"Миссия - Космос". Светлой памяти Леонида Каденюка - первого космонавта Украины

Косм. наука технол. 2018, 24 ;(1):76-85
Язык публикации: Украинский
Статья посвящена памяти Леонида Каденюка (1951-2018), первого космонавта Украины, Героя Украины. Воспоминания о совместных украинско-американских экспериментах по космической биологии, которые проводил Л.К.Каденюк во время космической миссии НАСА STS-87 в 1997 году, подготовлены профессором Е.Л. Кордюм и Н.И. Адамчук-Чалой. Воспоминания, с которыми Л.К. Каденюк и Э.И.Кузнецов поделились с участниками совместного заседания Совета по космическим исследованиям НАН Украины и Научно-технического совета ГКА Украины 5 декабря 2017 года, знакомят с этапами подготовки к полету, самого полета и событиями послеполетной жизни Л.К. Каденюка. Он написал несколько книг, последняя из которых "Леонид Каденюк. Миссия - Космос" (Киев, Новый друк, 516 с., 2017).
      Статья написана от имени членов редакционной коллегии.
Ключевые слова: STS-97, космическая биология, космонавтика: выдающиеся личности: Леонид Каденюк
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   Adamchuk  N.I., Mikhaylenko N.F., Zolotareva E.K., Hilaire E., and Guikema J.A..  Spaceflight effects on structural and some biochemical parameters of Brassica rapa photosynthetic apparatus. Journal of Gravitational Physiology 6(1):95-96 (1999).
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   Nedukha O., Leach J., Kordyum E., Ryba-White M., Hilaire E., Guikema J., and Piastuch W..  Root meristem ultrastructure of soybean seedlings infected with a pathogenic fungus in microgravity. Journal of Gravitational Physiology 6(1):125.126 (1999).
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   Kuang A., Xiao Y., McClure G., and Musgrave M. E..  Influence of microgravity on ultrastructure and storage reserves in seeds of Brassica rapa L. Annals of Botany 85(6): 851-859 (2000).
   Kuang A., Popova A., Xiao Y., and Musgrave M. E..  Pollination and embryo development in Brassica rapa L. in microgravity. International Journal of Plant Science 161(2):203-211 (2000).
   Leach J.E., Ryba-White M., Sun Q., Wu C.J., Hilaire E., Gartner C., Nedukha O., Kordyum E., Keck M., Leung H., and Guikema J.A.. Plants, plant pathogens, and microgravity--a deadly trio. Gravitational and Space Biology Bulletin14(2):15-23 (2001).
   Kuang A., Popova A., McClure A. G., and Musgrave M. E.. Dynamics of storage reserve deposition during Brassica rapa L. pollen and seed development in microgravity.  International Journal of Plant Science 166(1):85-96 (2005).
   Levine H.G.,  Sharek J.A., Johnson K.M., Stryjewski E.C., Prima V., Martynenko O., and Piastuch W.C. Growth protocols for etiolated soybeans germinated within BRIC-60 canisters under spaceflight conditions. Advances in Space Research 26(2): 311-314 (2000).
   Musgrave M. E. Realizing the potential of rapid-cycling Brassica as a model system for use in plant biology research. Journal of Plant Growth Regulation 19:314-325 (2000).
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   Musgrave, ME, Kuang, A. Reproduction during spaceflight by plants in the family Brassicaceae. Journal of Gravitational Physiology 8(1):29-32 (2001).
   Ryba-White M, Nedukha O., Hilaire E., Guikema J.A., Kordyum E., and Leach J.E..  . Growth in microgravity increases susceptibility of soybean to a fungal pathogen. Plant Cell Physiology 42(6):657-64 (2001). Includes journal cover photo: http://pcp.oxfordjournals.org/content/vol42/issue6/index.dtl
   Stout S.C., Porterfield D. M., Briarty L. G., Kuang and A., Musgrave M. E. Evidence of rootzone hypoxia in Brassica rapa L. grown in microgravity.  International Journal of Plant Science 162:249-255 (2001).
   Musgrave ME. Seeds in Space. Seed Science Research 12:1-16 (2002).
   Levine L.H., Levine H.G., Stryjewski E.C., Prima V. and Piastuch W.C.    Effect of Microgravity on isoflavonoid metabolism in etiolated soybean seedlings. J. Gravitational  Physiology 8(2):21-28 (2002).
   Adamchuk N.I., Guikema J.A., Jialo S., and Hilaire E.  State of Brassica rapa photosynthetic membranes in microgravity. Journal of  Gravitational Physiology 9(1): 229-230 (2002).
   Kochubey S.M.,. Adamchuk N.I, Kordyum E.L., Guikema J.A.. Microgravity affects the photosynthetic apparatus of Brassica rapa L. Plant Biosystems  38 (1), 1-9 ( 2003).
   Jiao S., Hilaire E., Paulsen A.Q., and Guikema J. A.  Brassica rapa plants adapted to microgravity with reduced photosystem I and its photochemical activity. Physiologia Plantarum 122(2):281-290 (2004).
   Levine H.G. and Piastuch W.C..  Growth patterns for etiolated soybeans germinated under spaceflight conditions.  Advances in Space Research 36(7):1237-1243 (2005). 
   Adamchuk N.I., Povchan M.F. Influence of clinorotation on the mesophyll and Rubisco . Acta fytotechnica et zootechnica, 2, 54-56 (2007).
   Adamchuk-Chala N.I., Yatsenko V.O., Gnedenko V.V., Pashenkovskaya I.С. Plants in space: measurements, simulations and experiments. Bulletin of the Taras Shevchenko  National University of Kyiv. Series of Physics and Mathematics, Vip. 3.71-75 (2014).
   Yatsenko VO, Petrovich VP, Adamchuk N.I., Trebina N.M. Software for analysis and evaluation of chlorophyll in vegetation. Bulletin of the Taras Shevchenko National University of Kyiv. Series: Physics and Mathematics. No. 4 (16), 71-75 (2016).
   Kordyum E.L., Chapman D.K. Plants and microgravity: Patterns of microgravity effects at the cellular and molecular levels, Cytol Genet., 51, no. 2, pp. 108–116 (2017).
OI: 10.3103/
   Musgrave, M. E. and Kuang A. 2003. Plant Reproductive Development during Spaceflight. In: H-J. Marthy (ed.), Advances in Space Biology and Medicine. Vol. 9:1-23. Elsevier.
   Kordyum E.L., Chapman D.K. Plants in Space. Kyiv: Akademperiodyka, 216 p. (2007).
    Adamchuk N.I. The effect of horizontal clinostating on the structural and functional organization of the photosynthetic apparatus of higher plants. Cosmic biology and aerospace medicine. XI Intern. Conf. (June 22-26, 1998, Moscow): Thesises. Moscow, Russian Federation, vol. 1, 13-15 (1998).
   Adamchuk N.I. Structural and functional peculiarities of photosynthetic apparatus of plants when changing gravity. Abstracts in "Man and Space", All-Ukrainian Youth Scientific and Practical Conference (May 19-23, 1999, Dnipropetrovsk), Dnipropetrovsk, pp. 209 (1999).
   Adamchuk N.I.,  Jialo S.H.,  Hilaire E., Guikema J.A. Adaptive rearrangement of photomembranes of leaves of Brassica rapa sprouts that grew in microgravity. XI Congress of the Ukrainian Botanical Society (September 2001, Kharkiv): Abstracts, pp. 4-5 (2001).
    Adamchuk N.I.  Structural and functional organization of mesophyll cells  of  Brassica  rapa  plants grown in microgravity. Abstract in: Gravitational and space biology bulletin, v. 12, N1, oct. 1998, P. 46.
   Adamchuk N.I. Structural organization of plant leaves an mesophyll cells in B. rapa. B-PAC experiment. Science Milestones,  N3, P. 5 (1998).
   Adamchuk N.I., Kordyum E.L. Structure of photosynthetic apparatus in higher plants in microgravity. Photosynthesis and Crop Production, International conference (7-11 October 2002, Kyiv): Abstracts, Kyiv,  P. 113 (2002).
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   Dreschel, T.W., P.V. Chetirkin, S. Behel, and V.I. Nazarenko.  2001. Collaborative Ukrainian Experiment-Science and Technology Exchange Program for Students (CUE-STEPS). Abstract to The 38th Annual Space Congress, May, 2001.
   Dreschel, T.W., P.V. Chetirkin, L.C. Garner, and V.I. Nazarenko.  2005.  International Space Education Outreach:  Taking Exploration to the Global Classroom. Abstract at The 35th International Conf. on Environmental Systems (ICES) and the 8th European Symposium on Space Environmental Control Systems (ESSECS), Rome, Italy.
   Kuang, A., A. Popova, Y. Xiao, and M.E. Musgrave.  1998.  Pollination and embryo development in Brassica rapa on STS-87.  Gravitational and  Space Biology Bulletin 12:77.
   Kuang, A., Y. Xiao, and M. E. Musgrave.  1998. Reproduction on orbit by plants in the family Brassicaceae.  COSPAR Abstracts, July 12-19, Nagoya, Japan. p. 380.
   Kuang, A, and Musgrave, M.E. 2000. Changes in cotyledon cell ultrastructure during Brassica rapa seed development in microgravity. Gravitational and Space Biology Bulletin 14:34.
   Porterfield, D.M., O. Monje, G.W. Stutte, and M.E. Musgrave. 2000. Rootzone hypoxic responses result from inhibition of gravity dependent oxygen transport in microgravity. Gravitational and Space Biology Bulletin 14:50.
   Williams, P.H., C. M. Williams, C. M. Roden, T. Dreschel, and M. E. Musgrave. 1996. CUE-TSIPS, Cooperative Ukrainian Experiment - Teachers and Students Investigating Plants in Space. Gravitational and Space Biology Bulletin 10(1): 13 (abstr.)