Naomi HARADA

Profile

Naomi HARADA

Deputy Director, RCGC
Marine Ecosystem Dynamics Research Group
Group Leader (concurrent)
Principal Research Scientist

Address

Research and Development Center for Global Change (RCGC)
JAMSTEC
2-15 Natsushima, Yokosuka, 237-0061, Japan
TEL:+81-46-867-9504
FAX:+81-46-867-9455

Research Interests

Main Professional Interests

  • Organic Geochemistry
  • Paleoceanography
  • Biogeochemical oceanography

Main Research Interests

  • Understanding changes in the surface water condition (temperature and salinity), biological productivity, and intermediate-deep water ventilation over orbital and millennial time scales by using marine sediment cores
  • Understanding biological and biogeochemical changes associated with climate change by sediment trap and other time-series experiments in the subarctic North Pacific, Bering Sea and Arctic Ocean

Curriculum Vitae

Education

1991~1995 Organic Geochemistry, Nagoya University
Level: Doctor course

Academic position

2014~ Deputy Director, RCGC / Group leader (concurrent) : Japan Agency for Marine-Earth Science and Technology
2009~ Team leader: Japan Agency for Marine-Earth Science and Technology
2004~2009 Sub group leader: Japan Agency for Marine-Earth Science and Technology
1995~2004 Researcher: Japan Agency for Marine-Earth Science and Technology
1991~1992 Technical staff: National Institute of Polar Research, Sep. 1991-Mar. 1992 (The 33th Japan Antarctic Research Expedition)

A member of committee

2014~ Member of Program committee, Japan Geoscience Union
2014~ Member of a board of directors, Japan Geoscience Union
2013~ A Secretary of The Oceanographic Society of Japan
2013~ Science Steering Committee of Ecosystem Studies of Sub-Arctic Seas (Regional program of (Integrated Marine Biogeochemistry and Ecosystem Research; IMBER)
2012~ A Council and Secretary of the Society for Paleo-Geosciences
2012~ A member of Science Council for Scientific Research on Innovative area, Ministry of Education, Culture, Sports, Science and Technology, Japan
2012~ An Executive official of Japan Geoscience Union (Atmospheric and Hydrospheric Sciences)
2012~ Editorial Board, The Scientific World Journal
2012~ A Council and Secretary (in charge of public relations and web site) of the Geochemical Society of Japan
2010

A member of steering committee of topical research study on Japan Antarctic Research Expedition of National Institute of Polar Research

2009 Lecturer of University of Ryukyu
2009 Lecturer of Kobe University
2008-2010 A peer reviewer of Grant-in-Aid for Scientific Research
2008 Lecturer of Shizuoka University
2007-2009, 2010-2012 A member of Subdivision on Ocean Development, Council for Science and Technology, Ministry of Education, Culture, Sports, Science and Technology, Japan
2007~ An Editor of Journal of Oceanography
2007~ A member of Japanese committee of the Past Global Changes of IGBP/WCRP, Science council of Japan
2006~ A member of Japanese committee of the International Association of Geochemistry, Science council of Japan
2006-2007 A member of future plan committee of the Geochemical Society of Japan
2004- A member of judging committee for Ph. D dissertation of Univ. of Concepcion, Chile
2004- A member of judging committee for Ph. D dissertation of Kyushu University

Publications

  • Harada, N. (2016) Review: Potential catastrophic reduction of sea-ice in the western Arctic Ocean –its impact on the biogeochemical cycles and marine ecosystems– Global and Planetary Change, 136, 1-17, http://dx.doi.org/10.1016/j.gloplacha.2015.11.005 [Invited review article]
  • Lamy F., H.W. Arz, R. Kilian, C.B. Lange, L. Lembke-Jene, M. Wengler, J. Kaiser, O. Baeza Urrea, I.R. Hall, N. Harada & R. Tiedemann (2015) Glacial reduction and millennial-scale variations in Drake Passage throughflow PNAS doi/10.1073/pnas.1509203112.
  • Onodera, J., E. Watanabe, S. Nishino, N. Harada (2014) Distribution and vertical fluxes of silicoflagellates, eburidians and the endoskeletal dinoflagellate Actiniscus in the in the western Arctic Ocean. Polar Biology (accepted) 22 Aug 2015
  • Onodera J., E. Watanabe, N. Harada, M. Honda (2015) Diatom flux reflects water-mass conditions on the southern Northwind Abyssal Plain, Arctic Ocean. Biogeosciences, 12, 1373-1385.
  • Ikenoue T., K. R. Bjørklund, S. B. Kruglikova, J. Onodera, K. Kimoto, N. Harada (2015) Flux variations and vertical distributions of siliceous Rhizaria (Radiolaria and Phaeodaria) in the western Arctic Ocean: indices of environmental changes. Biogeosciences bg-2014-495. 北極海特集号「Catastrophic reduction of sea ice in the Arctic Ocean – its impact on the marine organisms and ecosystems in the polar region」
  • Matsuno K., A. Yamaguchi, A. Fujiwara, J. Onodera, E. Watanabe, N. Harada, T. Kikuchi (2015) Seasonal changes in the population structure of dominant planktonic copepods collected using a sediment trap moored in the western Arctic Ocean. Journal of Natural History (accepted 2015/2/6). doi:10.1080/00222933.2015.1022613.
  • Placencia, J.A., N. Harada, R. Torres, C.B. Lange, D. Hebbeln (2010) Surface circulation patterns and the pathways of sea surface carbon dioxide (CO2) off northern Chile (~27.5°S) between 30 and 10 kyr BP: global and/or local forcing? Climate of the Past Duscussions, 6, 347-368. www.clim-past-discuss.net/6/347/2010/
  • Watanabe, E., J. Onodera, N. Harada, M. C. Honda, K. Kimoto, T. Kikuchi, S. Nishino, K. Matsuno, A. Yamaguchi, A. Ishida, M. J. Kishi (2014) Enhanced role of eddies in the Arctic marine biological pump, Nature Comm., doi: 10.1038/ncomms4950.
  • Seki, O. J. Bendle, N. Harada, M. Kobayashi, S. Nagao, K. Sawada, T. Sakamoto (2014) Assessment and calibration of TEX86 paleothermometry in the Sea of Okhotsk sub-polar North Pacific region: Implications for paleoceanography. Progress in Oceanography, 126, 254-266.
  • Park, Y.-H., M. Yamamoto, S.-I. Nam, T. Irino, L. Polyak, N. Harada, K. Nagashima, B.-K. Khim, K. Chikita, S.-I. Saitoh (2014) Distribution, source and transportation of glycerol dialkyl glycerol tetraethers in surface sediments from the western Arctic Ocean and the northern Bering Sea. Marine Chemistry,165, 10-24.
  • Okazaki Y., K. Kimoto, H. Asahi, M. Sato, Y. Nakamura, N. Harada (2014) Glacial to deglacial ventilation and productivity changes in the southern Okhotsk Sea. Paleogeograpy, Paleoclimatology, Paleoecology, 395, 53-66.
  • Harada, N., K. Katsuki, M. Nakagawa, A. Matsumoto, O. Seki, J. A. Addison, B. P. Finny, M. Sato (2014) Holocene sea surface temperature and sea ice extent in the Okhotsk and Bering Seas. Progress in Oceanography 126, 242-253.
  • Bae, S.W., K.E. Lee, Y.G. Park, K. Kimoto, K. Ikehara, N. Harada (2014) Sea surface temperature and salinity changes near the Soya Strait during the last 19 ka, Quaternary International 344, 200-210.
  • Shiroya K., Y. Yokoyama, S. Obrochta, N. Harada, Y. Miyairi, H.i Matsuzaki (2013) Melting history of the Patagonian Ice Sheet during Termination I inferred from marine sediments. Geochemical Journal, 47, 107-117.
  • Matsuno K., A. Yamaguchi, A. Fujiwara, J. Onodera, I. Imai, S. Chiba, N. Harada, T. Kikuchi (2013) Seasonal changes in mesozooplankton swimmers collected by sediment trap moored at a single station of Northwind Abyssal Plain in the western Arctic Ocean. Journal of Plankton Research 36, 490–502, doi:10.1093/plankt/fbt092.
  • Harada N., C. B. Lange, M. E. Marchant, M. Sato, N. Ahagon, S. Pantoja, U. Ninnemann (2013) Deglacial–Holocene changes in sea surface temperature, water mass characteristics, and the nitrogen cycle in the Pacific entrance of Strait of Magellan. Paleogeograpy, Paleoclimatology, Paleoecology, 375, 125-135, http://dx.doi.org/10.1016/j.palaeo.2013.02.022.
  • Fukuda, M., N. Harada, M. Sato, C. B. Lange, N. Ahagon, H. Kawakami, W. Miyashita, S. Pantoja, T. Matsumoto, I. Motoyama (2013) 230Th-normalized fluxes of biogenic components from the central and southernmost Chilean margin over the past 22,000 years. Geochemical Journal, 47, 119-135.
  • Rella S., R. Tada, K. Nagashima , M. Ikehara , T. itaki , K. Ohkushi , T. Sakamoto, N. Harada , M. Uchida (2012) Abrupt changes of intermediate water properties on the northeastern slope of the Bering Sea during the last glacial and deglacial period. Paleoceanography, 27, PA3203, doi:10.1029/2011PA002205.
  • Harada N., T. Ueno, Y. Sagawa, Y. Taketomo, Y. Hashimoto, Y. Matsuura, K. Sugiyama (2012) Changes in physical and chemical properties of archived sediment. JAMSTEC Report of Research and Development 15, 47–76.
  • Harada N., M. Sato, K. Oguri, K. Hagino, Y. Okazaki, K. Katsuki, Y. Tsuji, K.-H. Shin, O. Tadai, S. Saitoh, H. Narita, S. Konno, R. W. Jordan, Y. Shiraiwa, J. Grebmeier (2012) Recent environmental changes enhance coccolithophorid blooms in the Bering Sea. Global Biogeochemical Cycles, 26, GB2036, doi:10.1029/2011GB004177.
  • Harada N., M. Sato, O. Seki, A. Timmermann, H. Moossen, J. Bendle, Y. Nakamura, K. Kimoto, Y. Okazaki, K. Nagashima, S.A. Gorbarenko, A. Ijiri, T. Nakatsuka, L. Menviel, M.O. Chikamoto, A. Abe-Ouchi, S. Schouten (2012) Sea surface and subsurface temperature changes in the Okhotsk Sea and adjacent North Pacific during the Last Glacial Maximum and deglaciation. Deep-Sea Res. II, 61–64, 93–105.
  • Harada N., H. Kawakami, M. Fukuda, W. Miyashita, T. Matsumoto (2012) 230Th-normalized fluxes of biogenic components from the central Chilean margin during the late Quaternary. Journal of Geology (in Japanese with English abstract) 121(3), 555–569.
  • Asahara Y., F. Takeuchi, K. Nagashima, N. Harada, K. Yamamoto, K. Oguri, and O. Tadai (2012) Provenance of terrigenous detritus of the surface sediments in the Bering and Chukchi Seas as derived from Sr and Nd isotopes: implications for recent climate change in the Arctic regions. Deep-Sea Res. II, 61–64, 155–171.
  • Chikamoto M.O., L. Menviel, A. Abe-Ouchi, R. Ohgaitoa, A. Timmermann, Y. Okazaki, N. Harada, A. Oka (2012) Variability in North Pacific intermediate water ventilation during Heinrich events in two coupled climate models. Deep-Sea Res. II, 61–64, 114–126.
  • Derkachev A.N., Nikolaeva N.A., Gorbarenko S.A., Harada N., Sakamoto T., Iijima K., Sakhno V.G (2012) Characteristics and ages of the volcanic ash layers in the central Okhotsk Sea sediments during the last 350 kyr. Deep-Sea Res. II, 61–64, 179–192.
  • Gorbarenko, S. A., N. Harada, M. I. Malakhov, T. A. Velivetskaya, Y. P. Vasilenko, A. A. Bosin, A. N. Derkachev, E. L. Goldberg, A. V. Ignatiev (2012) Responses of the Okhotsk Sea environment and sedimentology on global climate changes at the orbital and millennial scale during the last 350 kyr. Deep-Sea Res. II, 61–64, 73–84.
  • Khim, B.-K., T. Sakamoto, N. Harada (2012) Reconstruction of surface water conditions in the central region of the Okhotsk Sea during the last 180 kyrs Deep-Sea Res. II, 61–64, 63–72.
  • Menviel, L., A. Timmermann, O. Elison Timm, A. Abe-Ouchi, M.O. Chikamoto, N. Harada, R. Ohgaito, Y. Okazaki (2012) The Pacific Meridional Overturning Circulation and its impact on global climate and the carbon cycle: idealized modeling experiments. Deep-Sea Res. II, 61–64, 106–113.
  • Nagashima K., Y. Asahara, F.i Takeuchi, N. Harada, S. Toyoda, R. Tada (2012) Contribution of detrital materials from the Yukon River to the continental shelf sediments of the Bering Sea based on the ESR intensity and crystallinity of quartz. Deep-Sea Res. II, 61–64, 145–154.
  • Oguri, K., N. Harada, O. Tadai (2012) Excess 210Pb and 137Cs concentrations, mass accumulation rates, and sedimentary processes on the Bering Sea continental shelf. Deep-Sea Res. II, 61–64, 193–204.
  • Seki, O., N. Harada, M. Sato, A. Ijiri, T. Nakatsuka, (2012) Millennial scale variability of terrestrial organic matter input off Sakhalin, the Sea of Okhotsk. Deep-Sea Res. II, 61–64, 85–92.
  • Torres R. S. Pantoja, N. Harada, H. E. Gonzalez, G. Daneri, M. Frangopulos, J. A. Rutllant, C. M. Duarte, S. Rúiz-Halpern, E. Mayol, M. Fukasawa (2011) Air-sea CO2 fluxes along the coast of Chile: From CO2 outgassing in central northern upwelling waters to CO2 uptake in southern Patagonian fjords. JGR 116(C9), doi:10.1029/2010JC006344.
  • Placencia, J.A., N. Harada, R. Torres, C.B. Lange, D. Hebbeln (2010) Surface circulation patterns and the pathways of sea surface carbon dioxide (CO2) off northern Chile (~27.5°S) between 30 and 10 kyr BP: global and/or local forcing? Climate of the Past Duscussions, 6, 347-368. www.clim-past-discuss.net/6/347/2010/
  • Gorbarenko S.A., N. Harada, M. I. Malakhov, Y. P. Vasilenko, A. A. Bosin, E. L. Goldberg (2010) Orbital and millennial-scale environmental and sedimentological changes in the Okhotsk Sea during the last 350 kyr, Global and Planetary Change, 72, 79-85.
  • Harada N. (2010) Racemization of Amino acid for Quaternary dating, Degital book of the latest Quaternary, Memorial issue of the 50th anniversary of Japan Association for Quaternary Research, (in Japanese).
  • Okazaki Y., A. Timmermann, L. Menviel, N. Harada, A. Abe-Ouchi, M.O. Chikamoto, A. Mouchet, H. Asahi (2010) Deep water formation in the North Pacific during the last glacial termination. Science, 329, 200-204.
  • Harada N., Kimoto K., Okazaki Y., Nagashima K., Timmermann A. and Abe-Ouchi A. (2009) Millennial time scale changes in surface to intermediate-deep layer circulation recorded in the sediment cores from the northwestern North Pacific, The Quaternary Research, 48(3), 179-194 (in Japanese with English abstract).
  • Katsuki K., Khim B.-K., Itaki T., Harada N., Sakai H., Ikeda T., Takahashi K., Okazaki Y. and Asahi H. (2009) Land-sea linkage of Holocene paleoclimate on the Southern Bering Continental Shelf, The Holocene, 19, 745-754.
  • Malakhov, M.I., S.A. Gorbarenko, G.Yu. Malakhova, N. Harada, Yu.P.Vasilenko, A.A. Bosin, E.L. Goldberg, and A.N. Derkachev (2009) Petromagnetic parameters of bottom sediments as indications of the climatic and environmental changes in the central part of the Sea of Okhotsk during the last 350 thousand years, Russian Geology and Geophysics, 50, 973-982, doi:10.1016/j.rgg.2009.10.006.
  • Gorbarenko S., Harada N., Malakhov M.I., Vasilenko Yu.P., Bosin A.A., Gol’dberg E. L. (2008) Millennium-scale climatic and environmental oscillations in the Sea of Okhotsk in response to global changes during the last 190 ka. Doklady Earth Sciences, 423A(9), 1410?1413, doi:10.1134/S1028334X08090183.
  • Harada N., Sato M., Sakamoto T. (2008) Freshwater impacts recorded in tetraunsaturated alkenones and alkenone-SSTs from the Okhotsk Sea across millennial-scale cycles, Paleocenography 23, PA3201, doi:10.1029/2006PA001410.
  • Jimenez-Espejo J. F., F. Martinez-Ruiz, T. Sakamoto, K. Iijima, D. Gallego-Torres, N. Harada (2007) Paleoenvironmental changes in the western Mediterranean since the Last Glacial Maximum: high resolution multi proxy record from the Algero-Balearic basin. Paleogeogr., Paleoclimatol., Paleoecol., 246, 292-306.
  • Konno, S., Harada, N., Narita, H., Jordan, R.W. (2007) Living Braarudosphaera bigelowii (Gran & Braarud) Deflandre in the Bering Sea. J. Nannoplankton Res. 29(2),78-87.
  • Konno, S., Ohira, R., Komuro, C., Harada, N., Jordan, R.W. (2007) Six new taxa of subarctic siliceous nannoplankton (Parmales, Chrysophyceae). J. Nannoplankton Res., 29(2), 108-128.
  • Shigemitsu M., Narita H., Watanabe Y.W., Harada N., Tsunogai S. (2007) Ba, Si, U, Al, Sc, La, Th, C and 13C / 12C in a sediment core in the Western Subarctic Pacific as proxies of past biological production. Mar. Chem., 106, 442-455. doi:10.1016/j.marchem.2007.04.004.
  • Harada N., Shiraishi A., Sato M. and Honda M. (2006) Characteristics of alkenone particles in the northwestern North Pacific. Geochim Cosmochim. Acta, 70, 2045-2062.
  • Harada N., N. Ahagon, T. Sakamoto, M. Uchida, M. Ikehara, Y. Shibata (2006) Rapid fluctuation of alkenone temperature in the southwestern Okhotsk Sea during the past 120 kyr. Global and Planetary Change, 53, 29-46.
  • Sakamoto T., Ikehara M., Kanamatsu T., Harada N., Uchida M., Aoki K., Sakai H., Iijima K., Shibata Y., Takahashi K., Kawahata H. (2006) Millennial-scale variations of sea-ice expansion and their relation to Okhotsk Intermediate Water formation in the southwestern part of the Okhotsk Sea during the past 120 kyr: Results from IMAGES core MD01-2412 analyses Global and Planetary Change, 53, 58-77.
  • Nakazawa F., K. Ohta, N. Harada, K. Fujita, M. Naka (2005) Determination of amino acid in ice samples. Bulletin of Glaciological Research, 22, 69-74.
  • Harada N., N. Ahagon, M. Uchida, M. Murayama (2004) Northward and southward migrations of frontal zones during the past 40 kyr in the Kuroshio?Oyashio transition area. Geochem. Geophys. Geosyst., 5(9), doi:10.1029/2004GC000740.
  • Harada N., K.-H. Shin, A. Murata, M. Uchida, T. Nakatani (2003) Characteristics of alkenone synthesized by a bloom of Emiliania huxleyi in the Bering Sea. Geochim. Cosmochim. Acta, 67, 1507-1519.
  • Harada N., T. Kondo, K. Fukuma, M. Uchida, T. Nakamura, M. Iwai, M. Murayama, T. Sugawara and M. Kusakabe (2002) Is amino acid chronology available to estimate geological age of siliceous sediment? Earth Planet. Sci. Lett., 198, 257-266.
  • Narita H., M. Sato, S. Tsunogai, M Ikehara, T. Nakatsuka, M. Wakatsuchi, N. Harada, Y. Ujiie (2002) Biogenic opal indicating less productive northwestern North Pacific during the glacial ages. Geophys. Res. Lett., 29, 22-1~4.
  • Shin K.-H., N. Tanaka, N. Harada, J.-C. Marty (2002) Production and turnover rates of C37 alkenones in the eastern Bering Sea: implication of the mechanism of long duration of Emiliania huxleyi bloom. Prog. Oceanogr., 55, 113-129.
  • Harada N., N. Handa, K. Harada and H. Matsuoka (2001) Alkenone records in sinking material from the central Equatorial Pacific. Deep-Sea Res. I, 48, 891-907.
  • Uchida M., Y. Shibata, K. Kawamura, Y. Kumamoto, M. Yoneda, K. Ohkushi, N. Harada, M. Hirota, H. Mukai, A. Tanaka, M. Kusakabe, M. Morita (2001) Compound-specific radiocarbon ages of fatty acids from bathyal sediments in the western North Pacific. Radiocarbon, 43, 949-956.
  • Kumamoto Y., M. C. Honda, A. Murata, N. Harada, K. Hayashi, N. Kisen, M. Katagiri, K. Nakao, J. R. Southon (2000) Distribution of radiocarbon in the western North Pacific: preliminary results from MR97-02 cruise in 1997. Nuclear Instruments and Methods in Physics Research B 172, 495-500.
  • Oguri K., E. Matsumoto, Y. Saito, M. Honda, N. Harada, M. Kusakabe (2000) Evidence for terrestrial transport due to the sea level increase: case of the East China Sea continental shelf. Geophys. Res. Lett., 27, 3893-3896.
  • Nakatsuka T., N. Handa, N. Harada, T. Sugimoto and S. Imaizumi (1998) Origin and decomposition of sinking particulate organic matter in the deep water column inferred from the vertical distributions of its δ15N, δ13C and δ14C. Deep-Sea Res. I, 44, 1957-1979.
  • Harada N., N. Handa, T. Oba, H. Matsuoka, K. Kimoto and M. Kusakabe (1997) Age determination of marine sediments in the western North Pacific by asparitc acid chronology. J. Oceanogr., 53, 1-7.
  • Harada N., N. Handa, M. Ito, T. Oba and E. Matsumoto (1996) Chronology of marine sediments by the racemization reaction of aspartic acid in planktonic foraminifera. Org. Geochem., 24, 921-930.
  • Harada N. and N. Handa (1995) Amino acid chronology in the fossil planktonic foraminifera, Pulleniatina obliquiloculata from Pacific Ocean. Geophys. Res. Lett., 22, 2353-2356.
  • Harada N., N. Handa, M. Fukuchi and R. Ishiwatari (1995) Source of hydrocarbons in marine sediments in Lutzow-Holm Bay, Antarctica. Org. Geochem., 23, 229-237.
  • Harada N., N. Handa, M. Fukuchi and R. Ishiwatari (1995) Hydrocarbon record of a marine sediment core from Lutzow-Holm Bay, Antarctica. Proceedings of the NIPR Symposium on Polar Biology, 8, 163-176.
  • Igarashi A., N. Harada, K. Moriwaki (1995) Marine fossils of 30-40 ka in raised beach deposits, and late Pleistocene glacial history around Lutzow-Holm Bay, east Antarctica. Proceedings of the NIPR Symposium on Antarctic Geosciences, 8, 219-229.
  • Igarashi A., H. Numanami, Y. Tsuchiya, N. Harada, M. Fukuchi, T. Saito (1995) Radiocarbon ages of molluscan shell fossils in raised beach deposits along the east coast of Lutzow-Holm Bay, Antarctica, determined by Accelerator Mass-Spectrometry. Proceedings of the NIPR Symposium on Polar Biology, 8, 154-162.
  • Nakatsuka T., N. Harada, E. Matsumoto, N. Handa, T. Oba, M. Ikehara, H. Matsuoka, K. Kimoto (1995) Glacial-interglacial migration of an upwelling field in the western equatorial Pacific recorded by sediment 15N/14N. Geophys. Res. Lett., 22, 2525-2528.
  • Odate T., N. Harada, M. Fukuchi (1993) Comparisons of N,N-Dimethylformamide and 90% acetone as an extraction solvent for fluorometric determination of Chlorophyll a from natural phytoplankton communities in the Southern Ocean. Antarctic Record, 37(3) , 260-264.

Field work

  • MR08-06 leg.2, R/V Mirai, Off Chile area, 16th March - 8th April, 2009:
    “Studies on geophysics and paleoceanography in the South Pacific”, sediment coring, CTD/hydrocast, plankton net, drafting sediment trap (Principal Investigator)
  • Kh07 cruise, R/V Professor Khromov, Okhotsk Sea, 9th August - 12th September, 2007:
    “Research Expedition in the Sea of Okhotsk for 2007”, sediment coring, CTD/hydrocast, plankton net (Chief in sediment coring group)
  • MR06-04, R/V Mirai, Okhotsk Sea, Bering Sea, Arctic Ocean, 1st August - 29th September, 2006:
    “Study on the paleoceanography in high latitude of the North Pacific and the Arctic area”, sediment coring, CTD/hydrocast, plankton net (Principal Investigator)
  • MR03-K04 leg.3, R/V Mirai, Off Chile area, 19th October - 2nd November, 2003:
    “The glacial-interglacial change of paleo environment in the Chilean marginal area” sediment coring (Principal Investigator)
    MR03-K04 leg.6, R/V Mirai, Kerguelen plateau, 27th January - 18th February, 2004:
    “Study on the glacial-interglacial change of paleo environment in the eastern Indian Ocean” sediment coring
  • MR00-K03, R/V Mirai, Okhotsk Sea and the northwestern North Pacific, 9th May - 10th June, 2000:
    “Biogeochemical study of the northern North Pacific and its adjacent sea”, sediment coring, CTD/hydrocast, sediment trap, plankton net
  • MR98-05, R/V Mirai, northwestern North Pacific, 7th July - 24th July, 1998:
    “Biogeochemical study of the northern North Pacific and its adjacent sea”, sediment coring, CTD/hydrocast, sediment trap, plankton net
  • MR97-02, R/V Mirai, northwestern North Pacific, 10th November - 5th December, 1997:
    “Biogeochemical study of the northern North Pacific and its adjacent sea”, sediment coring, CTD/hydrocast, sediment trap, plankton net
  • KY96-10, R/V Kaiyo, East China Sea, 18th October - 26th October, 1996:
    “Biogeochemical study of the East China Sea” sediment coring, CTD/hydrocast, sediment trap
  • 33rd Japan Antarctic Research Expedition, summer party, Antarctica, 14th November, 1991 - 28th March, 1992:
    “Study on the glacial-interglacial change of paleo environment in the Southern Ocean” sediment coring, sediment trap
  • NH91-2, R/V Hakurei-maru, subarctic, subtropical and equatorial Pacific, 9th August - 14th September, 1991:
    “Investigation of ocean carbon cycle” CTD/hydrocast, sediment trap
  • KH90-3, R/V Hakuho-maru, subtropical and equatorial Pacific, November - December, 1990:
    “Biogeochemical study of the equatorial Pacific” sediment coring, CTD/hydrocast, sediment trap

Competitive fund or grant

  • Grant-in-Aid for challenging Exploratory Research No. 24651019 (2012~2014):
    Reconstruction of paleoclimate changes over the past several hundred years recorded in laminated lake sediments (Principal Investigator)
  • Grant-in-Aid for Scientific Research (S) No. 22221003 (2010~2014):
    Catastrophic reduction of sea-ice in the Arctic Ocean - its impact on the marine ecosystems in the polar region - (Principal Investigator)
  • Grant-in-Aid for Scientific Research (B) No. 19310018(2007~2009): 
    Ecological changes on the continental shelf of the eastern Bering Sea over the past 100 years (Principal Investigator)
  • Research Joint Project between Japan and Russia No. 06037711-000164 (2006~2007):
    Past environmental changes recorded in the marginal Seas (Okhotsk, Japan and Bering Seas) and Siberia (Bikal Lake)-window to watch serious regional and global climate changes (Principal Investigator)
  • Grant-in-Aid for Scientific Research c No. 14540458(2002~2005):
    Comparison of paleoenvironmental changes between both hemispheres (Principal Investigator)
  • Grant-in-Aid for Scientific Research c (PI:AIST Dr. Yamazaki) No. 19612002(2007~2008): 
    Paleoamgnetic changes recorded in the high latitude of the North Pacific during the Late Quaternary : connection with paleoclimatology(one of member)
  • Grant-in-Aid for Scientific Research (S) (PI:The Univ. of Tokyo Prof. Tada) No. 18101001(2006~2010):
    Paleoceanography for prediction of near future: Possibility of climatic jump related with global warming(one of member)
  • Research Joint Project with National Institute for Polar Research (PI:Hiroshima Univ. Prof. Maemoku) (2006~2008):
    Cross check of geological ages determined by multi chronologies of late Quaternary sample collected at Antarctica (one of member)
  • Research Joint Project with National Institute for Polar Research (PI:Hiroshima Univ. Prof. Takada)(2003~2005):
    Study on historical changes of continental ice sheet on the eastsouthern Antarctica by using soft sediment over the late Cenozoic(one of member)
  • Grant-in-Aid for Scientific Research (A) (PI:Aichi Prefectual Univ. Prof. Handa)No. 14209012(2002~2004):
    Reconstruction of paleoenvironment in desert area of the western China(one of member)
  • Grant-in-Aid for Scientific Research (B) (PI:Doshisha Univ. Prof. Fukuma)No. 14380245(2002~2003):
    Changes in dust flux to the North Pacific(one of member)

Joint research

  • National Institute of Radiological Sciences: Development of paleo proxy to understand biogenic particulate flux by using 230Th (2010 - ) 
  • International Pacific Research Center (IPRC) of the School of Ocean and Earth Science and Technology (SOEST) of the University of Hawai‘i (UH): Paleoclimate Dynamics (2007 - )
  • Center for Oceanographic Research in the eastern South Pacific (FONDAP-COPAS) of Universidad de Concepcion (UDEC): Research on paleoceanography, biogeochemistry and physical oceanography in the coastal area off Chile (2007 - )
  • V.I. II’ichev Pacific Oceanological Institute (POI) of Far East Branch, Russian Academy of Science: Paleoceanographic Research in the Marginal Seas Area of the East Eurasian Continent (2006 - 2009)