The fillet of a rock on the Moon: Cohesion and size dependent abrasion rates from topographic diffusion, LRO/NAC and Apollo images

The efficiency of regolith production is key in understanding the properties of airless surfaces. Debris aprons, of fillets, around rocks are an ubiquitous morphology on many surfaces without atmosphere, which origin and evolution are largely unknown. Here we show that fillet originates from the juxtaposed rock under abrasion and that rocks of different cohesion have fillets with distinct morphological evolution. Thus, a fillet around a rock allows to disentangle rock cohesion from its surface exposure age. By combing topographic diffusion modeling with images of blocks of known age on the Moon we find abrasion rates for cm-sized boulders similar to regional rates (0.2 mm/Myr), whereas for 10-m sized blocks the rate is two order of magnitude higher (20 mm/Myr). Rates for instances of rocks of higher strength are reduced by ~50%. Fillets around lunar rocks are consistent with abrasion by isotropic micrometeoroid bombardment.