Energy yields for hydrogen cyanide and formaldehyde syntheses: The hcn and amino acid concentrations in the primitive ocean |
| |
Authors: | Roscoe Stribling Stanley L Miller |
| |
Institution: | (1) Department of Chemistry B-017, University of California, 92093 San Diego, La Jolla, CA, U.S.A. |
| |
Abstract: | Prebiotic electric discharge and ultraviolet light experiments are usually reported in terms of carbon yields and involve
a large input of energy to maximize yields. Experiments using lower energy inputs are more realistic prebiotic models and
give energy yields which can be used to estimate the relative importance of the different energy sources on the primitive
earth.
Simulated prebiotic atmospheres containing either CH4, CO or CO2 with N2, H2O and variable amounts of H2 were subjected to the spark from a high frequency Tesla coil. The energy yields for the synthesis of HCN and H2CO were estimated. CH4 mixtures give the highest yields of HCN while H2CO is most efficiently produced with the CO mixtures. These results are a model for atmospheric corona discharges, which are
more abundant than lightning and different in character. Preliminary experiments using artificial lightning are also reported.
The energy yields from these experiments combined with the corona discharge available on the earth, allows a yearly production
rate to be estimated. These are compared with other experiments and model calculations. From these production rates of HCN
(e.g. 100 nmoles cm−2 yr−1) and the experimental hydrolysis rates, the steady state concentration in the primitive ocean can be calculated (e.g., 4
× 10−6 M at pH 8 and 0°). A steady state amino acid concentration of 3 × 10−4 M is estimated from the HCN production rate and the rate of decomposition of the amino acids by passage through the submarine
vents. |
| |
Keywords: | |
本文献已被 SpringerLink 等数据库收录! |
|