Abstract
This paper examines the history of Japanese genetics in the 1920s to 1950s as seen through the work of Hitoshi Kihara, a prominent wheat geneticist as well as a leader in the development of the discipline in Japan. As Kihara’s career illustrates, Japanese genetics developed quickly in the early twentieth century through interactions with biologists outside Japan. The interactions, however, ceased due to the war in the late 1930s, and Japanese geneticists were mostly isolated from outside information until the late 1940s. During the isolation in wartime and under the postwar U.S. Occupation, Kihara adapted to political changes. During wartime, he developed a research institute focusing on applied biology of various crops, which conformed to the national need to address food scarcity. After the war, he led the campaign for the establishment of a national institute of genetics and negotiated with American Occupation officers. The Americans viewed this Japanese effort with suspicion because of the rising popularity of the controversial theory of the Russian agronomist, Trofim Lysenko, in Japan. The institute was approved in 1949 partly because Kihara was able to bridge the gap between the American and Japanese sides. With Kihara’s flexible and generous leadership, Japanese genetics steadily developed, survived the wartime, and recovered quickly in the postwar period. The article discusses Kihara’s interest in cytoplasmic inheritance and his synthetic approach to genetics in this political context, and draws attention to the relation between Kihara’s genetics and agricultural practice in Japan.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Aase, HC. 1935. ‹Cytology of Cereals.’ Botanical Review 1(12): 467–496.
Anonymous. 1917. “Idengaku kōza shinsetsu shinsei sho” [Proposal for the establishment of a new genetics laboratory]. Reprinted in Nihon kagakushi gakkai [History of Science Society of Japan] (ed.), Nihon kagaku gijutsushi taikei 15-kan Seibutsu kagaku [History of Japanese science and technology, Vol. 15, Biological sciences]. Tokyo: Dai-ichi hōki, 1965, pp. 277–278.
Anonymous. 1918. “Tōdai rika daigaku shokubutsu gakka ni okeru idengaku kōza no shinsetsu” [Newly established genetics laboratory at the Department of Botany, the Science College of Tokyo University]. Reprinted in Nihon kagakushi gakkai [History of Science Society of Japan] (ed.), Nihon kagaku gijutsushi taikei 15-kan Seibutsu kagaku [History of Japanese science and technology, Vol. 15, Biological sciences]. Tokyo: Dai-ichi hōki, 1965, pp. 278–279.
Beatty, J. 2000. ‹Origins of the U.S. Human Genome Project: Changing Relationships Between Genetics and National Security.’ PR Sloan (ed.), Controlling our Destinies: Historical, Philosophical, Ethical, and Theological Perspectives on the Human Genome Project. Notre Dame:University of Notre Dame Press, pp. 131–153.
Blakeslee, AF, Avery, AG. 1937. ‹Methods of Inducing Doubling of Chromosomes in Plants.’ Journal of Heredity 28: 393–411.
Bonnier, G. and Laesson, R. (eds). 1949. Proceedings of the Eighth International Congress of Genetics. Hereditas, supplementary volume. Lund: Berlingska boktrycleriet.
Carroll, SB, Mulcahy, DL. 1993. ‹Progeny Sex Ratios in Dioecious Silene Latifolia (Caryophyllaceae).’ American Journal of Botany 80(5): 551–556.
Cleland, RE. 1957. ‹The International Genetics Symposia in Japan.’ AIBS Bulletin 7(2): 23–24.
Correns, C. 1909. ‹Vererbungsversuche mit blass(gelb) grünen und buntblättrigen Sippen bei Mirabilis jalapa, Urtica piulifera, und Lunaria annua.’ Zeitschrift für Induktive Abstammungs- und Vererbungslehre, 1: 291–329.
Crow, JF. 1989. ‹Fortunes of War.’ Genetics 122: 467–469.
Crow, JF. 1994. ‹Hitoshi Kihara, Japan’s Pioneer Geneticist.’ Genetics 137: 891–894.
Crow, JF. 1995. ‹Motoo Kimura (1924–1994).’ Genetics 140: 1–5.
Crow, JF. 1997. ‹Motoo Kimura. 13 November 1924–13 November 1994.’ Biographical Memoirs of Fellows of the Royal Society 43: 254–265.
Dunn, LC. 1965. A Short History of Genetics: The Development of Some of the Main Lines of Thought, 1684–1939. New York:McGraw-Hill Book Company.
Eigsti, OJ. 1957. ‹Induced Polyploidy.’ American Journal of Botany 44(3): 272–279.
Eigsti, OJ. 1989. ‹Introductory Essay.’ Jules Janick (ed.), Classic Papers in Horticultural Science. Englewood Cliffs, NJ:Blackburn Press, pp. 554–556.
Feldman, M. 2001. ‹Origin of Cultivated Wheat.’ AP Bonjean, JA William (eds.), The World Wheat Book: A History of Wheat Breeding. Paris:Lavoisier Publishing.
Fujii, K. 1920. “Idenshi ‹Id’ no gainen oyobi sono henkasei no mondai ni tsuite” [On the concept of gene ‹Id’ and the issues of changeability of ‹Id’]. Reprinted in Nihon kagakushi gakkai [History of Science Society of Japan] (ed.), Nihon kagaku gijutsushi taikei 15-kan Seibutsu kagaku [History of Japanese science and technology, Vol. 15, Biological sciences]. Tokyo: Dai-ichi hōki, 1965, pp. 328–333.
Goldschmidt, R. 1927. Physiologische Theorie der Vererbung. Berlin:Julius Springer.
Goldschmidt, R. 1960. In and out of the Ivory Tower: The Autobiography of Richard B. Goldschmidt. Seattle:University of Washington Press.
Grunden, WE. 2005. Secret Weapons and World War II: Japan in the Shadow of Big Science. Lawrence:University Press of Kansas.
Hagemann, R. 2000. ‹Erwin Baur or Carl Correns: Who Really Created the Theory of Plastid Inheritance.’ Journal of Heredity 91(6): 435–440.
Harwood, J. 1987. ‹National Styles in Science: Genetics in Germany and the United States Between the World Wars.’ ISIS 78: 390–414.
Harwood, J. 1993. Styles of Scientific Thought: The German Genetics Community 1900–1933. Chicago:University of Chicago Press.
Imai, Y. 1937. “The Behaviour of the Plastid as a Hereditary Unit: The Theory of the Plastogene.” Cytologia Fujii Jubilee Volume: 934–947.
Imai, Y. 1938. ‹The Genes of the Japanese Morning Glory.’ Japanese Journal of Genetics 14(1–2): 24–33.
Iriye, A. 1981. Power and Culture: The Japanese-American War, 1941–1945. Cambridge, MA:Harvard University Press.
Kihara, H. 1919. “Über cytologische Studien bei einigen Getreidearten. Mitteilung I. Spezies-Bastarde des Weizens und Weizenroggen-Bastard.” Shokubutsugaku zasshi [Botanical Magazine] 33(386): 17–38.
Kihara, H. 1924. ‹Cytologische und genetische Studien bei wichtigen Getreidearten mit besonderer Rücksicht auf das Verhalten der Chromosomen und die Sterilität in den Bastarden.’ Memoirs of the College of Science, Kyoto Imperial University, Series B 1: 1–200.
Kihara, H. 1930a. ‹Karyologische Studien an Fragaria mit besonderer Berücksichtigung der Geschlechtschromosomen.’ Cytologia 1: 345–357.
Kihara, H. 1930b. “Senshokutaisū no baika ni yorite yūryō hinshu wo ikusei siuruka” [Is it possible to obtain better breeds by multiplying the number of chromosomes?]. Nōgyō oyobi engei [Agriculture and Horticulture] 5(1): 23–26.
Kihara, H. 1939. “Sangyō no hattatsu to idengaku” [Development of industry and genetics]. Dai-ni-kai jinkō mondai zenkoku kyōgikai hōkokusho [Report for the second meeting of the National Council on the Population Issue]. Tokyo: Jinkō mondai kenkyūkai [Research committee for the population issue], pp. 991–997.
Kihara, H. 1942. “Rakuseishiki” [Inauguration ceremony]. Seiken jihō [Kihara Institute’s Report] 1(supplement): 103–104.
Kihara, H. 1943a. “Idengaku to daitōa kensetsu” [Genetics and the establishment of Greater East Asia], in “Genkō (4): kōen sonota, 1943∼” [Manuscripts (4): Lectures and Others, 1943∼]. Kihara’s notebook owned by Yuriko Kihara.
Kihara, H. 1943b. ‹Die durch Röntgenbestrahlung induzierten Komplexmutationen bei Triticum monococcum L.’ Japanese Journal of Genetics 19: 136–138. (text in Japanese).
Kihara, H. 1948. “Keishitsu no hatsugen” [Expression of phenotypes]. Iden 2(5): 1–2.
Kihara, H. 1949a. ‹On the 8th International Congress of Genetics held in Stockholm.’ Japanese Journal of Genetics 24(3–4): 116–117. (in Japanese).
Kihara, H. 1949b. “Kaigai ni okeru idengaku no shinpo” [Progress abroad in genetics]. Iden 3(4): 1.
Kihara, H. 1949c. Kagakusha no mita sengo no ōbei [Postwar Europe and America, as seen through the eyes of a scientist]. Osaka: Mainichi shinbunsha.
Kihara, H. 1950a. “Risenko no idengaku to sono hankyō (I)” [Lysenko’s genetics and the responses (I)]. Shizen 5(2): 44–49.
Kihara, H. 1950b. “Risenko no idengaku to sono hankyō (II)” [Lysenko’s genetics and the responses (II)]. Shizen 5(3): 60–72.
Kihara, H. 1951a. Komugi: Ichi-seibutsugakusha no kiroku [Wheat: One biologist’s record]. Tokyo: Chūō kōron.
Kihara, H. 1951b. ‹Substitution of Nucleus and its Effects on Genome Manifestation.’ Cytologia 16: 177–193.
Kihara, H. 1953. “Beikoku kanada nōgyō kenbunroku” [Personal report on agriculture in the U.S. and Canada]. Nōgyō oyobi engei [Agriculture and Horticulture] 10: 11–16.
Kihara, H. 1954. Komugi no kenkyū, kaicho [Research on wheat, revised]. Tokyo: Yōkendō.
Kihara, H. 1956a. “Idengaku no tenbō” [A review and prospect of genetics]. Kagaku 16(10): 488–489.
Kihara, H. 1956b. “Saishū kōgi 1, genkō, 1956” [The final lecture 1, manuscript, 1956]. Kihara’s notebook owned by Yuriko Kihara.
Kihara, H. 1982. Wheat Studies: Retrospect and Prospects. Tokyo:Kōdansha.
Kihara, H. 1985. Ichiryūshashujin shashinfu [Ichiryūshashujin’s photo collection]. Yokohama: Kihara Institute for Biological Research.
Kihara, H. 1988. “Kōriba Kan.” H. Kihara, Y. Shinotō and N. Isono (eds), Kindai nihon seibutsugakusha shōden [A short biographical sketch of biologists of modern Japan]. Tokyo: Hirakawa shuppansha, pp. 332–336.
Kihara, H. and Imamura, S. 1941. “Kansho kaika no nicchō to kisetsu tono kankei” [A relation between flowering of sweet potatoes and day length]. Jihō [Report] 1: 3–5.
Kihara Institute for Biological Research. 1942a. “Zaidan hōjin Kihara seibutsugaku kenkyūjo no kōsei” [The structure of the Kihara Institute for Biological Research]. Seiken jihō [Kihara Institute’s Report] 1(supplement): 102.
Kihara Institute for Biological Research. 1942b. “Kenkyūhan go-kōryō” [Five items for the research team]. Seiken jihō [Kihara Institute’s Report] 1(supplement): 114.
Kihara, H. and Ono, T. 1923. “Suiba no sei to senshokutaisū tono kankei” [A relation between sex determination of Rumex acetosa and the number of the chromosomes]. Shokubutsugaku zasshi [Botanical Magazine] 37: 147–149.
Kihara, H, Ono, T. 1925. ‹The Sex-Chromosomes of Rumex acetosa.’ Zeitschrift für Induktive Abstammungs- und Vererbungslehre, 39: 1–7.
Kihara, H. and Yamada, I. 1942. “Shukan zasshu no funen ni oyobosu purazuma no eikyō” [Effects of the plasma on sterility between species]. Seiken jihō [Kihara Institute’s Report] 1: 38–45.
Kikkawa, H. 1947. “Idenshi to kōso” [Genes and enzymes]. Reprinted in Nihon kagakushi gakkai [History of Science Society of Japan] (ed.), Nihon kagaku gijutsushi taikei 15-kan Seibutsu kagaku [History of Japanese science and technology, Vol. 15, Biological sciences]. Tokyo: Dai-ichi hōki, 1965, pp. 490–493.
Kimmelman, B.A. 1987. “A Progressive Era Discipline: Genetics at American Agricultural Colleges and Experiment Stations, 1900-1920” (PhD Dissertation, University of Pennsylvania).
Kimura, M. 1986. “Kihara Hitoshi hakushi o shinobu” [Remembering Dr. Hitoshi Kihara]. Kagaku 56(11): 725–728.
Kokuritsu idengaku kenkyūjo [National Institute of Genetics]. 1951. Kokuritsu idengaku kenkyūjo nenpō, Shōwa 24-25, Dai-1-gō [NIG Annual Report for 1949-1950, v.1]. Mishima: National Institute of Genetics.
—— Kokuritsu idengaku kenkyūjo [National Institute of Genetics].1952. Kokuritsu idengaku kenkyūjo nenpō, Shōwa 26, Dai-2-gō [NIG Annual Report for 1951, v.2]. Mishima: National Institute of Genetics.
——Kokuritsu idengaku kenkyūjo [National Institute of Genetics]. 1953. Kokuritsu idengaku kenkyūjo nenpō, Shōwa 27, Dai-3-gō [NIG Annual Report for 1952, v.3]. Mishima: National Institute of Genetics.
——Kokuritsu idengaku kenkyūjo [National Institute of Genetics]. 1954. Kokuritsu idengaku kenkyūjo nenpō, Shōwa 28, Dai-4-gō [NIG Annual Report for 1953, v.4]. Mishima: National Institute of Genetics.
——Kokuritsu idengaku kenkyūjo [National Institute of Genetics]. 1957. Kokuritsu idengaku kenkyūjo nenpō, Shōwa 31, Dai-7-gō [NIG Annual Report for 1956, v.7]. Mishima: National Institute of Genetics.
Komai, T. 1943. ‹Recent Advances in Genetics (Presidential Address).’ Japanese Journal of Genetics 19(3): 154–160. (in Japanese).
Komai, T. 1956. ‹Genetics of Japan, Past and Present.’ Science 123: 823–826.
Leonard, WH. 1951. ‹Cytologia Continues Publication in Japan.’ Journal of Heredity 42(3): 140.
Low, M. 2005. Science and the Building of a New Japan. New York:Palgrave MacMillan.
Lysenko, T.D. 1949. “Address Delivered by Academician T. D. Lysenko on the Situation in Biological Science.” The Situation in Biological Science: Proceedings of the Lenin Academy of Agricultural Sciences of the U.S.S.R., Session: July 31-August 2, 1948, Verbatim Report. Moscow: Foreign Languages Publishing House.
Masui, K. 1947. “‹Iden’ no kankō ni atatte” [On the publication of ‹Iden’]. Iden 1(1): 1–2.
Matsubara, Y. 1998. ‹The Enactment of Japan’s Sterilization Laws in the 1940s: A Prelude to Postwar Eugenic Policy.’ Historia Scientiarum 8(2): 187–201.
Matsubara, Y. 2000. “Nihon: Sengo no yūseihogohō toiu na no danshuhō” [Japan: The postwar sterilization law in the name of the Eugenic Protection Law]. S. Yonemoto, Y. Matsubara, J. Nudeshima and Y. Ichinokawa (eds), Yūseigaku to ningenshakai: seimeikagaku no seiki wa doko e mukau noka [Eugenics and human society: Where is the century of life sciences heading to?]. Tokyo: Kōdansha, pp. 170–236.
Matsubara, Y. 2004. ‹The Reception of Mendelism in Japan, 1900–1920.’ Historia Scientiarum 13(3): 232–240.
Matsumoto, K. 1942. “Zaidan hōjin Kihara seibutsugaku kenkyūjo no tanjō” [Inauguration of the Kihara Institute for Biological Research]. Seiken jihō [Kihara Institute’s Report] 1(supplement): 101.
Miyayama, H. 1949. “Kokuritsu idengaku kenkyūjo no setsuritsu ni itaru made (4)” [The process toward the establishment of the National Institute of Genetics (4)]. Iden 3(11): 52–55.
Mizoguchi, H. 2001. ‹The Population Problem and the Birth Control Program During the Occupation.’ S Nakayama, K Gotō, H Yoshioka (eds.), A Social History of Science and Technology in Contemporary Japan, Vol. 1, The Occupation Period 1945–1952. Melbourne:Trans Pacific Press, pp. 395–410.
Mizuno, H. 2009. Science for the Empire: Scientific Nationalism in Modern Japan. Stanford:Stanford University Press.
Morris-Suzuki, T. 1994. The Technological Transformation of Japan: From the Seventeenth to the Twenty-First Century. Cambridge:Cambridge University Press.
Nakamura, T. 1997. Nihon no ruisenko ronsō [The Lysenko controversy of Japan]. Tokyo: Misuzu shobō.
Nakayama, S. 2001a. ‹The Association of Democratic Scientists (Minka).’ S Nakayama, K Gotō, H Yoshioka (eds.), A Social History of Science and Technology in Contemporary Japan, Vol. 1, The Occupation Period 1945–1952. Melbourne:Trans Pacific Press, pp. 470–481.
Nakayama, S. 2001b. ‹The International Exchange of Scientific Information.’ S Nakayama, K Gotō, H Yoshioka (eds.), A Social History of Science and Technology in Contemporary Japan, Vol. 1, The Occupation Period 1945–1952. Melbourne:Trans Pacific Press, pp. 237–248.
Nakayama, S. 2001c. ‹The Sending of Scientists Overseas.’ S Nakayama, K Gotō, H Yoshioka (eds.), A Social History of Science and Technology in Contemporary Japan, Vol. 1, The Occupation Period 1945–1952. Melbourne:Trans Pacific Press, pp. 249–260.
Nakayama, S. 2001d. ‹The Science Council of Japan and the Scientific and Technical Administration Committee.’ S Nakayama, K Gotō, H Yoshioka (eds.), A Social History of Science and Technology in Contemporary Japan, Vol. 1, The Occupation Period 1945–1952. Melbourne:Trans Pacific Press, pp. 224–236.
National Institute of Genetics. 1951. National Institute of Genetics (Japan) Annual Report, no. 1 (1949–1950). Mishima:National Institute of Genetics. (in English).
Nihon gakujutsu kaigi [Science Council of Japan] (ed.). 1957. Proceedings of the International Genetics Symposia, 1956. Cytologia supplementary volume. Tokyo: Organizing Committee for the International Genetics Symposia.
Nihon kagakushi gakkai [History of Science Society of Japan] (ed.). 1965. Nihon kagaku gijutsushi taikei 15-kan Seibutsu kagaku [History of Japanese science and technology, Vol. 15, Biological sciences]. Tokyo: Dai-ichi hōki.
Obayashi, M. 2005. ‹The Development of Molecular Biology in Japan.’ S Nakayama, K Gotō, H Yoshioka (eds.), A Social History of Science and Technology in Contemporary Japan, Vol. 2, Road to Self-Reliance 1952–1959. Melbourne:Trans Pacific Press, pp. 321–333.
Oguma, M. 1941. “Nihon idengaku kenkyūjo setsuritsu no teishō” [Proposal for the establishment of a national institute for genetics]. Reprinted in Nihon kagakushi gakkai (ed.), Nihon kagaku gijutsushi taikei 15-kan Seibutsu kagaku [History of Japanese science and technology, Vol. 15, Biological sciences]. Tokyo: Dai-ichi hōki, 1965, pp. 307–312.
Otsubo, S. 2005. ‹Between Two Worlds: Yamanouchi Shigeo and Eugenics in Early Twentieth-Century Japan.’ Annals of Science 62(2): 205–231.
Percival, J. 1921. The Wheat Plant. London:Duckworth.
Roll-Hansen, N. 2005. The Lysenko Effect: The Politics of Science. Amherst:Humanity Books.
Sapp, J. 1987. Beyond the Gene: Cytoplasmic Inheritance and the Struggle for Authority in Genetics. Oxford:Oxford University Press.
Sapp, J. 2003. Genesis: The Evolution of Biology. Oxford:Oxford University Press.
Shinotō, Y. 1949. Idengakushikō, dai-4-han [Lectures on the history of genetics, 4th ed.]. Tokyo: Chikara shobō.
Shinotō, Y. 1955. “Nasu no tsugiki jikken” [Experiments on eggplant grafting]. Kagaku 25(12): 602–607.
——Shinotō, Y. 1956. “1956-nen kokusai idengaku kaigi no inshō” [Impression of the 1956 International Genetics Symposia]. Iden 10(11): 3.
Shinotō, Y. 1988. “Fujii Kenjirō.” H. Kihara, Y. Shinotō and N. Isono (eds.), Kindai nihon seibutsugakusha shōden [A short biographical sketch of biologists of modern Japan]. Tokyo: Hirakawa Shuppansha, pp. 216–222.
Shinotō, Y. et al. (eds). 1967. Idengaku no ayumi: Menderu iden hōsoku 100-nen kinen [The progress of genetics: Centennial anniversary of Mendelian genetic laws]. Tokyo: Shōkabō.
Suzuki, Z. 1983. Nihon no yūseigaku: Sono shisō to undō no kiseki [Eugenics in Japan: Tracing the ideas and movement]. Tokyo: Sankyō Shuppan.
Takenaka, Y. 1959. “Kokuritsu idengaku kenkyūjo ga dekiru made” [The process of the establishment of the National Institute of Genetics]. Reprinted in Kokuritsu idengaku kenkyūjo [National Institute of Genetics] (ed.), Sōritsu 25-shūnen kinenshi [The 25th anniversary book]. Mishima: Kokuritsu idengaku kenkyūjo, 1974, pp. 157–176.
Tanaka, Y. 1961. “Nihon idengaku no yoake (2)” [The dawn of Japanese genetics (2)]. Iden 15(2): 35–37.
Tsunewaki, K. 1987. “Kihara Hitoshi sensei no nihon iden gakkai to shokubutsu idengaku ni taisuru kōken” [The contributions of Dr. Kihara Hitoshi to the Genetics Society of Japan and plant genetics (obituary)]. Japanese Journal of Genetics 62(1): 5–19.
Watkins, AE. 1930. ‹The Wheat Species: A Critique.’ Journal of Genetics 23(2): 173–263.
Woodburn, JH. 1999. 20 th Century Bioscience: Professor O. J. Eigsti and the Seedless Watermelon. Raleigh, NC:Pentland Press.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Iida, K. Practice and Politics in Japanese Science: Hitoshi Kihara and the Formation of a Genetics Discipline. J Hist Biol 43, 529–570 (2010). https://doi.org/10.1007/s10739-009-9194-z
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10739-009-9194-z