M. Stein et al., The impact of brine-rock interaction during marine evaporite formation on the isotopic Sr record in the oceans: Evidence from Mt. Sedom, Israel, GEOCH COS A, 64(12), 2000, pp. 2039-2053
The effect of brine-rock interaction on the composition of strontium in eva
poritic basins and its impact on the Sr-87/Sr-86 ratios in contemporaneous
seawater are examined for the Sedom (Dead Sea Rift Valley, or DSR), the Mes
sinian (Mediterranean) and the Louann (Gulf of Mexico) evaporites.
For that purpose, mineralogical, chemical and isotopic (Sr, S) analyses wer
e performed on the Sedom Fm. evaporites (halite, anhydrite and dolomite). 8
7Sr/86Sr ratios are distinctively lower in the Sedom evaporites (dolomites:
0.7082-0.7083; halites: 0.7083-0.7087) than in the contemporaneous late Pl
iocene seawater (approximate to 0.709). At the same time the sulfur isotope
ratios (delta(34)S approximate to 20 parts per thousand) are consistent wi
th deposition from late Cenozoic seawater. This duality, together with the
variation of strontium isotopes between the dolomites and halites can he ex
plained by modification of the Sr-87/Sr-86 ratio in the lagoon water by inf
lux of Ca-Chloride brines. The brines were formed by dolomitization of mari
ne carbonates of the DSR Cretaceous wall rocks (where Sr-87/Sr-86 similar t
o 0.7077).
Brine-rock interaction can similarly explain the anomalous Sr-87/Sr-86 rati
os in the Messinian and Louann evaporites. It is concluded that this proces
s causes significant changes in the Sr-87/Sr-86 ratios of evaporitic lagoon
s.
A water and strontium mass balance of the Sedom data is used to show the im
pact on the strontium oceanic budget. Extrapolation to larger evaporitic ba
sins indicates that the combined global riverine and hydrothermal influx of
strontium can be matched by halite or gypsum precipitating lagoon of 2-3.5
X 10(5) km(2). Examples for such evaporitic sites include the Messinian, L
ouann and Zechstein basins. Copyright (C) 2000 Elsevier Science Ltd.