Morpho-tectonics of transpressional systems: insights from analog
modeling
- Ethan Mark Conrad,
- Riccardo Reitano,
- Claudio Faccenna,
- Thorsten Wolfgang Becker
Riccardo Reitano
Department of Science, RomaTre University, Roma, Italy
Author ProfileAbstract
Transpressional margins are widespread, and their dynamics are relevant
for plate boundary evolution globally. Though transpressional orogen
evolution involves a topographic response to deformation, many studies
focus only on the structural development of the system ignoring surface
processes. Here, we present a new set of analog models constructed to
investigate how tectonic and surface processes interact at transpressive
plate boundaries and shape topography. Experiments are conducted by
deforming a previously benchmarked crustal analog material in a
meter-scale plexiglass box while controlling erosion through misting
nozzles mounted along the transpressional wedge. We used a laser scanner
to generate digital elevation models throughout the model evolution and
photos for particle image velocimetry analysis. We focus on three
experiments that cover a range of rainfall and convergence settings,
with two end-member erosion settings and a dry reference. In all
experiments, a bivergent wedge forms, and strain partitioning broadly
evolves according to previously established models. Regarding drainage
networks, we find that the streams in our models develop differently
through feedback between fault development and drainage rearrangement
processes. Differences between end-member erosional models can be
explained by the varying response of streams to structure modulated by
rainfall. Additionally, erosion may influence the structural evolution
of transpressional topography, leading to accelerated strike-slip
partitioning. From these results, we create a model for developing
structures, streams, and topography where incision and valley formation
along main structures localize exhumation. We apply insights from the
models to natural transpressional systems, including the Transverse
Ranges, CA., and the Venezuelan Andes.