Behavior and Reproduction of Invertebrate Animals During and After A Long-Term Microgravity: Space Experiments Using An Autonomous Biological System(ABS).

  • Ijiri Kenichi
    Radioisotope Center, University of Tokyo,Yayoi, Bunkyo-ku, Tokyo, 113-0032, Japan
  • Mizuno Rie
    Radioisotope Center, University of Tokyo,Yayoi, Bunkyo-ku, Tokyo, 113-0032, Japan
  • Narita Takanori
    Radioisotope Center, University of Tokyo,Yayoi, Bunkyo-ku, Tokyo, 113-0032, Japan
  • Ohmura Terue
    Fujita Health University, Toyoake, Aichi, 470-1192, Japan
  • Ishikawa Yoji
    Obayashi Corporation, Shimokiyoto, Kiyose, Tokyo 204-0011, Japan
  • Yamashita Masamichi
    Space Utilization Research Center, Institute of Space and Astronautical Science, Yoshino-dai, Sagamihara, Kanagawa 229-8510, Japan
  • Anderson Grant
    Paragon Space Development Corporation, 810 E. 47th St., Suite 104, Tucson, Arizona 85713, USA
  • Poynter Jane
    Paragon Space Development Corporation, 810 E. 47th St., Suite 104, Tucson, Arizona 85713, USA
  • MacCallum Taber
    Paragon Space Development Corporation, 810 E. 47th St., Suite 104, Tucson, Arizona 85713, USA

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Abstract

Aquatic invertebrate animals such as Amphipods, Gastropods (pond snails), Ostracods and Daphnia (water flea) were placed in water-filled cylindrical vessels together with water plant (hornwort). The vessels were sealed completely and illuminated with a fluorescent lamp to activate the photosynthesis of the plant for providing oxygen within the vessels. Such ecosystem vessels, specially termed as Autonomous Biological System or ABS units, were exposed to microgravity conditions, and the behavior of the animals and their reproduction capacity were studied. Three space experiments were carried out. The first experiment used a Space shuttle only and it was a 10-day flight. The other two space experiments were carried out in the Space station Mir (Shuttle⁄Mir mission), and the flight units had been kept in microgravity for 4 months. Daphnia produced their offspring during a 10-day Shuttle flight. In the first Mir experiment, no Daphnia were detected when recovered to the ground. However, they were alive in the second Mir experiment. Daphnia were the most fragile species among the invertebrate animals employed in the present experiments. All the animals, i.e., Amphipods, pond snails, Ostracods and Daphnia had survived for 4 months in space, i.e., they had produced their offspring or repeated their life-cycles under microgravity. For the two Mir experiments, in both the flight and ground control ecosystem units, an inverse relationship was noted between the number of Amphipods and pond snails in each unit. Amphipods at 10 hours after the recovery to the ground frequently exhibited a movement of dropping straight-downward to the bottom of the units. Several Amphipods had their legs bent abnormally, which probably resulted from some physiological alterations during their embryonic development under microgravity. From the analysis of the video tape recorded in space, for Ostracods and Daphnia, a half of their population were looping under microgravity. Such looping animals could be observed still at the end of the 4 month stay in space. No looping behavior was noted for Amphipods and pond snails.

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