Potential Seismically Active Target Regions on Venus

Venus represents a terrestrial planet similar to Earth in size and mass, but its evolution has been different enough to lead to the formation of a different planetary environment. Understanding the interior processes that shape Venus surface, and their present-day activity, is one of the fundamental tasks for the next decade(s) of Venus science. While evidence has been found for present-day volcanic activity on Venus, recent work also suggests that seismic activity can be expected on the planet 1. Here, we shortlist and investigate areas that can provide key insights on different contexts where seismic activity could take place at present: Ishtar, Thetis, Lada, Atla, Beta, and Artemis corona. We will herein describe these regions and reasons for their inferred seismic activity (Figure 1). Moreover, we identify terrestrial analogues on Earth which may provide further insights into their seismic characteristics.Ishtar TerraIshtar Terra, the second-largest highland region on Venus, spans approximately 4,000,000 km. It features Lakshmi Planum, an interior plateau surrounded by towering mountain belts, including Maxwell Montess - the highest point on Venus inferred to also have the thickest crust - and outlying tesserae. This elevated region is underpinned by a deep crustal root. Structural units within Ishtar Terra exhibit evidence of both vertical and horizontal crustal movements, indicative of crustal shortening due to lithospheric thickening 2. Ishtar Terra presents an intriguing prospect for seismic activity. We expect seismic activity to be the deepest due to the suggested thickened cold crustal layer 3, with more distributed directionality compared to regions like Thetis Regio (see below).Thetis RegioThetis Regio, an uplifted region 3 km above mean planet radius, constitutes the eastern part of Aphrodite Terra, the largest highland on Venus. Thetis Regio is composed primarily of tessera terrain: rugged and highly deformed terrain displaying different trends of parallel ridges and troughs. Given its resemblance to a Canadian shield-like tectonic scenario with increased heightened seismic activity at the edges, we infer the potential for seismic activity on the margins of Thetis Regio.Atla RegioAtla Regio, located within the BAT (Beta-Atla-Themis) region, hosts some of the most recent suggested volcanic and rifting activity on Venus. It features a distinct four-armed 'triple-junction' rift system, numerous large volcanic centers, and associated coronae, exhibiting topographic highs and gravity lows akin to terrestrial Large Igneous Provinces linked to active mantle plumes. Notable volcanic features include Maat Mons, the tallest volcano on Venus, for which the clearest evidence of ongoing volcanic activity has been presented 4. Atla Regio commands attention with its intense volcanic activity alongside active fissure eruptions. Moreover, situated proximal to observable rifting and featuring African rift-like tectonic characteristics, Atla holds geological significance. Foreseen seismogenic thickness implies shallow seismic activity 5.Lada TerraLada Terra, located at high southern latitudes on Venus, features elevated topography with numerous coronae, volcanoes, extensional belts, and deformed terrains. The main highland is dominated by the large Quetzalpetlatl corona and two massive intersecting rift zones. Long-wavelength gravity anomalies suggest a deep thermal upwelling underneath Lada Terra at present-day, yet it was not previously categorized as a hot spot 6. Lada Terra might indeed represent a precursor stage of advanced rifting.Artemis coronaArtemis is found on the southern side of the Aphrodite Terra and is by far the largest corona on Venus (26000 km diameter), and in fact one of the largest circular structures on a rocky planet in our solar system. Artemis' interior is depressed relative to the surrounding plains and features a large rift-like chasmata. The SE margin of Artemis hosts a deep, arcuate trough surrounded by compressional arcs which rise above the plains. The topographic features of the Artemis rim have been interpreted as resulting from plume-induced retreating subduction, consistent with several geodynamic studies 7,8.Beta RegioBeta Regio is considered a "rift-dominated" topographic rise similar to Atla Regio. It is intersected by the prominent north-to-south Devana Chasma. Geological mapping indicates early uplift, rifting, and volcanism attributed to a hot mantle diapir, consistent with the related positive geoid anomaly. We identify the region as active, yet possibly with a lower seismicity than above-mentioned regions, more akin to a Hawaiian-type hotspot. This area serves as a valuable reference for comparing expected activity levels with other target regions.In the context of forthcoming Venus missions like VERITAS and EnVision, identifying potential areas of seismic activity on Venus can yield highly valuable insights in addition to the missions science goals. These missions aim to unravel the mysteries of Venus's geology and surface processes, shedding light on its tectonic history and volcanic activity. VERITAS (Venus Emissivity, Radio Science, InSAR, Topography, and Spectroscopy) will, amongst other data, provide detailed maps of Venus surface and study its geology using e.g. radar and infrared imaging 9. EnVision aims to investigate Venus's atmosphere, surface, and interior structure to understand its geological evolution 10. By pinpointing these target regions, this study provides crucial information for mission planning and target prioritization. Moreover, these insights will be valuable for future mission concepts that aim to detect seismic activity on Venus.References1 van Zelst, I., et al., (2024), EPSC2024 2 Vorder Bruegge, R.,W., Head, J.,W., (1991) Geology, 19:885888. 3 Hansen V.L. Phillips R.J., (1995) Geology, 23, 292296. 4 Herrick RR, Hensley S (2023) Science 379, 12051208. 5 Maia, J., et al., (2024), EPSC2024 6 Smrekar, S. Stofan. E., (1999), Icarus, 139, 100-115. 7 Davaille, A. et al. (2017), Nat. Geosc. 10, 349-355 8 Glcher, A. J. P., et al. (2020), Nat. Geosc., 13, 547-554 9 Freeman, A., et al. (2016). pp. 1 11). IEEE. 10 Ghail, R. et al., (2021) ESA Assessment Study Report.AcknowledgementThis research was supported by the International Space Science Institute (ISSI) in Bern, Switzerland through ISSI International Team project #566: Seismicity on Venus: Prediction Detection led by Iris van Zelst. Some authors thank the European Union NextGenerationEU and the 2023 STARS Grants@Unipd programme HECATE support.