科技报告详细信息
Leafy Greens Grown on the International Space Station May Provide a Nutritious Supplement to Astronauts' Diet
Khodadad, Christina L M ; Hummerick, Mary E ; Spencer, Lashelle E ; Dixit, Anirudha R ; Romeyn, Matthew W ; Smith, Trent M ; Wheeler, Raymond M ; Massa, Gioia D
关键词: VEGETATION GROWTH;    FARM CROPS;    BACTERIA;    FUNGI;    PATHOGENS;    COUNTING;    CLOSED ECOLOGICAL SYSTEMS;    SEQUENCING;    CHEMICAL ANALYSIS;    ASTRONAUTS;    SPACE FLIGHT FEEDING;    DIETS;    INTERNATIONAL SPACE STATION;    NASA SPACE PROGRAMS;   
RP-ID  :  KSC-E-DAA-TN66205
学科分类:生物科学(综合)
美国|英语
来源: NASA Technical Reports Server
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【 摘 要 】

Supplemental safe food production has been an essential goal of NASA to meet the nutritional needs of astronauts on the International Space Station (ISS) as well as for future long duration missions to the moon and beyond. Food crops grown in space experience different environmental conditions than plants grown on Earth (i.e. microgravity and spaceflight physical sciences impacts). To test the growth methods and effects of the space environment, red romaine lettuce Lactuca sativa cv. 'Outredgeous', was grown in Veggie plant growth chambers on the ISS. Microbiological food safety of the plants grown on the ISS was determined by heterotrophic plate counts to assess total microbial load for bacteria and fungi as well as screening for specific pathogens and isolate identification. Molecular characterization was completed using Next Generation Sequencing (NGS) to provide valuable information on the taxonomic composition and community structure of the plant microbiome. Chemical analyses of plant tissue were conducted to understand spaceflight-induced changes in key elements in the space diet, phenolics, anthocyanin levels, and Oxygen radical absorbance capacity (ORAC), a measure of antioxidant capacity. Three growth tests of red romaine lettuce were completed on ISS, VEG-01A, VEG-01B, and VEG-03A. Plants were harvested using two harvest methods, either a single terminal harvest (after 33 days) or cut-and-come-again repetitive harvesting (64 days total growth). Ground controls were grown simultaneously with a delay to accommodate condition monitoring and replication. A comparison of the plant tissue returned to Earth showed leaves from the second grow-out had significantly higher bacterial counts than the preceding or subsequent growth test or any of the ground controls. Fungal counts were significantly higher on the final cut-and-come-again harvest of the third grow out. None of the potential foodborne pathogens that were screened for were detected. Bacterial and fungal isolate identification and community characterization indicated similar diversity between VEG-01A and VEG-01B growth tests, however, there appeared to be subtle differences in diversity and distribution among the three growth tests. Chemical analysis of plant tissue revealed significant variation in a few elemental data, but variation in levels of phenolics, anthocyanins, and ORAC was not significantly different. This study indicated that leafy vegetable crops could safely provide an edible supplement to astronauts' diet, and our analysis provided baseline data for continual operation of the Veggie plant growth units on ISS. This research was funded by NASA's space biology program.

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