The present work deals with the results of long-term micro-erosion measurements in the most important gypsum cave of Spain, the Cueva del Agua (Sorbas, Almeria, SE Spain). Nineteen MEM stations were positioned in 1992 in a wide range of morphological and environmental settings (gypsum floors and walls, carbonate speleothems, dry conduits and vadose passages) inside and outside the cave, on gypsum and carbonate bedrocks and exposed to variable degree of humidity, different air flow and hydrodynamic conditions. Four different sets of stations have been investigated: (1) the main cave entrance (Las Viñicas spring); (2) the main river passage; (3) the abandoned Laboratory tunnel; and (4) the external gypsum surface. Data over a period of about 18years are available. The average lowering rates vary from 0.014 to 0.016mmyr-1 near the main entrance and in the Laboratory tunnel, to 0.022mm-1 on gypsum floors and 0.028mmyr-1 on carbonate flowstones. The denudation data from the external gypsum stations are quite regular with a rate of 0.170mmyr-1. The observations allowed the collecting of important information concerning the feeding of the karst aquifer not only by infiltrating rainwater, but under present climate conditions also by water condensation of moist air flow. This contribution to the overall karst processes in the Cueva del Agua basin represents over 20% of the total chemical dissolution of the karst area and more than 50% of the speleogenetically removed gypsum in the cave system, thus representing all but a secondary role in speleogenesis. Condensation-corrosion is most active along the medium walls, being slower at the roof and almost absent close to the floor. This creates typical corrosion morphologies such as cupola, while gypsum flowers develop where evaporation dominates. This approach also shows quantitatively the morphological implications of condensation-corrosion processes in gypsum karst systems in arid zones, responsible for an average surface lowering of 0.047mmyr-1, while mechanical erosion produces a lowering of 0.123mmyr-1.

Laura Sanna, Jo De Waele, José Maria Calaforra, Paolo Forti (2015). Long-term erosion rate measurements in gypsum caves of Sorbas (SE Spain) by the Micro-Erosion Meter method. GEOMORPHOLOGY, 228, 213-225 [10.1016/j.geomorph.2014.09.009].

Long-term erosion rate measurements in gypsum caves of Sorbas (SE Spain) by the Micro-Erosion Meter method

DE WAELE, JO HILAIRE AGNES;FORTI, PAOLO
2015

Abstract

The present work deals with the results of long-term micro-erosion measurements in the most important gypsum cave of Spain, the Cueva del Agua (Sorbas, Almeria, SE Spain). Nineteen MEM stations were positioned in 1992 in a wide range of morphological and environmental settings (gypsum floors and walls, carbonate speleothems, dry conduits and vadose passages) inside and outside the cave, on gypsum and carbonate bedrocks and exposed to variable degree of humidity, different air flow and hydrodynamic conditions. Four different sets of stations have been investigated: (1) the main cave entrance (Las Viñicas spring); (2) the main river passage; (3) the abandoned Laboratory tunnel; and (4) the external gypsum surface. Data over a period of about 18years are available. The average lowering rates vary from 0.014 to 0.016mmyr-1 near the main entrance and in the Laboratory tunnel, to 0.022mm-1 on gypsum floors and 0.028mmyr-1 on carbonate flowstones. The denudation data from the external gypsum stations are quite regular with a rate of 0.170mmyr-1. The observations allowed the collecting of important information concerning the feeding of the karst aquifer not only by infiltrating rainwater, but under present climate conditions also by water condensation of moist air flow. This contribution to the overall karst processes in the Cueva del Agua basin represents over 20% of the total chemical dissolution of the karst area and more than 50% of the speleogenetically removed gypsum in the cave system, thus representing all but a secondary role in speleogenesis. Condensation-corrosion is most active along the medium walls, being slower at the roof and almost absent close to the floor. This creates typical corrosion morphologies such as cupola, while gypsum flowers develop where evaporation dominates. This approach also shows quantitatively the morphological implications of condensation-corrosion processes in gypsum karst systems in arid zones, responsible for an average surface lowering of 0.047mmyr-1, while mechanical erosion produces a lowering of 0.123mmyr-1.
2015
Laura Sanna, Jo De Waele, José Maria Calaforra, Paolo Forti (2015). Long-term erosion rate measurements in gypsum caves of Sorbas (SE Spain) by the Micro-Erosion Meter method. GEOMORPHOLOGY, 228, 213-225 [10.1016/j.geomorph.2014.09.009].
Laura Sanna; Jo De Waele; José Maria Calaforra; Paolo Forti
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/361515
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