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Plants grown in Apollo lunar regolith present stress-associated transcriptomes that inform prospects for lunar exploration.

Anna-Lisa PaulStephen M ElardoRobert J Ferl
Published in: Communications biology (2022)
The extent to which plants can enhance human life support on other worlds depends on the ability of plants to thrive in extraterrestrial environments using in-situ resources. Using samples from Apollo 11, 12, and 17, we show that the terrestrial plant Arabidopsis thaliana germinates and grows in diverse lunar regoliths. However, our results show that growth is challenging; the lunar regolith plants were slow to develop and many showed severe stress morphologies. Moreover, all plants grown in lunar soils differentially expressed genes indicating ionic stresses, similar to plant reactions to salt, metal and reactive oxygen species. Therefore, although in situ lunar regoliths can be useful for plant production in lunar habitats, they are not benign substrates. The interaction between plants and lunar regolith will need to be further elucidated, and likely mitigated, to best enable efficient use of lunar regolith for life support within lunar stations.
Keyphrases
  • arabidopsis thaliana
  • reactive oxygen species
  • endothelial cells
  • genome wide
  • climate change
  • ionic liquid
  • genome wide identification