Tomoko M. Nakanishi

Tomoko M. Nakanishi
中西 友子
Tomoko M. Nakanishi
Born (1950-04-27) 27 April 1950
Kanazawa, Ishikawa, Japan
Nationality Japan
Alma materThe University of Tokyo
AwardsSaruhashi Prize (2000)
Contribution Award, Japan Atomic Energy Soc. (2001)
Soc. Award of Japan Nuclear and Radiochemical Sciences (2010)
Ordre national du Mérite (2013)
Hevesy Medal Award (2016)
Ordre des Palmes académiques (2022)
Göteborg Lise Meitner Award (2025)
Scientific career
FieldsPlant radio-physiology

Tomoko M. Nakanishi (中西友子) is a Japanese chemical scientist leading in the development and application of imaging techniques using radiation and radionuclides for research on water and element physiology in plants. Her research strategy excels by optimizing a variety of complementary radiochemical/nuclear analytical techniques together with innovative experimental set-ups to get insight in a part of the plant physiology.

Early life and education

Nakanishi was born in 1950 in Kanazawa, Ishikawa, Japan as third child.[1] Her father was a medical doctor in practice.[2] She grew up in Tokyo and graduated high school in 1969 from highschool attached to the Tokyo University of Education when the student movement was at the highest in Japan.[2]

After graduated from St. Paul's university, very close to her house in 1973, she started her research carrier at the University of Tokyo in radiochemistry, supervised by Masatake Honda in 1973.[2] She earned her Ph.D. by determining the half-lives of long lived radioactive nuclides, 92Nb and 91Nb for the first time in 1978.[3][4]

Then she found her job at Zeon Co., 8 years before the Equal Employment Opportunity Law came into force in Japan[4].[5] There she had to change her research field to plant physiology to initiate biology group.[2] She could start her plant physiology work in chemical biodynamics lab. at Laurence Berkeley Laboratory, in Univ. of California for about 2 years.[2][5] She also learned about plant tissue culture work directly from Prof. Toshio Murashige, who was a world premiere plant scientist in Davis, Univ. of California.[2] Back to the company she established plant research laboratory, aiming to collect the fragrance produced from the automatic tissue culture system.[2]

Then she was offered an assistant position in the Agricultural Dept. of the University of Tokyo in 1987.[2] Moving to the university, she had to set up her own environment for the research by herself and utilized the reactor or an accelerator in JAEA (Japan Atomic Energy Agency) and NIRS (National Institute of Radiological Sciences) for plant research.[5]

Carrier and Research

She began to apply radiochemical method for plant physiology, since there was not any report trying to introduce various sofisticated radiochemical methods to plant physiology and could find out many new activities the living plant showed.[4] Her research is the first to truly combine radiochemistry and plant physiology[6]

In the case of water, she measured the small amount of water actually moving inside the plant.[4] Using both 15O (half-life: 2 min) and 3H to follow the movement of water, she found the circulation of water in the stem for the first time.[6] She also introduced neutron imaging method for analyzing water in the living plant, where she found there was not direct contact of water on the surface of the root growing in soil, suggesting the root was not absorbing water solution but water vapor.[6] She was also questioned about metal absorption in soil, whether metal solution or metal vapor. To solve these unanswered problem, she stressed the importance of plant research growing in soil, not only in water culture[6]

She has developed the macroscopic and microscopic real-time radioisotope imaging system.[4] She imaged physiological processes in situ using radioisotopes of seventeen elements so far, including the gas movement, how plants fix 14CO2 gas and where metabolites go to create new plant tissue.[6]

As tools for studying the essential elements magnesium and potassium, she developed an effective production and separation techniques: alpha bombardment of aluminum followed by radiochemical purification of 28Mg, and milking of 42K from radioactive 42Ar gas, and used these tracers for plant study for the first time.[6]

After the 2011 Tōhoku earthquake, her group has led studies of the agricultural consequences of radioactive contamination from the Fukushima Daiichi Nuclear Power Plant.[4] In addition to numerous publications in the periodical literature and conference proceedings, she has edited four books on this topic, published in 2013,[7] 2016,[8] 2019[9] and 2023[10] by Springer. The online version has been accessed more than 201,000,[7] 141, 000,[8] 92,000[9] and 20,000[10] times for the first, second, third and fourth book, respectively.

She was appointed as a professor in Graduate School of Agricultural and Life Sciences in the University of Tokyo in 2001.[5] Retired from the University of Tokyo she was appointed as a Professor Emeritus in 2016.[11] Then she got an offer as a president of Hoshi University in 2019.[12] Retired from Hoshi University she was appointed as a Professor Emeritus of Hoshi University in 2022.[13] She was offered an Auditor of Fukushima Institute for Research, Education and Innovation in 2022.[14]

Nakanishi was a Council Member of Science Council of Japan, a Commissioner of Japan Atomic Energy Commission,[15] a vice president of Engineering Academy of Japan,[16] a president of The Japan Soc. of Nuclear and Radiochemical Sciences[17] and a Commissioner of Japanese National Commission for UNESCO.[18] She is now a vice president of Agricultural Academy of Japan,[19] an Administrative Council of Kyoto University,[20] Board of Trustees Member of Chubu University,[21] etc.

Awards and honors

Nakanishi is a conspicuous and influential role model for Japanese women, having been awarded the Saruhashi Prize in 2000 as the nation's outstanding woman in science.[22] She received Contribution Award from Atomic Energy Society of Japan in 2001, and Society Award of Nuclear and Radiochemical Sciences in Japan in 2010.[23]

Her contributions to science and to society have been recognized internationally, notably by Hevesy Medal Award, selecting one premiere radiochemist every year, named after a Nobel Prize Laurie, Dr. G. Hevesy, in 2016.[3] She was awarded the Ordre national du Mérite in 2013[24] as well as Ordre des Palmes académiques in 2022[25] from French government. She was also awarded the Göteborg Lise Meitner Award in 2025 as the first Japanese scientist.[26]

She was elected as a Foreign Member of the Royal Swedish Academy of Engineering in 2015[27] and the Royal Society of Arts and Sciences in Göteborg in 2017,[28] and an Honorary Doctor of Chalmers University of Technology in 2019.[29]

References

  1. ^ My Life: Twenty Japanese Women Scientists. Tokyo, Japan: Uchida Rokakuho (published 2001-01-01). 2001. ISBN 978-4753661817.
  2. ^ a b c d e f g h "【研究者の肖像Vol23】とにかく"現場"に足を運ぶ。対象と素直に向き合う。それが"定説"を覆すことも。どんな研究でも、その姿勢が大事 中西友子 - Technologist's magazine". technologist.high-five.careers (in Japanese). 2020-05-14. Retrieved 2025-05-11.
  3. ^ a b Chatt, A. (2017). "Laudation for Professor Tomoko Nakanishi: 2016 Hevesy Medal Awardee". J Radioanal Nucl Chem. 311 (2): 945–946. Bibcode:2017JRNC..311..945C. doi:10.1007/s10967-016-5129-2.
  4. ^ a b c d e f "私と放射線・RIとの長い系譜" (PDF). Isotope News 2023年6月号 No.787 (in Japanese).
  5. ^ a b c d "Dinner Speech: Agricultural Implications of the Fukushima Nuclear Accident". www.naefrontiers.org. Retrieved 2025-05-11.
  6. ^ a b c d e f Nakanishi, Tomoko M. (2021). Novel Plant Imaging and Analysis. doi:10.1007/978-981-33-4992-6. ISBN 978-981-33-4991-9.
  7. ^ a b Nakanishi, Tomoko M.; Tanoi, Keitaro, eds. (2013). Agricultural Implications of the Fukushima Nuclear Accident. doi:10.1007/978-4-431-54328-2. ISBN 978-4-431-54327-5.
  8. ^ a b Nakanishi, Tomoko M.; Tanoi, Keitaro, eds. (2016). Agricultural Implications of the Fukushima Nuclear Accident. doi:10.1007/978-4-431-55828-6. hdl:2078/ebook:82593. ISBN 978-4-431-55826-2.
  9. ^ a b Nakanishi, Tomoko M.; O`Brien, Martin; Tanoi, Keitaro, eds. (2019). Agricultural Implications of the Fukushima Nuclear Accident (III). doi:10.1007/978-981-13-3218-0. ISBN 978-981-13-3217-3.
  10. ^ a b Nakanishi, Tomoko M.; Tanoi, Keitaro, eds. (2023). Agricultural Implications of Fukushima Nuclear Accident (IV). doi:10.1007/978-981-19-9361-9. ISBN 978-981-19-9360-2.
  11. ^ "平成28年度 東京大学名誉教授" (PDF). The University of Tokyo (in Japanese). p. 2. Retrieved 2025-05-11.
  12. ^ "星薬科大學報 第89号" (PDF). Hoshi University (in Japanese). p. 3. Retrieved 2025-05-11.
  13. ^ "令和5(2023)年度事業報告書" (PDF). Hoshi University (in Japanese). p. 12. Retrieved 2025-05-11.
  14. ^ Fukushima Institute for Research, Education and Innovation (F-REI). "Institute Information|Fukushima Institute for Research, Education and Innovation (F-REI)". Fukushima Institute for Research, Education and Innovation (F-REI). Archived from the original on 2025-02-16. Retrieved 2025-05-04.
  15. ^ "ー歴代原子力委員ー" (PDF). Japan Atomic Energy Commission (in Japanese). Retrieved 2025-05-11.
  16. ^ "日本工学アカデミー30年史" (PDF). The Engineering Academy of Japan (in Japanese). p. 92. Retrieved 2025-05-11.
  17. ^ "学会について". The Japan Society of Nuclear and Radiochemical Sciences (in Japanese). Retrieved 2025-05-11.
  18. ^ "日本ユネスコ国内委員会委員名簿(平成23年7月23日現在)" (PDF). National Diet Library, Japan (in Japanese). Retrieved 2025-05-11.
  19. ^ "日本農学アカデミー会員名簿". The Agricultural Academy of Japan (in Japanese). Retrieved 2025-05-11.
  20. ^ "運営方針委員の任命について". 京都大学 (in Japanese). 2024-12-12. Retrieved 2025-05-11.
  21. ^ 学校法人中部大学. "役員・評議員一覧 | 学園概要". 学校法人中部大学 (in Japanese). Retrieved 2025-05-11.
  22. ^ "受賞者一覧". 猿橋賞 (in Japanese). 2025-04-06. Retrieved 2025-05-11.
  23. ^ "歴代の学会賞/奨励賞の受賞者と受賞テーマ". The Japan Society of Nuclear and Radiochemical Sciences (in Japanese). Retrieved 2025-05-11.
  24. ^ "Remise de l'Ordre national du Mérite au Professeur Tomoko Nakanishi". French Embassy in Tokyo (in French). Retrieved 2025-05-11.
  25. ^ "Remise des Palmes académiques à la Professeure Tomoko Nakanishi". French Embassy in Tokyo (in French). Retrieved 2025-05-11.
  26. ^ "Gothenburg Lise Meitner Award". www.chalmers.se. 2023-01-30. Retrieved 2025-05-04.
  27. ^ "JSPS Stockholm Newsletter English Edition Vol. 23" (PDF). 2016. p. 22.
  28. ^ Birger Karlsson (2016). KVVS The Royal Society of Arts and Sciences in Gothenburg-Entering the 21st century. Göteborg. ISBN 978-9198042078.
  29. ^ "JSPS STOCKHOLM 2019│ VOL.36 │ 28" (PDF).
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