Assessment of Scientific Payload Carrying Spirulina Onboard Blue Origin’s New Shepard Vehicle

Global Journal of Researches in Engineering Pub Date : 2022-07-06 DOI:10.34257/gjrebvol22is1pg1

Pedro J. Llano, Morgan Shilling, K. Andrijauskaite, Kody Kidder, V. Duraisamy

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Abstract

The research team at ERAU and UTHSCSA analyzed the effects of suborbital flight stressors and various light conditions (red, white, no light) on the Arthrospira platensis (Spirulina), onboard Blue Origin’s New Shepard vehicle. Commercially available cyanobacterium species were cultivated and closely monitored in mother colonies several months before the suborbital flight mission. The aim of this study was to estimate the biomass production and growth as a potential dietary alternative for prospective human spaceflight's life support system. Spirulina samples were flown in a NanoLab with adjacent avionics supporting the light conditions and sensors to monitor the temperature, relative humidity, and accelerations. The various flight parameters measured in the NanoLab were validated with the flight data gathered by Nanoracks, the flight integrator. Thus, we also assessed the effect of microgravity and different light conditions on the gene expression. Our data indicates that the Spirulina samples onboard the rocket had significant (p < 0.01-0.0001) downregulation of majority of the gene expression.

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对蓝色起源公司新谢泼德飞船上携带螺旋藻的科学有效载荷的评估

ERAU和UTHSCSA的研究小组分析了亚轨道飞行压力源和各种光照条件(红色、白色、无光)对蓝色起源公司新谢泼德飞船上的螺旋藻的影响。在亚轨道飞行任务前几个月，在母菌落中培养和密切监测了商业上可用的蓝藻物种。本研究的目的是估计生物质的生产和生长作为未来人类航天生命维持系统的潜在膳食替代品。螺旋藻样本在纳米实验室中飞行，相邻的航空电子设备支持光照条件，传感器监测温度、相对湿度和加速度。在NanoLab中测量的各种飞行参数与飞行集成商Nanoracks收集的飞行数据进行了验证。因此，我们还评估了微重力和不同光照条件对基因表达的影响。我们的数据表明，火箭上的螺旋藻样品中大部分基因表达显著下调(p < 0.01-0.0001)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Global Journal of Researches in Engineering

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