“…The latter approach has been applied to various alteration contexts: centimetric weathering rinds developed on basaltic clasts (Engel et al, 2016;Ma et al, 2012;Pelt et al, 2008), metric size spheric alteration systems (Chabaux et al, 2013;Claude et al, 2016), decimetric to metric alteration profiles (Ackerer et al, 2016;Dosseto et al, 2008a;Ma et al, 2013;Schoonejans et al, 2016;Rihs et al, 2020). These works have led to the definition of a theoretical and conceptual frame for the application of the radioactive disequilibrium methodology for alteration profiles, which comprises (a) the analysis of the variations of U-series nuclides along the main weathering direction and (b) the interpretation of these variations using a realistic model of radionuclide mobility during water-rock interactions, commonly, a model assuming both gain and loss of elements along the profile (e.g., Chabaux et al, 2008Chabaux et al, , 2011Chabaux et al, , 2013Dosseto et al, 2008bDosseto et al, , 2012Dosseto et al, , 2019Ma et al, 2013). A key assumption behind this approach is to be able to define, within the studied profile or the alteration system, a sufficiently extended zone for which the mobility parameters may be assumed constant.…”