Probing the viscosity of Venus mantle from dynamic topography at Baltis Vallis

The Baltis Vallis channel on Venus preserves a record of long-wavelength deformation generated by a convecting mantle, providing a unique window into the planet's geodynamics. Notably, the observed topography along the channel is not downhill, suggesting complex interactions between surface processes and mantle dynamics. We statistically compare the observed dynamic topography of Baltis Vallis with dynamic topographies generated by a suite of stagnant-lid mantle convection models to constrain Venus' interior dynamics. Baltis Vallis's relatively young age (likely less than 250 Myr) and low root-mean-square relief of 217 m indicate vigorous convection in Venus's mantle, with a Rayleigh number greater than 4x108, implying a mantle viscosity 1-2 orders of magnitude lower than Earth's. This difference may result from either a water-rich, less-degassed interior or a higher-temperature mantle beneath an insulating lid. Additionally, our simulations suggest that melt advection may dominate heat..., Our mantle dynamics simulations use the StagYY code in a 3D spherical shell, using the yin-yang grid scheme (Tackley, 2008). StagYY uses a finite-volume, primitive variable discretization, solves the velocity-pressure equation using a multigrid solver, advects the temperature field using the MPDATA advection technique (Smolarkiewicz, 1984) and uses tracer particles to track composition and melt (Tackley & King, 2003). We use the Generic Mapping Tools (GMT) 6 software package (Wessel et al., 2019) to generate a topographic map from the modeled topography, project the topography onto the BV profile, and extract the model topography for further analysis. The data is then analyzed using Python scripts. We compare the simulated topographies of model BV profiles to the observed topography of BV using two metrics. The first metric is the root-mean-square (RMS) height (Shepard et al., 2001). The second metric is the decorrelation time, inspired by the observation of BV’s present-day uphill ..., , # Probing the viscosity of Venus' mantle from dynamic topography at Baltis Vallis ## Description of the data and file structure In this repository, there are three zipped directories housing the generated data from our models and subsequent analysis. Column headings are explicitly defined for clarity. Units are noted in the column headings unless the variable is unitless (e.g., Rayleigh number, viscosity contrast). Further details about each directory are provided below. ## Files for Baltis Vallis observations and modeled results #### ***data\_and\_analysis.zip*** * **BaltisVallis_gravity_at_L_150.txt**: Magellan gravity measurements along the Baltis Vallis profile truncated at spherical harmonic degree *l* = 150 * **BaltisVallis_topography_at_L_150.txt**: Magellan topography measurements along the Baltis Vallis profile truncated at spherical harmonic degree *l* = 150 * **decorrelation_time_20_rotations.txt**: Median decorrelation time for preferred model VL3 along with 25th and 75...