JpGU-AGU Joint Meeting 2020

講演情報

[E] 口頭発表

セッション記号 M (領域外・複数領域) » M-IS ジョイント

[M-IS17] アストロバイオロジー

コンビーナ:薮田 ひかる(広島大学大学院理学研究科地球惑星システム学専攻)、杉田 精司(東京大学大学院理学系研究科地球惑星科学専攻)、深川 美里(国立天文台)、藤島 皓介(東京工業大学地球生命研究所)

[MIS17-13] 国際宇宙ステーション曝露部での宇宙塵と微生物の曝露・捕集実験:たんぽぽの三年度回収試料の分析結果と現状

*山岸 明彦1,2橋本 博文2矢野 創2河口 優子9横堀 伸一1小林 憲正3三田 肇4薮田 ひかる5東出 真澄6田端 誠7今井 英一8 (1.東京薬科大学生命科学部、2.宇宙科学研究所、3.横浜国立大学、4.福岡工業大学、5.広島大学、6.JAXA、7.千葉大学、8.長岡技術科学大学、9.千葉工業大学)

キーワード:微生物、 有機物、国際宇宙ステーション

Tanpopo, a dandelion in Japanese, is a plant species whose seeds with floss are spread by wind.We proposed this mission to examine possible interplanetary migration of microbes, and organic compounds at the Exposure Facility of Japan Experimental Module (JEM: KIBO) of theInternational Space Station (ISS) [1-4]. The Tanpopo mission consists of six subthemes: Capture of microbes in space (Subtheme 1), exposure of microbes in space (Subtheme 2), analysisof organic compounds in interplanetary dust (Subtheme 3), exposure of organic compounds inspace (Subtheme 4), measurement of space debris at the ISS orbit (Subtheme 5), and evaluationof ultralow-density aerogel developed for the Tanpopo mission (Subtheme 6). Exposure Panels for exposure of microbes and organic materials and Capture Panels for aerogel were launched onApril 2015. The Panels were placed on the Exposed Experiment Handrail Attachment Mechanism (ExHAM) in the ISS. The ExHAM with Panels were placed on the Exposure Facilityof KIBO (JEM) with the Japanese robotic arms through the airlock of KIBO. The trays andpanels were exposed for more than one year. The first set of Capture Panels and an ExposurePanel were retrieved on June 2016, returned to the ground and passed over to Tanpopo teamfor the analyses in September. Second- and third- year sets have been returned in 2017 and2018, respectively. Aerogel blocks in Capture Panels are inspected by the automated microimage detector CLOXS. Tracks and particles identified will be used for organic and inorganiccompounds, as well as microscopic analyses [3]. An Exposure Panel consists of 20 ExposureUnits. The returned Exposure Panel was disassembled to the units, each was handed overto the researchers for organic compound and microbiological analyses [4] to test the panspermia hypothesis in the latter [5,6]. Environmental data and survival of a radioresistant speciesDeinococcus aetherius after one-year exposure in space have been published [7]. Current statuswill be presented.

1)Yamagishi, A. et al.: Tanpopo: Astrobiology exposure and micrometeoroid capture experiments — Proposed experiments at the Exposure Facility of ISS-JEM. ISTS29 Special IssuePublication 2013-k-49, (2014)
2)Kawaguchi Y, et al.: Investigation of the interplanetary transfer of microbes in the Tanpopomission at the Exposed Facility of the International Space Station. Astrobiology, 16, 1-14(2016)
3)Kawaguchi Y, et. al.: Fluorescence imaging of microbe- containing particles that had beenshot from a two-stage light-gas gun into an ultra-low density silica aerogel. Origins of Life andEvolution of Biospheres, 44, 43-60 (2014)
4)Kawaguchi Y, et. al.: The possible interplanetary transfer of microbes: Assessing the viability of Deinococcus spp. under the ISS environmental conditions for performing exposureexperiment of microbes in the Tanpopo mission. Origins of Life and Evolution of Biospheres43, 411-428 (2013.)
5)Arrhenius, S. A.: Worlds in the making: The evolution of the Universe, Harper and Brothers,New York, 1908
6)Horneck, G., Klaus, D. M. and Mancinelli, R. L.: Space microbiology. Microbiol. Mol. Biol.Rev., 74, 121-156 (2010)
7) Yamagishi, A. et al. Environmental Data and Survival Data of Deinococcus aetherius fromthe Exposure Facility of the Japan Experimental Module of the International Space Stationobtained by the Tanpopo Mission. Astrobiology, 18, 1369-1374, (2018)