A carbonate-rich lake solution to the phosphate problem of the origin of life Article Swipe

PDF

Related Concepts

Phosphate Carbonate Apatite Chemistry Abiogenesis Phosphate minerals Phosphorite Environmental chemistry Carbonate minerals Inorganic chemistry Mineralogy Biochemistry Biology Organic chemistry Astrobiology

J. D. Toner , David C. Catling ·

YOU? · · 2019 · Open Access · · DOI: https://doi.org/10.1073/pnas.1916109117 · OA: W2996847227

Significance Phosphate is crucial for the origin of life because it is ubiquitous in key biomolecules. A major issue is that prebiotic syntheses use concentrated phosphate to incorporate phosphate into biomolecules, whereas natural waters are generally phosphate-poor because phosphate reacts with calcium to form low-solubility apatite minerals. Here we show that carbonate-rich lakes can concentrate phosphate to >1 molal levels by locking up calcium in carbonate minerals, which prevents phosphate removal by apatite precipitation. Phosphate-rich lakes may have preferentially formed on the prebiotic Earth because of carbonic acid weathering under CO 2 -rich atmospheres and the absence of microbial phosphate consumption. This specifically points to an origin of life in carbonate-rich lakes, and so defines aqueous conditions that prebiotic chemists should consider.