2022
DOI: 10.1038/s41526-022-00240-5
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On the growth dynamics of the cyanobacterium Anabaena sp. PCC 7938 in Martian regolith

Abstract: The sustainability of crewed infrastructures on Mars will depend on their abilities to produce consumables on site. These abilities may be supported by diazotrophic, rock-leaching cyanobacteria: from resources naturally available on Mars, they could feed downstream biological processes and lead to the production of oxygen, food, fuels, structural materials, pharmaceuticals and more. The relevance of such a system will be dictated largely by the efficiency of regolith utilization by cyanobacteria. We therefore … Show more

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Cited by 12 publications
(14 citation statements)
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“…If cyanobacteria are grown using resources naturally available on Mars, factors unrelated to atmospheric conditions are likely to limit growth. These may, for instance, be the presence of toxic compounds (e.g., perchlorates) in the liquid phase and the limited availability of elements leached from regolith 4 . For the sake of resource efficiency, N2 and CO2 could then be provided at the lowest partial pressures which can sustain the growth rates supported by the other factors.…”
Section: Minimum Total Pressure Required To Support the Photoautotrop...mentioning
confidence: 99%
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“…If cyanobacteria are grown using resources naturally available on Mars, factors unrelated to atmospheric conditions are likely to limit growth. These may, for instance, be the presence of toxic compounds (e.g., perchlorates) in the liquid phase and the limited availability of elements leached from regolith 4 . For the sake of resource efficiency, N2 and CO2 could then be provided at the lowest partial pressures which can sustain the growth rates supported by the other factors.…”
Section: Minimum Total Pressure Required To Support the Photoautotrop...mentioning
confidence: 99%
“…Bioproduction systems that rely on diazotrophic, rock-weathering cyanobacteria for in situ resource utilization (ISRU) have been proposed as means of increasing the sustainability of crewed missions to Mars 1 . According to this proposal, cyanobacteria would be fed with water mined from the ground; carbon and nitrogen sourced from the atmosphere 2 ; and the local regolith, from which it has been argued that they could extract the other necessary nutrients 3,4 . They would produce various consumables directly, such as dioxygen and dietary supplements, but also support the growth of secondary producers (e.g., plants 5 or microorganisms 2,6,7 ).…”
Section: Introductionmentioning
confidence: 99%
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“…Although a great deal of progress has been made to adapt these organisms to utilization of single-carbon feedstocks 81 , 82 , they are still outclassed by organisms naturally capable of these functions 83 – 85 . Therefore, species with nutritional modes and metabolism uniquely suited to leverage resources available through LC and ISRU must be considered for development of ISM systems, basing their selection on application (feedstock/product pairing, scale, continuity, and responsiveness of the respective process) and scenario-specific criteria (environmental parameters) 34 , 86 , 87 . Specifically, organisms with the ability to assimilate single-carbon compounds alongside organics (mixotrophy) are most suitable.…”
Section: Integrating Biomanufacturing With Mission-architecturementioning
confidence: 99%
“…One strategy proposed to feed these organisms lies in using selected species of diazotrophic, rock-weathering cyanobacteria as primary producers (12). An expanding body of work suggests that these could be fed with local resources: water mined from the ground and atmosphere; carbon and nitrogen sourced from the atmosphere as CO2 and N2 (13,14); and other nutrients leached from the local regolith (the Martian soil) (15)(16)(17). The cultivated cyanobacteria could then produce various consumables directly, such as O2, dietary proteins or biomaterials (18,19), but also be used for feeding heterotrophic microorganisms (13,20,21), plants (22), or other secondary producers.…”
Section: Introductionmentioning
confidence: 99%