Abstract

AbstractPlaya lakes developed in closed watersheds have been used as environmental impact indicators (global warming, water extractions, etc.), but they could be also sensitive to active tectonics. Our study area is located in the main watershed in the western Betics, the northern branch of the Gibraltar arc, which is within the fold‐and‐thrust belt. This area is characterized by an endorheic zone that includes some playa lakes floored by low‐permeable rocks. Our study shows the reduction or disappearance of playa‐lake flooded surfaces due to the reduction in their watershed area. This area reduction is favoured by stream catchments related to knickpoints, which seem to be generated by the quaternary activity of a dextral‐transpressive band within the Betics fold‐and‐thrust belt. χ map also shows the higher erosion power of Mediterranean streams, which will likely catch this endorheic area in tectonics quiescence.Statement of significancePlaya lakes developed in closed watersheds are commonly used to study environmental impacts such as global warming or water extractions. In this work, we analyse how these endorheic systems are sensitive to small water balance variations due to active tectonics. The endorheic area we chose to apply this new approach is located in the main Atlantic‐Mediterranean water divide of the western Betics (northern branch of the Gibraltar arc). The recent tectonics in this fold‐and‐thrust belt segment provoked the Atlantic‐Mediterranean gateway closure and the Messinian Salinity Crisis at 5.6 My. Our study of playa‐lake flooded surface and watershed modifications, together with structural and other geomorphic analyses such as the χ index, never before has it been made to detect active structures. Active tectonics likely influenced in the medium‐term evolution of the studied watersheds and this study is useful to predict both landscape and drainage network evolution in the future. In fact, the possible effect of active tectonic should be taken into account when using closed watersheds to monitor the impacts of climate change and/or local stressors such as water pumping activities.

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