Challenges and innovations in food and water availability for a sustainable Mars colonization

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Tanushree Maity , Alok Saxena
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Abstract

In recent years, extensive research has been dedicated to Mars exploration and the potential for sustainable interplanetary human colonization. One of the significant challenges in ensuring the survival of life on Mars lies in the production of food as the Martian environment is highly inhospitable to agriculture, rendering it impractical to transport food from Earth. To improve the well-being and quality of life for future space travelers on Mars, it is crucial to develop innovative horticultural techniques and food processing technologies. The unique challenges posed by the Martian environment, such as the lack of oxygen, nutrient-deficient soil, thin atmosphere, low gravity, and cold, dry climate, necessitate the development of advanced farming strategies. This study explores existing knowledge and various technological innovations that can help overcome the constraints associated with food production and water extraction on Mars. The key lies in utilizing resources available on Mars through in-situ resource utilization. Water can be extracted from beneath the ice and from the Martian soil. Furthermore, hydroponics in controlled environment chambers, equipped with nutrient delivery systems and waste recovery mechanisms, have been investigated as a means of cultivating crops on Mars. The inefficiency of livestock production, which requires substantial amounts of water and land, highlights the need for alternative protein sources such as microbial protein, insects, and in-vitro meat. Moreover, the fields of synthetic biology and 3-D food printing hold immense potential in revolutionizing food production and making significant contributions to the sustainability of human life on Mars.

火星可持续殖民化在食物和水供应方面的挑战与创新
近年来,人们对火星探索和可持续星际人类殖民的潜力进行了广泛的研究。确保火星生命生存的重大挑战之一在于生产食物,因为火星环境非常不适合农业,从地球运输食物不切实际。为了改善未来火星太空旅行者的福祉和生活质量,开发创新的园艺技术和食品加工技术至关重要。火星环境所带来的独特挑战,如缺氧、营养缺乏的土壤、稀薄的大气、低重力和寒冷干燥的气候,使得开发先进的农业策略成为必要。本研究探讨了有助于克服火星上粮食生产和水提取相关限制的现有知识和各种技术创新。关键在于通过原地资源利用来利用火星上的现有资源。水可以从冰下和火星土壤中提取。此外,还研究了在可控环境室中进行水培,并配备营养输送系统和废物回收机制,作为在火星上培育作物的一种手段。畜牧业生产需要大量的水和土地,效率低下,这凸显了对替代蛋白质来源的需求,如微生物蛋白质、昆虫和试管肉。此外,合成生物学和三维食品打印领域在彻底改变食品生产和为人类在火星上生活的可持续性做出重大贡献方面具有巨大潜力。
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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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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