Anna Missuna

Anna Missuna
Born(1868-11-12)12 November 1868
Died2 May 1922(1922-05-02) (aged 53)
Alma materMoscow Highest Women's Courses
Scientific career
FieldsGeology

Anna Boleslavovna Missuna (12 November 1868 – 1922) was a Russian-born Polish geologist, mineralogist, and paleontologist.[1]

Early life

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Missuna was born in the Vitebsk Region (then part of the Russian empire, now part of Belarus). Her parents were Polish. She was educated in Riga, where she learned to speak German, and in Moscow, where she had a scholarship for higher education from 1893 to 1896. She pursued further study in mineralogy with Vladimir Vernadsky[2] and crystallographer Evgraf Fedorov.[1]

Career

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Her first geology article appeared in 1898, a study of the crystalline forms of ammonium sulfate, co-authored with L. V. Yakovleva, published in the journal of the Moscow Naturalist Society. She worked often with V. D. Sokolov on the study of Quaternary deposits. She wrote scientific articles about finite moraines in Poland, Lithuania, and Russia,[3] glacial features in Belarus and Latvia, and the Jurassic corals of Crimea.[4] She published articles and monographs in both Russian and German.[1]

From 1907 to 1922, Missuna was a chemistry professor at her alma mater, the Moscow Highest Women's Courses, assisting V. D. Sokolov.[5] She also taught petrography, paleontology, historical geology, and historical geography.[1]

Missuna died in 1922, aged 53 years.[1]

References

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  1. ^ a b c d e Ogilvie, Marilyn Bailey; Harvey, Joy Dorothy (2000). The Biographical Dictionary of Women in Science: L-Z. Taylor & Fracis. pp. 899–900. ISBN 9780415920407.
  2. ^ Boris Ye. Borudsky, "Geochemical Mineralogy by Vladimir Ivanovitc Vernadsky and the Present Times" New Data on Minerals 48(2013): 102.
  3. ^ Wright, William Bourke (1914). "The Quaternary Ice Age". Macmillan and Company. pp. 116–117.
  4. ^ Lockyer, Sir Norman (1905). "Nature".
  5. ^ Valkova, Olga (2008). "The Conquest of Science: Women and Science in Russia, 1860-1940". Osiris. 23. page 154 of 136–165. doi:10.1086/591872. JSTOR 40207006. PMID 18831320. S2CID 19383044.