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A Modular 3D-Printed Design To Investigate Prebiotic Chemical Systems In Hot Spring Pools

By Keith Cowing

Press Release

Astrobiology via PubMed

March 30, 2026

Filed under Astrobiology via PubMed, biochemistry, biophysics, genomics, hot spring pool, hydrothermal, membrane, oligolamellar vesicle, organic chemistry, origin of life, phospholipids, prebiotic chemistry, protocell, unilamellar vesicle

A Modular 3D-Printed Design To Investigate Prebiotic Chemical Systems In Hot Spring Pools — Photograph of the model hot spring pools system showing the assembled pools with temperature probes placed in the cups and heating pads inserted underneath for controlling temperature. Power supply provides electricity for heating pads, and an Arduino Uno is connected via USB-type-C cable to a laptop for PID (Proportional-IntegralDerivative) control. Blue-colored LEDs in the Arduino Uno turn off when the setpoint is reached and back on to maintain the temperature in the rehydration phase of the WD cycles. Water flow control is managed by the mini-peristaltic pumps connected to the water control unit. — Astrobiology

The emergence of protocells, membranous compartments with encapsulated genetic material, was a crucial step in life’s origin and evolution. The hot spring hypothesis for the origin of life suggests that protocells with the capacity to encapsulate organic matter could have formed in hot spring pools during wet–dry (WD) cycling of hydrothermal fluids.

Previous investigations have focused on mimicking WD cycles within a single pool, which precludes simulation of many hydrothermal field conditions, such as different mineralogies and variable temperature, pH, and water flow within and between multiple hot spring pools.

Here, we present a modular 3D-printed hydrothermal field simulator that mimics many more aspects of the complex nature of hot spring fields by controlling the temperature, pH, and mineralogical variability of a series of linked pools. Furthermore, the pools can be programmed to experience fluid mixing between proximal pools and periodic WD cycling events.

Results with the prototype hot spring field design demonstrate the ability to spontaneously form lipid vesicles that encapsulate organic matter within membranous compartments comprised of decanoic acid:decanol (4:1) or the phospholipids POPC:POPG (1:1). We observed that the vesicles formed during multiple WD cycles in the simulator pools displayed variation in their size distribution and differences in the number of membrane layers. Cargo encapsulation was favored in giant unilamellar vesicles and oligolamellar vesicles.

Overall, the hot spring simulator offers a novel and customizable approach for studying multiple processes within hydrothermal field dynamics that include prebiotic chemical reactions, mineral surface catalysis, and the complexities of fluid mixing between proximal hot spring pools.

A Modular 3D-Printed Design to Investigate Prebiotic Chemical Systems in Hot Spring Pools, Astrobiology via PubMed
A Modular 3D-Printed Design to Investigate Prebiotic Chemical Systems in Hot Spring Pools, Astrobiology (open access)

Astrobiology, Tricorder,

Keith Cowing

Explorers Club Fellow, ex-NASA Space Station Payload manager/space biologist, Away Teams, Journalist, Lapsed climber, Synaesthete, Na’Vi-Jedi-Freman-Buddhist-mix, ASL, Devon Island and Everest Base Camp veteran, (he/him) 🖖🏻

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