@misc{10481/35398,
year = {2010},
url = {http://hdl.handle.net/10481/35398},
abstract = {The Volcanic Field of SE Spain hosts several precious/base-metal epithermal volcanic-hosted deposits[1]. Among them, Mazarron comprises several volcanic centers of high-K calc-alkaline/shoshonitic composition which show pervasive hydrothermal alteration and related Zn-Pb-Ag mineralization. Deposits occur as stockworks and vein systems of sphalerite, silver-rich galena, pyrite and marcasite with quartz and carbonates. Common Fe-Al sulfates are found in a thick net of decimetre to submillimetre sizeveins. Barite veins are also present.
Preliminary sulfur isotope study for the base-metal sulfides show a δ34S range between 5 and 13‰. In contrast, pyrite-marcasite values show a wider δ34S range: between -3 to 29‰, with depleted sulfur in earlier crystals. Barite exhibits a bimodal δ34S distribution: from +14 to +18‰ and around +54‰. δ18Obarite is more homogeneous: between +12 to +17‰); Fe-Al sulfates, show significant variations in isotopic signature of S (2-14‰), O (3 to 13‰ in SO4 and 1 to 11‰ in OH group) and D (-54 to -115‰). O isotope equilibrium  between SO4 and OH in these minerals is only established in one case, yielding a temperature of 150ºC and pointing to a typical low-temperature hydrothermal environment. 
The range in sulfide sulfur isotopic is suggestive of thermochemical sulfate reduction of sea water. The extremely enriched sulfur signatures (pyrite-marcasite and barite) indicating closed system conditions. Isotopic (e.g. depleted deuterium values) and geological evidence also support a magmatic fluid input. The Fe-Al sulfate mineralizing event may represent the waning stage of the hydrothermal system, rather than a supergene event as is invoked in other epithermal deposits with similar sulfur signatures[1]. These data therefore suggest a marine-magmatic origin for the Mazarrón ore-fluids.
Mazarron in an unusual and tantalising deposit, the origin of which involved complex mineralizing processes, not typical of epithermal volcanic-hosted deposits.},
organization = {Departamento de Mineralogía y Petrología (Universidad de Granada).
Departamento de Mineralogía y Petrología (Universidad del País Vasco).
Departamento de Didáctica de las Ciencias Experimentales (Universidad de Granada).
Instituto Andaluz de Ciencias de la Tierra (Universidad de Granada- Centro Superior de Investigaciones Científicas)},
publisher = {Elsevier},
keywords = {Mazarrón},
keywords = {Stable isotopes},
keywords = {Epithermal deposit},
keywords = {Base-metal},
title = {The Zn-Pb-(Ag) epithermal mineralization of Mazarrón (Spain). A preliminary isotope study},
doi = {10.1016/j.gca.2010.04.030},
author = {Esteba-Arispe, Iñaki and Carrillo Rosúa, Francisco Javier and Morales Ruano, Salvador and Velasco, Francisco and Yusta, Iñaki and Boyce, Adrian J.},
}