q. V. Doan, H. Kusaka, T. S. Xerxes, and Y. Honda, 2018: Green Space and Deaths Attributable to the Urban Heat Island Effect in Ho Chi Minh City. A Publication of the American Public Health Association,  108(52), S139-S143.（Date：2018/04/26）（DOI：10.2105/AJPH.2017.304123）（Cited：web of science 49 times・google scholar 86 times）　PDF

• Suzuki-Parker, A., Y. Miura, H. Kusaka, and M. Kureha, 2018: Assessing the sustainability of ski fields in southern Japan under global warming. Advances in Meteorology, Article ID 8529748. 10 pages.（Date：2018/09/12）（DOI：10.1155/2018/8529748）（Acknowledgement： Sousei・SI-CAT）（Cited：web of science 3 times・google scholar 6 times）　PDF

• Doan, Q. V., and H. Kusaka, 2018: Projections of Urban Climate in the 2050s in a Fast-Growing City in Southeast Asia: the Greater Ho Chi Minh City Metropolitan Area, Vietnam. International Journal of Climatology,  38(11), 4155-4171.（Date：2018/07/27）（DOI：10.1002/joc.5559）（Acknowledgement：CCS・SI-CAT）（Cited：web of science 34 times・google scholar 50 times）　PDF ★

• Vitanova, L. L., and H. Kusaka, 2018: Study on the urban heat island in Sofia City: Numerical simulations with potential natural vegetation and present land use data. Sustainable Cities and Society, 40, 110-125.（Date：2018/07/01）（DOI：10.1016/j.scs.2018.03.012）（Acknowledgement：CCS・SI-CAT）（Cited：web of science 15 times・google scholar 26 times）　PDF ★

<In Japanese>

• Sato, T., and H. Kusaka, 2018: 気象学RANSモデルと翼非回転風車モデルを用いた風車後流による風速欠損の再現性（気象学 LESモデルとの比較）. 日本風工学会論文集,  43(4), 131-142.（Date：2018/10/01）（Acknowledgement：NEDO）（Cited：web of science - times・google scholar 1 times）

• Takane, Y., H. Kusaka, H. Kondo, M. Okada, M. Takaki, S. Abe, S. Tanaka, K. Miyamoto, Y. Fuji, and T. Nagai, 2017: Factors causing climatologically high temperatures in a hottest city in Japan: a multi-scale analysis of Tajimi. International Journal of Climatology, 37, 1456-1473.（Date：2017/03/02）（DOI： 10.1002/joc.4790）（Acknowledgement：CCS・Tajimi City・JSPS）（Cited：web of science 3 times・google scholar 9 times）　PDF ★

• Takane, Y., H. Kondo, H. Kusaka, J. Katagi, O. Nagafuchi, K. Nakazawa, N. Kaneyasu, and Y. Miyakami, 2017: Foehnlike wind with a traditional foehn effect plus dry-diabatic heating from the ground surface contributing to high temperatures at the end of a leeward area. Journal of Applied Meteorology and Climatology, 56(7), 2067–2079.（Date：2017/07/07）（Acknowledgement：CCS・JSPS）（Cited：web of science 7 times・google scholar 10 times）　PDF

<In Japanese>

• Ito, J., N. Nakayoshi, T. Yamashiro, K. Ogawa, Y. Takane, and H. Kusaka, 2017: 統計解析及び現地微気象観測に基づく四万十市での国内最高気温発生要因の検討. 土木学会論文集B1（水工学）, 72(4), 73-78.（Date：2017/01/31）（Cited：web of science - times・google scholar 3 times）　PDF

• Okada, M., M. Okada, and H. Kusaka, 2016: Dependence of Atmospheric Cooling by Vegetation on Canopy Surface Area During Radiative Cooling at Night: Physical Model Evaluation Using a Polyethylene Chamber. Journal of Agricultural Meteorology, 72(1), 1-9.（Date：2016/03/10）（DOI：10.2480/agrmet.D-15-00015）（Acknowledgement：RECCA）（Cited：web of science 3 times・google scholar 7 times）　PDF

• Doan, Q. V., and H. Kusaka, 2016: Numerical study on regional climate change due to the rapid urbanization of greater Ho Chi Minh City''s metropolitan area over the past 20 years. International Journal of Climatology, 36(10), 3633–3650.（Date：2016/08/01）（DOI：10.1002/joc.4582）（Acknowledgement：CCS）（Cited：web of science 26 times・google scholar 37 times）　PDF ★

• Doan, Q. V., H. Kusaka, and Q. B. Ho, 2016: Impact of future urbanization on temperature and thermal comfort index in a developing tropical city: Ho Chi Minh City. Urban Climate, 17, 20-31.（Date：2016/06/08）（DOI：10.1016/j.uclim.2016.04.003）（Acknowledgement：CCS）（Cited：web of science 38 times・google scholar 62 times）　PDF

• Takane, Y., H. Kusaka, and H. Kondo, 2015: Investigation of a recent extreme high-temperature event in the Tokyo metropolitan area using numerical simulations: the potential role of a ''hybrid'' foehn wind. Quarterly Journal of the Royal Meteorological Society, 141(690), 1857-1869.（Date：2015/07/01）（DOI：10.1002/qj.2490）（Acknowledgement：RECCA・S-8・CCS）（Cited：web of science 27 times・google scholar 39 times）　PDF ★

• Akimoto,Y., and H. Kusaka, 2015: A climatological study of fog in Japan based on event data. Atmos. Res., 151, 200-211.（Date：2015/01/01）（DOI：10.4157/grj.83.324）（Acknowledgement：Sousei・RECCA）（Cited：web of science 31 times・google scholar 55 times）　PDF

• Kusaka, H., K. Nawata, A. Suzuki-Parker, Y. Takane, and N. Furuhashi, 2014: Mechanism of precipitation increase with urbanization in Tokyo as revealed by ensemble climate simulations. J. Appl. Meteor. Clim., 53, 824-839.（Date：2014/04/01）（DOI：http://dx.doi.org/10.1175/JAMC-D-13-065.1）（Acknowledgement：Sousei・RECCA・CCS）（Cited：web of science 70 times・google scholar 96 times）　PDF ★

• Takane, Y., H. Kusaka, and H. Kondo, 2014: Climatological study on mesoscale extreme high temperature events in the inland of the Tokyo Metropolitan Area, Japan, during the past 22 years. International Journal of Climatology, 34, 3926-3938.（Date：2014/02/01）（DOI：10.1002/joc.3951）（Acknowledgement：S-8・RECCA・CCS）（Cited：web of science 21 times・google scholar 28 times）　PDF

• Okada, M. M. Okada, and H. Kusaka, 2014: A Polyethylene Chamber for Use in Physical Modelling of the Heat Exchange on Surfaces Exposed to a Radiation Regime. Boundary-Layer Meteorology, 153, 305-325.（Date：2014/06/12）（Acknowledgement： RECCA）（Cited：web of science 1 times・google scholar 3 times）　PDF

<In Japanese>

• Okada, M., H. Kusaka, M. Takaki, S. Abe, Y. Takane, Y. Fuji, and T. Nagai, 2014: 夏季における岐阜県多治見市の気温分布調査. 天気, 61(1), 23-29.（Date：2014/01/31）（Acknowledgement：RECCA）（Cited：web of science - times・google scholar 6 times）　PDF

• Kuno, Y., and H. Kusaka, 2014: 濃尾平野周辺における夏季強雨の気候学的特性. 天気,  61(8), 661-667.（Date：2014/08/31）（Acknowledgement：RECCA）（Cited：web of science - times・google scholar 0 times）　PDF

• Takane, Y., Y. Ohashi, H. Kusaka, Y. Shigeta, and Y. Kikegawa, 2013: Effects of Synoptic-Scale Wind under the Typical Summer Pressure Pattern on the Mesoscale High-Temperature Events in the Osaka and Kyoto Urban Areas by the WRF Model. J. Appl. Meteor.Climatol., 52, 1764-1778.（Date：2013/08/01）（DOI：http://dx.doi.org/10.1175/JAMC-D-12-0116.1）（Acknowledgement：S-8・RECCA・CCS）（Cited：web of science 16 times・google scholar 25 times）　PDF

• Okada, M., and H. Kusaka, 2013: Proposal of  a new equation to estimate globe temperature in an urban park environment. J. Agric. Meteol., 69(1), 23-32.（Date：2013/09/01）（Acknowledgement：RECCA・S-8）（Cited：web of science 20 times・google scholar 32 times）　PDF

<In Japanese>

• Takane, Y., H. Kusaka, M. Takaki, M. Okada, S. Abe, T. Nagai, Y. Fuji, and S. Iizuka, 2013: 岐阜県多治見市における夏季晴天日の暑熱環境の実態調査と領域気象モデルWRFを用いた予測実験 ー物理モデルと水平解像度に伴う不確実性の検討ー. 地理学評論, 86-1, 14-37.（Date：2013/01/01）（Acknowledgement：RECCA・CCS）（Cited：web of science - times・google scholar 1 times）　PDF

• Hirata, W., and H. Kusaka, 2013: 二つ玉低気圧通過に伴う降水の気候学的研究. 地理学評論, 86-4, 338-353.（Date：2013/07/01）（Acknowledgement：S-8）（Cited：web of science - times・google scholar 0 times）　PDF

• Okada, M., M. Okada, and H. Kusaka, 2013: 岡田・日下の黒球温度推定式の広域適用とパラメータ調整. 日本ヒートアイランド学会論文集, 8, 13-21.（Date：2013/11/14）（Acknowledgement：Sousei・RECCA）（Cited：web of science - times・google scholar 4 times）　PDF

• Kusaka. H., N. Iijima, T. Ihara, M. Hara, Y. Takane, and S. Iizuka, 2013: 2070年代８月を対象とした東京・名古屋・大阪における熱中症および睡眠困難の将来予測. 日本建築学会環境系論文集, 78(693), 873-881.（Date：2013/11/14）（DOI：http://doi.org/10.3130/aije.78.873）（Acknowledgement：RECCA・S-8・CCS）（Cited：web of science - times・google scholar 5 times）　PDF

• Okada, M., Y. Wakazuki, S. Inukai, R. Hirota, and H. Kusaka, 2013: 初冬早朝における緑地内外の気温分布調査 －代々木公園・明治神宮の事例－. 日本ヒートアイランド学会論文集, 8, 7-12.（Date：2013/04/16）（Acknowledgement：JST・S-8）（Cited：web of science - times・google scholar 0 times）　PDF

• Kusaka, H., M. Hara, and Y. Takane, 2012: Urban climate projection by the WRF model at 3-km horizontal grid increment: Dynamical downscaling and predicting heat stress in the 2070’s August for Tokyo, Osaka, and Nagoya metropolises. J. Meteor. Soc. Japan., 90B, 47-63.（Date：2012/06/09）（DOI：10.2151/jmsj.2012-B04）（Acknowledgement：S5・CCS）（Cited：web of science 129 times・google scholar 193 times） PDF ★

<In Japanese>

• Kusaka, H., Y. Takane, S. Abe, M. Takaki, Y. Shigeta, Y. Ohashi, and B. Baoyin, 2012: オープンスペースで実施した定点観測によって捉えられた夏季晴天日におけるつくば市のヒートアイランド：都市内外の気温差に関する不確実性の評価. 日本ヒートアイランド学会論文集, 7, 1-9.（Date：2012/07/27）（Acknowledgement：JSPS・RECCA）（Cited：web of science 0 times・google scholar 4 times）　PDF

• Takane, Y., H. Kusaka, and M. Hara, 2012: IPCC SRES A2シナリオ下での三大都市圏の夏季気候の将来予測: WRF-UCMによる力学的ダウンスケーリング. 日本ヒートアイランド学会論文集, 7, 18-26.（Date：2012/11/29）（Acknowledgement：RECCA・S-8・CCS）（Cited：web of science 0 times・google scholar 2 times）　PDF

• Kuroki, M., S. Iizuka, S. Ito, H. Kusaka, and M. Hara, 2012: 複数のIPCC SRESシナリオに基づく2030年代・2050年代・2070年代・2090年代の名古屋都市圏温熱環境・風環境の将来予測の比較 領域気象モデルWRFによる名古屋都市圏の温熱環境シミュレーション（その3）. 日本建築学会環境系論文集, 77(678), 689-697.（Date：2012/04/01）（Cited：web of science - times・google scholar 1 times）　PDF

• Takane, Y., and H. Kusaka, 2011: Formation Mechanisms of the Extreme High Surface Air Temperature of 40.9 degrees C Observed in the Tokyo Metropolitan Area: Considerations of Dynamic Foehn and Foehnlike Wind. Journal of Applied Meteorology and Climatology, 50, 1827-1841.（Date：2011/09/01）（DOI：https://doi.org/10.1175/JAMC-D-10-05032.1）（Acknowledgement：S-5・S-8）（Cited：web of science 53 times・google scholar 86 times）　PDF

• Kusaka, H., Y. Miya, and R. Ikeda, 2011: Effects of Solar Radiation Amount and Synoptic-scale Wind on the Local Wind "Karakkaze" over the Kanto Plain in Japan, Journal of the Meteorological Society of Japan, 89, 327-340.（Date：2011/08/25）（DOI：10.2151/jmsj.2011-403）（Acknowledgement：JMA-MRI・S-8）（Cited：web of science 6 times・google scholar 6 times）　PDF

• Hiroyuki Kusaka, Tomoyuki Takata, Yuya Takane, 20010: Reproducibility of Regional Climate in Central Japan Using the 4-km Resolution WRF Model. SOLA, 6, 113-116.（Date：2010/09/04）（DOI：10.2151/sola.2010-029）（Acknowledgement：S-5・CCS）（Cited：web of science 11 times・google scholar 15 times）　PDF

• Ikeda, R., and H. Kusaka, 2010: Proposing the Simplification of the Multilayer Urban Canopy Model: Intercomparison Study of Four Models. Journal of Applied Meteorology and Climatology, 49, 902-919.（Date：2010/05/01）（DOI：https://doi.org/10.1175/2009JAMC2336.1）（Acknowledgement：S-5・JSPS）（Cited：web of science 17 times・google scholar 28 times）　PDF

<In Japanese>

• Kusaka, H., T. Hanyu, and K. Nawata, 2010: 東京で観測された局地豪雨の実態調査 : 2002年8月2日および2004年8月10日の事例の比較解析. 日本ヒートアイランド学会誌, 5, 1-10.（Date：2010/07/17）（Cited：web of science - times・google scholar 4 times）　Detail

• Iizuka, S., K. Kanehara, H. Kusaka, M. Hara, and Y. Akimoto, 2010: 夏季の名古屋の熱環境を対象とした現状再現の精度検証と疑似温暖化手法を併用した将来予測の試み: 領域気象モデルWRFによる名古屋都市圏の温熱環境シミュレーション（その１）. 日本建築学会環境系論文集, 75, 87-93.（Date：2010/07/17）（Cited：web of science - times・google scholar 14 times）　PDF

• Kusaka, H., T. Hanyu, and K. Nawata, 2010: GPS可降水量に着目した局地豪雨の事例解析 : 2000年7月4日に東京で観測された事例. 地理学評論 Ser. A, 83, 479-492.（Date：2010/09/01）（Acknowledgement：S-5）（Cited：web of science - times・google scholar 2 times）　PDF

• Akimoto, Y., and H. Kusaka, 2010: 入力データおよび地表面パラメータの変化に対する領域気象モデルWRFの感度実験 : 夏季晴天日の関東平野を対象として. 地理学評論 Ser. A, 83, 324-340.（Date：2010/05/01）（Acknowledgement：S-5）（Cited：web of science - times・google scholar 5 times）　PDF

• Kusaka, H., and H. Kitahata, 2009: Synoptic-scale Climatology of Cold Frontal Precipitation Systems during the Passage over Central Japan. SOLA, 5, 61-64.（Date：2009/04/29）（DOI：10.2151/sola.2009‒016）（Cited：web of science 2 times・google scholar 2 times）　PDF

<In Japanese>

• Miya, Y., and H. Kusaka, 2009: 鉛直構造に着目した空っ風の気候学的研究. 地理学評論 Ser. A, 82, 346–355.（Date：2009/07/01）（Acknowledgement：JMA-MRI）（Cited：web of science - times・google scholar 3 times）　PDF