在中国空间站上进行从种子到种子的植物研究的生物培养舱

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-04-24 DOI:10.1016/j.lssr.2024.04.005
Chaoxian Jia , Weibo Zheng , Fangwu Liu , Kun Ding , Yongchun Yuan , Junjun Wang , Dazhao Xu , Tao Zhang , Huiqiong Zheng
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引用次数: 0

摘要

在太空中长期培育高等植物对研究微重力对植物生长发育的影响具有重要作用,可为开发可自我维持的太空生命支持系统提供宝贵的启示。中国空间站(CSS)的建成为我们提供了一个新的永久性空间实验平台,用于长期的空间植物研究。安装在中国空间站文天实验舱的生物培养舱(GBCM)的建造目标是在太空中培育拟南芥和水稻植物的完整生命周期。在该系统中,拟南芥和水稻的干种子被放置在四个培养室(CC)的根模块中,并于2022年7月24日随文天座发射升空。这些种子从 7 月 28 日开始浇水发芽,直到 11 月 26 日长出新的种子,历时 120 天。为此,拟南芥和水稻植物都在CSS上完成了微重力条件下的整个生命周期。据了解,这是首次在太空中实现水稻从种子到种子的完整生命周期的太空实验。这一成果证明了在航天环境下对重要的粮食作物水稻进行全生命周期培养的可能性,GBCM的技术有效地支持了空间植物长期培养实验的成功。这些成果可作为今后构建更广阔、更复杂的空间植物栽培系统的宝贵参考。
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Biological culture module for plant research from seed-to-seed on the Chinese Space Station

The long-term cultivation of higher plants in space plays a substantial role in investigating the effects of microgravity on plant growth and development, acquiring valuable insights for developing a self-sustaining space life supporting system. The completion of the Chinese Space Station (CSS) provides us with a new permanent space experimental platform for long-term plant research in space. Biological Culture Module (GBCM), which was installed in the Wentian experimental Module of the CSS, was constructed with the objective of growing Arabidopsis thaliana and rice plants a full life cycle in space. The techniques of LED light control, gas regulation and water recovery have been developed for GBCM in which dry seeds of Arabidopsis and rice were set in root module of four culture chambers (CCs) and launched with Wentian module on July 24, 2022. These seeds were watered and germinated from July 28 and grew new seeds until November 26 within a duration of 120 days. To this end, both Arabidopsis and rice plants completed a full life cycle in microgravity on the CSS. As we know, this is the first space experiment achieving rice complete life cycle from seed-to-seed in space. This result demonstrates the possibility to cultivate the important food crop rice throughout its entire life cycle under the spaceflight environment and the technologies of GBCM have effectively supported the success of long-term plant culture experiments in space. These results can serve as invaluable references for constructing more expansive and intricate space plant cultivation systems in the future.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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