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Título: | Channel dynamics and geomorphic resilience in an ephemeral Mediterranean river affected by gravel mining |
Autor: | Calle, Mikel CSIC ORCID ; Alho, Petteri; Benito, Gerardo CSIC ORCID | Palabras clave: | Gravel mining Sedimentary connection Ephemeral stream River degradation |
Fecha de publicación: | 15-may-2017 | Editor: | Elsevier | Citación: | Geomorphology 285: 333-346 (2017) | Resumen: | Gravel mining has been a widespread activity in ephemeral rivers worldwide whose long-lasting hydrogeomorphological impacts preclude effective implementation of water and environmental policies. This paper presents a GIS-based method for temporal assessment of morphosedimentary changes in relation to in-channel gravel mining in a typical ephemeral Mediterranean stream, namely the Rambla de la Viuda (eastern Spain). The aims of this work were to identify morphosedimentary changes and responses to human activities and floods, quantify river degradations and analyze factors favoring fluvial recovery for further applications in other rivers. Aerial photographs and LiDAR topography data were studied to analyze geomorphic evolution over the past 70 years along a 7.5-km reach of an ephemeral gravel stream that has been mined intensively since the 1970s. To evaluate changes in the riverbed, we mapped comparable units applying morphological, hydraulic, and stability (based on vegetation density and elevation) criteria to 13 sets of aerial photographs taken from 1946 to 2012. A detailed spatiotemporal analysis of comparable units revealed a 50% reduction in the active section and a 20% increase in stable areas, compared to the conditions observed prior to gravel mining. Instream mining was first observed in 1976 aerial photograph covering already up to 50% of the 1956 riverbed area. River degradation since then was quantified by means of a LiDAR DTM and RTK-GPS measurements, which revealed a 3.5-m incision that had started simultaneously with gravel mining. Climate and land use changes were present but the effects were completely masked by changes produced by instream gravel mining. Therefore, river incision/degradation was triggered by scarcity of sediment and lack of longitudinal sedimentary connection, creating an unbalanced river system that is still adjusting to the present hydrosedimentary conditions. | URI: | http://hdl.handle.net/10261/155132 | DOI: | 10.1016/j.geomorph.2017.02.026 | Identificadores: | doi: 10.1016/j.geomorph.2017.02.026 issn: 0169-555X |
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