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oai:riuma.uma.es:10630/355272026-02-03T11:01:49Zcom_10630_2254col_10630_37953

00925njm 22002777a 4500 dc Giampouras, Manolis author Garrido, Carlos J. author Zwicker, Jennifer author Vadillo-Pérez, Iñaki author Smrzka, Daniel author Bach, Wolfgang author Peckmann, Jörn author Jiménez-Gavilán, Pablo author Benavente, José author García-Ruíz, Juan M. author 2019-12-15 We present a detailed study of the water geochemistry, mineralogy and textures in serpentinization- related hyperalkaline springs in the Ronda peridotites. Ronda waters can be classified into hyperalka- line fluids and river waters that are broadly similar to Ca+2-OH- and Mg+2-HCO3- water types described in serpentinite-hosted alkaline springs elsewhere. At the discharge sites of the fluids (fractures or human made outlets) and ponds along the fluid flow paths, the fluids are hyperalkaline (10.9 < pH < 12) and characterized by low Mg and high Na, K, Ca, and Cl- concentrations. River waters, occurring near the spring sites, are mildly alkaline (8.5 < pH < 8.9) and enriched in Mg and DIC compared to Na, K, Ca and Cl-. The chemistry of Ronda Mg+2-HCO3 river waters is likely due to the hydrolysis of ferromagnesian peridotite minerals in equilibrium with the atmosphere by infiltrated meteoric water and shallow groundwater in the serpentinized peridotite. The Ronda Ca+2-OH- hyperalkaline fluids are generated by the combination of low temperature serpentinization reactions from infiltrated surface Mg+2-HCO3- river waters or Ca+2-HCO3 waters from near karst aquifersd and deep carbonate precipitation isolated from atmospheric CO2. Mass balance calculations indicate that the weathering of Ca-bearing peridotite silicates, such as diopside, is a feasible source of Ca in Ronda Ca+2-OH hyperalkaline fluids; however, it requires steady-state dissolution rates substantially greater than those determined experimentally. Travertine, crystalline crusts and sediment deposits comprise the types of solid precipitates observed in Ronda hyperalkaline spring sites. Calcite, aragonite, dolomite and Mg-Al-rich clays are the main mineral phases identified in the spring sites. Manolis Giampouras, Carlos J. Garrido, Jennifer Zwicker, Iñaki Vadillo, Daniel Smrzka, Wolfgang Bach, Jörn Peckmann, Pablo Jiménez, José Benavente, Juan Manuel García-Ruiz, Geochemistry and mineralogy of serpentinization-driven hyperalkaline springs in the Ronda peridotites, Lithos, Volumes 350–351, 2019, 105215, ISSN 0024-4937, https://doi.org/10.1016/j.lithos.2019.105215 0024-4937 https://hdl.handle.net/10630/35527 10.1016/J.LITHOS.2019.105215 Peridotita - Ronda Rocas ígneas Aguas minerales Geochemistry and mineralogy of serpentinization-driven hyperalkaline springs in the Ronda peridotites.