Water Vapor Adsorption Provides Daily, Sustainable Water to Soils of the Hyperarid Atacama Desert.

Water is necessary for all life on Earth. Water is so critical that organisms have developed strategies to survive in hyperarid environments. These regions with extremely low water availability are also unique analogs in which to study the physico-chemical conditions of extraterrestrial environments such as Mars. We have identified a daily, sustainable cycle of water vapor adsorption (WVA) and desorption that measurably affects soil water content (SWC) in the hyperarid region of the Atacama Desert in southern Perú. We pair field-based soil temperature and relative humidity soil profiles with laboratory simulations to provide evidence for a daily WVA cycle. Using our WVA model, we estimate that one adsorptive period-one night-increases SWC by 0.2-0.3 mg/g of soil (∼30 μm rainfall). We can plausibly rule out other water inputs during our field campaign that could account for this water input, and we provide evidence that this WVA cycle is driven by solar heating and maintained by atmospheric water vapor. The WVA may also serve to retain water from infrequent rain events in these soils. If the water provided by WVA in these soils is bioavailable, it could have significant implications for the microorganisms that are endemic to hyperarid environments.

Citation

Donald M Glaser, Hilairy E Hartnett, Damien R Finn, Saul Perez-Montaño, Hinsby Cadillo-Quiroz, Steven Desch. Water Vapor Adsorption Provides Daily, Sustainable Water to Soils of the Hyperarid Atacama Desert. Astrobiology. 2022 Sep 09

PMID: 36084088

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