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HERO ID
2956074
Reference Type
Journal Article
Title
Large celestine orebodies formed by early-diagenetic replacement of gypsified stromatolites (Upper Miocene, Montevive-Escuzar deposit, Granada Basin, Spain)
Author(s)
Garcia-Veigas, J; Rosell, L; Cendon, DI; Gibert, L; Martin, JM; Torres-Ruiz, J; Orti, F
Year
2015
Is Peer Reviewed?
1
Journal
Ore Geology Reviews
ISSN:
0169-1368
EISSN:
1872-7360
Volume
64
Page Numbers
187-199
DOI
10.1016/j.oregeorev.2014.07.009
Web of Science Id
WOS:000344428100013
Abstract
The Montevive and the Escuzar stratabound celestine orebodies in the Upper Miocene evaporite succession of the intramontane Granada Basin (Spain) constitute one of the largest strontium deposits in the world. Celestine occurs within a gypsum/anhydrite-halite evaporite sequence where it replaces gypsum and gypsified stromatolites preserving carbonate peloids. Sr-87/Sr-86 and delta S-34 values in the Montevive celestine deposit are close to those reported for the saline unit (Chimeneas Halite; marine to nonmarine) but higher than those of the overlying gypsum unit (Agron Gypsum; nonmarine). Sr-87/Sr-86 and delta S-34 isotope values in the Escuzar celestine deposit match the nonmarine values recorded in the upper part of the Agron Gypsum. The similarity in isotope values between celestine and the corresponding gypsum host in the Escuzar deposit points to early-diagenetic mineralization. According to that, both orebodies are diachronous. Gypsum pseudomorphs and molds, intraformational breccias and karst structures in these celestine deposits point to dissolved gypsum as the main sulfate source. Diagenetic-hydrothermal CaCl2 brines are interpreted to be the main strontium source. The spatial relationship between gypsified stromatolites and the ore deposits suggests the existence of coeval thermal springs related to fractures, bordering the saline lake. The proposed model envisages gypsum dissolution by SO-poor and Sr2+-rich, CaCl2 diagenetic-hydrothermal water discharging in coastal ponds at times of dry periods and low meteoric water inflow. The increase in SO42- concentration by gypsum dissolution and the low solubility of SrSO4 would lead to celestine precipitation replacing gypsum and gypsified stromatolites. (C) 2014 Elsevier B.V. All rights reserved.
Keywords
Celestine; Evaporites; Sr-87/Sr-86; Sulfate isotopes; Upper Miocene
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