The Oligocene-Miocene Guadalope-Matarranya Fan, Spain, as an Analog for Long-Lived, Ridge-Bearing Megafans on Mars

Numerous sedimentary fans on Mars have been studied to better understand the early martian hydrological system. Of particular interest is to estimate the duration of fluvial activity from alluvial fan size by dividing deposit volume by bankfull sediment flux. However, such a calculation requires an intermittency factor-a parameter relating sediment discharge from channel-filling (bankfull) floods to the long-term mean sediment discharge-which is poorly constrained. Here, we investigated fluvial fan deposits from the Oligocene-Miocene Caspe Formation, Spain, as an analog to fans on Mars because it has exhumed channel belts that create sinuous ridges in the modern topography, similar to those observed on Mars that are used for paleohydraulics. We made measurements of the thicknesses of dune and bar cross sets within exhumed channel belts at nine field sites to reconstruct bankfull channel depth (similar to 1.4 m) and bankfull sediment flux (similar to 0.48 m(3)/s). We estimated total bed-material sediment volume of the fan (362 km(3)) from stratigraphic thickness, the area containing exhumed channel belts, porosity and sand fraction. Combined with previous constraints on depositional timespan (similar to 6 Myr), we calculated a sediment-transport intermittency factor of 0.004 (range: 0.0004-0.04). Our approach can be applied to Mars by using remote sensing measurements of fluvial ridge morphology, which indicates the possibility of long depositional timespans exceeding millions of years for martian fans.

Automated summary

The study of fluvial fan deposits from the Oligocene-Miocene Caspe Formation in Spain provides insights into the early martian hydrological system and the estimate of fluvial activity duration on Mars. The findings suggest the possibility of long depositional timespans exceeding millions of years for martian fans, based on similarities between Mars and the terrestrial analog.