Papers (refereed)
S. Shimokawa and T. Matsuura, 1999, The asymmetry of recirculation of a double gyre in a two layer ocean, J. Oceanogr., 55, 449-462.
S. Shimokawa and H. Ozawa, 2001, On thermodynamics of the oceanic general circulation: entropy increase rate of an open dissipative system and its surroundings, Tellus, A53, 266-277.
H. Ozawa and S. Shimokawa, 2001, Thermodynamics of fluid turbulence: A unified approarch to the maximum transport properties, Phys. Rev., E64, 26303.
S. Shimokawa and H. Ozawa, 2002, On thermodynamics of the oceanic general circulation : irreversible transition to a state with higher rate of entropy production , Quart. J. Roy. Meteor. Soc., 128, 2115-2128.
S. Shimokawa and H. Ozawa, 2007, Thermodynamics of irreversible transitions in the oceanic general circulation, Geophys. Res. Lett., 34, L12606 (pp. 1-5) (doi:10.1029/2007GL030208).
S. Shimokawa and T. Matsuura, 2010, Chaotic behaviors in the response of Q-G oceanic double-gyre to seasonal external forcing, J. Phys. Oceanogr., 40, 1458-1472 (doi: 10.1175/2010JPO4400.1).
T. Murakami, J. Yoshino, T. Yasuda, S. Iizuka, S. Shimokawa, 2011, Atomosphere-Ocean-Wave coupled model performing 4DDA with a tropical cyclone bogussing scheme to calculate storm surges in an inner bay, Asian J. Environ. Disas. Manag., 3, 217-228.
T. Murakami, J. Yoshino, T. Yasuda, S. Iizuka, S. Shimokawa, 2011, A coupled model for highly accurate calculation of storm surge occurring in inner bay, Proc. Solutions to Coastal Disasters 2011, 2011, 10-21 (doi:10.1061/41185(417)2).
S. Shimokawa and T. Matsuura, 2012, Long-term variability and non-linear aspects of the oceanic double-gyre, Proc. Japan Society for Simulation Technology 2012, 2012, 280-284.
S. Shimokawa, T. Matsuura, H. Hashimoto, 2013, Instability and long-term variability of strong current extension in an oceanic double-gyre, Theor. Appl. Mech. Jpn., 61, 23-30.
S. Shimokawa and T. Kayahara, 2013, Difference among data of damage reports of typhoon disaster, J. Disas. Res., 8, 473-483.
S. Shimokawa, T. Kayahara, H. Ozawa, 2014, Maximum potential intensity of typhoon as information for possible natural disaster, Asian J. Environ. Disas. Manag., 6, 69-81.
S. Shimokawa, K. Shiratori, T. Matsuura, 2014, Responses of oceanic double gyre to external wind forcing with noise, Theor. Appl. Mech. Jpn., 62, 49-57.
S. Shimokawa, T. Murakami, S. Iizuka, J. Yoshino, T. Yasuda, 2014, A new typhoon bogusing scheme to obtain the possible maximum typhoon and its application for assessment of impacts of the possible maximum storm surges in Ise and Tokyo Bays in Japan, Nat. Hazards, 74, 2037-2052 (doi:10.1007/s11069-014-1277-2).
K. Hirano, S. Bunya, T. Murakami, S. Iizuka, S. Shimokawa, T. Nakatani, K. Kawasaki, 2014, Prediction of typhoon storm surge flood in Tokyo Bay using unstructured model ADCIRC under global warming scenario, Proc. American Society of Mechanical Engineering 2014 (ISBN: 978-0-7918-4624-7), 4, FEDSM2014-21682 (pp. 1-10) (doi:10.1115/FEDSM2014-21682).
S. Shimokawa, T. Murakami, A. Ukai, H. Kohno, A. Mizutani, K. Nakase, 2014, Relationship between coral distributions and physical variables in Amitori Bay, Iriomote Island, Japan, J. Geophys. Res.: Oceans, 119, 8336-8356 (doi: 10.1002/2014JC010307).
H. Ozawa and S. Shimokawa, 2015, Thermodynamics of a tropical cyclone: generation and dissipation of mechanical energy in a self-driven convection system, Tellus, A67, 1-14 (doi:10.3402/tellusa.v67.24216).
T. Murakami, S. Shimokawa, J. Yoshino, T. Yasuda, 2015, A new index for evaluation of risk of complex disaster due to typhoons, Nat. Hazards, 75, 29-44 (doi:10.1007/s11069-015-1824-5).
S. Shimokawa and T. Matsuura, 2015, Stochastic synchronization in an oceanic double gyre, Theor. Appl. Mech. Jpn., 63, 99-107.
S. Shimokawa, T. Myrakami, H. Kohno and A. Mizutani, 2017, Transport properties of soil particles in Sakiyamawan–Amitoriwan nature conservation area, Iriomote Island, Japan, Geoscience Letters, 4, DOI 10.1186/s40562-017-0084-5.
S. Shimokawa and T. Matsuura, 2018, Chaos excitation and stochastic synchronization in an oceanic double gyre, Theor. Appl. Mech. Jpn., 64, 15-22.
M. Nimura, S. Nishida and K. Kawasaki, T. Murakami, S. Shimokawa, 2020, Storm Surge Inundation Analysis with Consideration of Building Shape and Layout at Ise Bay by Maximum Potential Typhoon, J. Mar. Sci. Eng., 8, doi:10.3390/jmse8121024(pp.16).
M. Nakamura, T. Murakami and H. Kohno, A. Mizutani, S. Shimokawa, 2022, Rapid recovery of coral communities from a mass bleaching event in the summer of 2016, observed in Amitori Bay, Iriomote Island, Japan, Marine Biology, 169, https://doi.org/10.1007/s00227-022-04091-2 (104:1-9).
S. Shimokawa, T. Murakami and H. Kohno, 2023, Coral distribution and diversity in Sakiyamawan–Amitoriwan nature conservation area of Iriomote Island in Japan, Geoscience Letters, 10, https://doi.org/10.1186/s40562-023-00263-0 (6:1-10).
Book Chapters
S. Shimokawa and H. Ozawa, 2005, Thermodynamics of the ocean circulation: a global perspective on the ocean system and living system, Non-equilibrium thermodynamics and the production of entropy: Life, Earth, and beyond (edited by A. Kleidon and R. D. Lorenz, Springer, Berlin, pp.260), ISBN 3-540-22495-5, 121-134.
S. Shimokawa and Y. Takeuchi, 2007, Uncertainty of flood risks and public understanding of probable rainfall, A better integrated governance of disaster risks: Toward resilient society to emerging disaster risks in mega-cities (edited by S. Ikeda, T. Fukuzono, T. Sato, TERRAPUB, Tokyo, pp. 270), ISBN 978-4-88704-140-0, 109-119.
T. Fukuzono, T. Sato, Y. Takeuchi, K. Takao, S. Shimokawa, I. Suzuki, G. Zhai, K. Terumoto, T. Nagasaka, K. Seo, S. Ikeda, 2007, Participatory Flood Risk Communication Support System (Pafrics), A better integrated governance of disaster risks: Toward resilient society to emerging disaster risks in mega-cities (edited by S. Ikeda, T. Fukuzono, T. Sato, TERRAPUB, Tokyo, pp.270), ISBN 978-4-88704-140-0,199-211.
S. Shimokawa and H. Ozawa, 2011, Thermodynamics of the oceanic general circulation - Is the abyssal circulation a heat engine or a mechanical pump ?, Thermodynamics - Interaction Studies - Solids, Liquids and Gases (edited by J. C. Moreno, InTech, Rijika, pp.918), ISBN 978-953-307-563-1, 147-162.
H. Ozawa and S. Shimokawa, 2014, The time evolution of entropy production in nonlinear fluid system, Beyond the Second Law: Entropy Production and Non-Equilibrium Systems (edited by R. C. Dewer, C. Lineweaver, R. K. Niven, K. Regenauer-Lieb, Springer, Berlin, pp.434), ISBN 978-3-642-40153-4, 113-128.
T. Kayahara, S. Shimokawa, R. Misumi, 2014, A typhoon disaster database system, Natural Disasters - Typhoons and Landslides - Risk Prediction, Crisis Management and Environmental Impacts (edited by K. Linwood, Nova Science Publishers Inc., New York, pp.205), ISBN 978-1-63463-348-2, 151-165.
S. Shimokawa, T. Murakami, A. Ukai, H. Kohno, A. Mizutani, K. Nakase, 2015, Thermodynamics of coral diversity: Diversity index of coral distributions in Amitori Bay, Iriomote Island, Japan and intermediate disturbance hypothesis, Recent Advances in Thermo and Fluid Dynamics (edited by M. Gorji-Bandpy, InTech, Rijeka, pp. 340), ISBN 978-953-51-2239-5, 173-194.
S. Shimokawa and T. Matsuura, 2016, Oceanic oscillation phenomena: Relationships with synchronization and stochastic resonance, Geophysics: Principles, applications and emerging technologies (edited by G. Aiello, Nova Science Publishers Inc., New York, 195 pp.), ISBN: 978-1-63484-831-2, 123-136.
T. Murakami, S. Shimokawa and T. Ogasawara, 2018, Numerical analysis of changes in ocean currents and density structures in Miyako Bay, Japan, Before and after the Great East Japan Earthquake, Coastal Management: Global Challenges & Innovations (edited by R.R. Krishnamurthy, M.P. Jonathan, S. Srinivasalu, and B. Glaeser eds., Elsevier, Amsterdam, 548 pp.), ISBN-978-0-12-810473-6, 435-448.
S. Shimokawa, H. Kohno, A. Mizutani, M. Nakamura and W. Doi, 2020, Iriomote Island, Japan, Geophysical Approach to Marine Coastal Ecology -The Case of Iriomote Island, Japan (edited by S. Shimokawa, T. Murakami and H. Kohno, Springer, Singapore, 273 pp.), ISBN-978-981-15-1129-5, 3-35.(*)
J. Yoshino, T. Murakami, A. Ukai, H. Kohno, S. Shimokawa, K. Nakase, A. Mizutani and T. Yasuda, 2020, Dynamical properties of coastal currents in the northwestern part of Iriomote Island Part 1 - Sakiyama and Amitori bays -, Geophysical Approach to Marine Coastal Ecology -The Case of Iriomote Island, Japan (edited by S. Shimokawa, T. Murakami and H. Kohno, Springer, Singapore, 273 pp.), ISBN-978-981-15-1129-5, 55-73.(*)
J. Yoshino, T. Murakami, A. Ukai,H. Kohno,S. Shimokawa,K. Nakase and A. Mizutani, 2020, Dynamical properties of coastal currents in the northwestern part of Iriomote Island Part 2 - Funauki and Shirahama bays -, Geophysical Approach to Marine Coastal Ecology -The Case of Iriomote Island, Japan (edited by S. Shimokawa, T. Murakami and H. Kohno, Springer, Singapore, 273 pp.), ISBN-978-981-15-1129-5, 75-102.(*)
T. Okabe, T. Murakami, H. Kohno, A. Mizutani and S. Shimokawa, 2020, Sediment monitoring in Amitori and sakiyama bays, Geophysical Approach to Marine Coastal Ecology -The Case of Iriomote Island, Japan (edited by S. Shimokawa, T. Murakami and H. Kohno, Springer, Singapore, 273 pp.), ISBN-978-981-15-1129-5, 103-125.(*)
S. Shimokawa, T. Murakami, H. Kohno and A. Mizutani, 2020, Transport properties of soil particles in Sakiyama and Amitori bays, Geophysical Approach to Marine Coastal Ecology -The Case of Iriomote Island, Japan (edited by S. Shimokawa, T. Murakami and H. Kohno, Springer, Singapore, 273 pp.), ISBN-978-981-15-1129-5, 127-138.(*)
H. Obanawa, Y. Tabayashi, T. Murakami, H. Kohno, S. Shimokawa and A. Mizutani, 2020, Underwater three dimensional measurements, Geophysical Approach to Marine Coastal Ecology -The Case of Iriomote Island, Japan (edited by S. Shimokawa, T. Murakami and H. Kohno, Springer, Singapore, 273 pp.), ISBN-978-981-15-1129-5, 139-151.(*)
S. Shimokawa, T. Murakami, A. Ukai, H. Kohno, A. Mizutani and K. Nakase, 2020, Coral distributions and physical environments in Amitori Bay, Geophysical Approach to Marine Coastal Ecology -The Case of Iriomote Island, Japan (edited by S. Shimokawa, T. Murakami and H. Kohno, Springer, Singapore, 273 pp.), ISBN-978-981-15-1129-5, 155-170.(*)
S. Shimokawa, H. Kohno, T. Murakami and A. Mizutani, 2020, Coral distributions and physical environments in Sakiyama Bay, Geophysical Approach to Marine Coastal Ecology -The Case of Iriomote Island, Japan (edited by S. Shimokawa, T. Murakami and H. Kohno, Springer, Singapore, 273 pp.), ISBN-978-981-15-1129-5, 171-184.(*)
A. Ukai, T. Murakami, A. Mizutani, K. Nakase, S. Shimokawa and H. Kohno, 2020, Estimation technique for horizontal distribution of coral, Geophysical Approach to Marine Coastal Ecology -The Case of Iriomote Island, Japan (edited by S. Shimokawa, T. Murakami and H. Kohno, Springer, Singapore, 273 pp.), ISBN-978-981-15-1129-5, 185-195.(*)
K. Nakase, T. Murakami and H. Kohno, A. Ukai, A. Mizutani, S. Shimokawa, 2020, Distribution of Enhalus acoroides according to waves and currents , Geophysical Approach to Marine Coastal Ecology -The Case of Iriomote Island, Japan (edited by S. Shimokawa, T. Murakami and H. Kohno, Springer, Singapore, 273 pp.), ISBN-978-981-15-1129-5, 197-215.(*)
T. Mukarami, H. Kohno, A. Mizutani and S. Shimokawa, 2020, Numerical analysis of initial dynamic state of bundle of Acroporidae spawning in Amitori Bay, Geophysical Approach to Marine Coastal Ecology -The Case of Iriomote Island, Japan (edited by S. Shimokawa, T. Murakami and H. Kohno, Springer, Singapore, 273 pp.), ISBN-978-981-15-1129-5, 219-230.(*)
T. Murakami, H. Kohno, A. Mizutani and S. Shimokawa, 2020, Numerical analysis of dispersals of Enhalus acoroides seeds and fruits in the northwest sea area of Iriomote Island, Geophysical Approach to Marine Coastal Ecology -The Case of Iriomote Island, Japan (edited by S. Shimokawa, T. Murakami and H. Kohno, Springer, Singapore, 273 pp.), ISBN-978-981-15-1129-5, 231-247.(*)
W. Doi, T. Murakami, A. Mizutani, S. Shimokawa and H. Kohno, 2020, Numerical analysis of dynamic state of Coenobita brevimanus‘s larvae in Amitori Bay, Geophysical Approach to Marine Coastal Ecology -The Case of Iriomote Island, Japan (edited by S. Shimokawa, T. Murakami and H. Kohno, Springer, Singapore, 273 pp.), ISBN-978-981-15-1129-5, 261-273.(*)
(*)Geophysical Approach to Marine Coastal Ecology -The Case of Iriomote Island, Japan
Proceedings (over 2 pages)
T. Matsuura and S. Shimokawa,1995, Simulation of El Nino events in 1986/87 and 1991/92, Proc. International Workshop on Numerical Prediction of Oceanic Variation, 203-207 (Tokyo, Japan).
S. Shimokawa and T. Matsuura, 1995, The impact of El Nino on the Northern Pacific through the ocean, Proc. Wadati Conference on Global Change and the Polar Climate, 130-133 (Tsukuba, Japan).
T. Matsuura and S. Shimokawa, 1996, Nonlinear resonace between ENSO and annual cycles in an oceanic general circulation model, The Preprint Volume of the Eighth Conference on Air-Sea Interaction and Symposium on GOALS, 190-194 (Boston, USA).
S. Shimokawa and H. Ozawa, 2001, On the thermodynamics of the oceanic general circulation: entropy increase rate of an open dissipative system and its surroundings, Proc. the 2nd Wadati Conference, 245-248 (Tsukuba, Japan).
S. Shimokawa and H. Ozawa, 2004, Irreversible transition to a state with higher entropy production in oceanic general circulation, Proc. International Congress of Theoretical and Applied Mechanics 2004, ISBN 83 89697-01-1, CD-ROM, MS6-11732 (pp.1-2) (Warsaw, Poland). (contained also in Mechanics of the 21st Century (edited by W. Gutkowski and A. T. Kowalewski, Springer, 2005), ISBN 978-1-4020-3456-5, CD-ROM, MS6-11732)
S. Shimokawa and H. Ozawa, 2008, Thermodynamics of irreversible transitions in the oceanic general circulation, Proc. International Congress of Theoretical and Applied Mechanics 2008, ISBN 978-0-9805142-1-6, CD-ROM, FM12-11357 (pp.1-2) (Adelaide, Australia).(contained also in Mechanics Down Under (edited by J. R. Denier and M. D. Finn, Springer, 2013), ISBN 978-94-007-5967-1, CD-ROM, FM12-11357)
S. Shimokawa and T. Matsuura, 2012, Entrainment and Intermittency in the Response of a Quasi-geostrophic Oceanic Double Gyre to Seasonal External Forcing, Proc. International Congress of Theoretical and Applied Mechanics 2012, ISBN 978-988-16022-3-7, CD-ROM, FM09-012 (pp.1-2) (Beijing, China).
T. Matsuura and S. Shimokawa, 2012, Long-Term Variations and Abrupt Changes in a Strong Eastward Jet in a Double-Gyre Ocean Forced by Seasonally Varying Wind Stress, Proc. International Congress of Theoretical and Applied Mechanics 2012, ISBN 978-988-16022-3-7, CD-ROM, FM09-014 (pp.1-2) (Beijing, China).
H. Ozawa and S. Shimokawa, 2013, General Characteristics of entropy production in nonlinear dynamic system, Proc. the 12th Joint European Thermodynamics Conference (JETC2013, ISBN: 978-88-89252-22-2), 121-126 (Brescia, Italy).
K. Hirano, S. Bunya, T. Murakami, S. Iizuka, S. Shimokawa, T. Nakatani, K. Kawasaki, 2014, Prediction of typhoon storm surge flood in Tokyo Bay using unstructured model ADCIRC under global warming scenario, Proc. American Society of Mechanical Engineering 2014 (ISBN: 978-0-7918-4624-7), 4, pp. V01DT28A008; 10 pages (doi:10.1115/FEDSM2014-21682) (Chicago, USA).
S. Shimokawa and T. Matsuura, 2016, Oceanic oscillation phenomena related syhchronization and stochastic resonance, Proc. International Congress of Theoretical and Applied Mechanics 2016 (ISBN NR16-127/2016E-EPUB, USB), FM09-1.04.54 (Montréal, Canada).
K. Kawasaki, M. Nimura and T. Murakami, S.Shimokawa, 2019, Application of tsunami simulator in oceans and coastal areas “T-STOC”to storm surge simulation, Proc. The 29th International Ocean and Polar Engineering Conference, 29, 3211-3217.
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