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Alkaline vents recreated in two dimensions to study pH gradients, precipitation morphology and molecule accumulation

Alkaline vents recreated in two dimensions to study pH gradients, precipitation morphology and molecule accumulation

Authors :
Weingart, Maximilian
Chen, Siyu
Donat, Clara
Helmbrecht, Vanessa
Orsi, William D.
Braun, Dieter
Alim, Karen
Publication Year :
2023

Abstract

Alkaline vents (AV) are hypothesized to have been a setting for the emergence of life, by creating strong gradients across inorganic membranes within chimney structures. In the past, 3-dimensional chimney structures were formed under laboratory conditions, however, no in situ visualisation or testing of the gradients was possible. We develop a quasi-2-dimensional microfluidic model of alkaline vents that allows spatio-temporal visualisation of mineral precipitation in low volume experiments. Upon injection of an alkaline fluid into an acidic, iron-rich solution, we observe a diverse set of precipitation morphologies, mainly controlled by flow-rate and ion-concentration. Using microscope imaging and pH dependent dyes, we show that finger-like precipitates can facilitate formation and maintenance of microscale pH gradients and accumulation of dispersed particles in confined geometries. Our findings establish a model to investigate the potential of gradients across a semi-permeable boundary for early compartmentalisation, accumulation and chemical reactions at the origins of life.<br />Comment: 13 pages, 4 figures

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.2303.10156
Document Type :
Working Paper