Vestalia Terra

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Coordinates: 3°44′S 33°28′E / 3.73°S 33.47°E / -3.73; 33.47
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Vestalia Terra
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A map of the Numisia Quadrangle on Vesta, centered on the cratered highlands of Vestalia Terra
Feature typePlateau
Location4 Vesta
Coordinates3°44′S 33°28′E / 3.73°S 33.47°E / -3.73; 33.47[1]
Surface area~80000 km2 (31000 sq mi)[2]: 91 
Dimensions~300–430 km (190–270 mi) (North-south}
~160–200 km (99–124 mi) (East-west)[2]: 91 
Peak~20 km (12 mi) (mean)[3]
DiscovererDawn
EponymVestalia

Vestalia Terra is a large highland plateau on the giant asteroid Vesta. Situated in Vesta's eastern hemisphere, Vestalia Terra is located near the equator and hosts the tallest point on Vesta. One of the largest named features on Vesta, it contains some of the most ancient terrain known on the asteroid.

Observation and naming[edit]

Vestalia Terra was identified as a major Vestian surface feature soon after the Dawn orbiter's arrival on 16 July 2011.[4][2]: 91  The name Vestalia Terra was officially approved by the International Astronomical Union (IAU) on 27 December 2011; the name derives from the ancient Roman festival of Vestalia, a June festival dedicated to the goddess Vesta.[1]

Geography[edit]

A labelled map of Vestalia Terra
A map of the Numisia Quadrangle with features labelled

Located in Vesta's eastern hemisphere, Vestalia Terra is centered near the equator and extends between roughly 32°S to 24°N and 0°E to 76°E.[1] The plateau is largely bounded by steep cliffs that represent the rims of several major impact basins: Postumia to the north, Feralia to the east, Rheasilvia to the southeast, and Veneneia to the southwest. Additionally, Saturnalia Fossae lies adjacent to Vestalia Terra to the northeast; however, Divalia Fossae, which cuts across the majority of Vesta's equator, does not intrude into Vestalia Terra.

Named features[edit]

Within Vestalia Terra is the small mountain Brumalia Tholus and several named craters. Additionally, two named crater chains cross Vestalia Terra: Albalonga Catena in the east, and Robigalia Catena in the west.[2]: 91, 95 

Feature Type Diameter[a] Eponym Coordinates
Brumalia Tholus Mountain 48.21 km Brumalia 6.31°S, 64.99°N[5]
Albalonga Catena Crater chain 161.74 km Alba Longa 7.17°S, 72.61°E[6]
Robigalia Catena Crater chain 79.21 km Robigalia 14.04°S, 19.78°E[7]
Cornelia Crater 14.9 km Cornelia 9.37°S, 15.57°E[8]
Drusilla Crater 20.34 km Julia Drusilla 15.05°S, 51.22°N[9]
Fabia Crater 11.62 km Fabia 15.53°N, 55.76°E[10]
Numisia Crater 29.94 km Numisia 7.48°S, 37.25°E[11]
Teia Crater 6.69 km Teia 3.44°S, 61.06°E[12]

Geology and characteristics[edit]

Vestalia Terra is a large, roughly pentagonal plateau ~365 by ~180 km, with an estimated surface area of approximately 80,000 square kilometers. Though very topographically prominent, with an average elevation of 20 kilometers above the surrounding terrain,[3] there are localized variations in height. A broad valley partially separates the northern regions from the rest of Vestalia Terra, and a large unnamed mountain range in southern Vestalia Terra is Vesta's highest feature.[2]: 91  Though Divalia Fossae does not extend into Vestalia Terra, a series of three pit chains—including Albalonga Catena and Robigalia Catena—within Vestalia Terra that are roughly aligned in the direction of Divalia Fossae's troughs. The orientation of these pit chains likely indicate that underground faulting took place at Vestalia Terra, though limited in extent by stronger rock.[13][2]: 95, 99  As Vestalia Terra predates Divalia Fossae and all of its bordering basins suggests that it is an ancient feature, probably one of the oldest identified on Vesta.[2]: 99 

The surface of Vestalia Terra is blanketed by ejecta from the bordering Veneneia and Rheasilvia basins.[2]: 100  Compositionally, most of Vestalia Terra's surface is rather uniform, dominated by howardite—a mixture of diogenite and eucrite with large amounts of orthopyroxene and olivine[14]: 31 —with a few outliers. In particular, ejecta blasted out by the impact event that created Teia transition from diogenite-enriched material close to the impact site, and eucrite-enriched near the edge of the ejecta blanket.[15] A linear band of dark material, informally nicknamed the dark ribbon by researchers, stretches across Vestalia Terra from the southeast to the northwest. Analysis from Dawn's VIR instrument shows that the dark material is compositionally similar to most of Vestalia Terra, albeit with finer particles, suggesting that the materia is in fact a massive ejecta streak from Drusilla. How the ejecta managed to travel so far from Drusilla remains unclear, though in 2014 a team of planetary scientists led by D. L. Buczkowski proposed that the vaporization and outgassing of volatiles such as hydroxide could have helped the ejecta to "glide" along the surface.[2]: 95, 101 

Vesta's lower crust and upper mantle is composed of greater amounts of diogenite compared to its upper crust and surface, as indicated by the surface composition of the Rheasilvia basin which is deep enough to expose material from the lower crust and probably the upper mantle. That some craters within Vestalia Terra, such as Teia, have blasted out diogenite from their respective impact sites indicates that the interior of Vestalia Terra is composed of denser diogenite-rich material.[2]: 99  This is supported by the detection of a large positive gravity anomaly at Vestalia Terra, where gravity is slightly stronger and therefore indicates a large mass concentration from denser mantle material.[16] The material could represent an ancient igneous intrusion into sills, or potentially even an ancient mantle plume. Regardless, magmatic activity in Vestalia Terra confirms that Vesta formed and evolved like the terrestrial planets.[15][2]: 99 

Brumalia Tholus[edit]

Located in eastern Vestalia Terra is Brumalia Tholus, a small dome-shaped elongated hill with steep slopes. Brumalia Tholus sits to the west of and is aligned with Albalonga Catena, though a series of pits to the west of Brumalia Tholus suggest that Albalonga Catena continues westwards of the mountain. Brumalia Tholus likely represents a magmatic laccolith, where intruding magma from a dike does not erupt but still has enough pressure to dome the surface upwards. The location of the mountain on Albalonga Catena may indicate that the fault that created Albalonga Catena served as a conduit for magma to ascend.[15][2]: 96 

Notes[edit]

  1. ^ The given values for Albalonga Catena and Robigalia Catena are their respective lengths

References[edit]

  1. ^ a b c "Vestalia Terra". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program. (Center Latitude: -3.73°, Center Longitude: 33.47°; Planetocentric, East+)
  2. ^ a b c d e f g h i j k l Buczkowski, D. L.; Wyrick, D. Y.; Toplis, M. (4 April 2014). "The unique geomorphology and physical properties of the Vestalia Terra plateau". Icarus. 244: 89–103. Bibcode:2014Icar..244...89B. doi:10.1016/j.icarus.2014.03.035.
  3. ^ a b Jaumann, R.; Williams, D. A.; Buczkowski, D. L. (11 May 2012). "Vesta's Shape and Morphology". Science. 336 (6082): 687–. Bibcode:2012Sci...336..687J. doi:10.1126/science.1219122.
  4. ^ Vega, Priscilla; Brown, Dwayne (16 July 2011). "NASA's Dawn Spacecraft Enters Orbit Around Asteroid Vesta". NASA. Retrieved 17 July 2011.
  5. ^ "Brumalia Tholus". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
  6. ^ "Albalonga Catena". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
  7. ^ "Robigalia Catena". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
  8. ^ "Cornelia". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
  9. ^ "Drusilla". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
  10. ^ "Fabia". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
  11. ^ "Numisia". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
  12. ^ "Teia". Gazetteer of Planetary Nomenclature. USGS Astrogeology Research Program.
  13. ^ Buczkowski, D. L.; Scully, J. E. C.; Raymond, C. A.; Russell, C. T. (September 2017). The Tectonics of Ceres and Vesta (PDF). European Planetary Science Congress 2017. Riga, Latvia. Bibcode:2017EPSC...11..920B. EPSC2017-920. Retrieved 21 May 2024.
  14. ^ Holland, Heinrich D.; Turekian, Karl K., eds. (2003). "Meteorites, Comets, and Planets". Treatise on Geochemistry. Elsevier Science. ISBN 978-0-08-043751-4.
  15. ^ a b c De Sanctis, M. C.; Ammannito, E.; Buczkowski, D. (2 May 2014). "Compositional evidence of magmatic activity on Vesta". Geophysical Research Letters. 41 (9): 3038–3044. Bibcode:2014GeoRL..41.3038D. doi:10.1002/2014GL059646.
  16. ^ Raymond, Carol A.; Park, Ryan S.; Asmar, Sami W.; et al. (April 2013). Vestalia Terra: An Ancient Mass Anomaly In The Southern Hemisphere Of Vesta (PDF). EGU General Assembly 2013. Vienna, Austria. Bibcode:2013EGUGA..1512408R. EGU2013-12408. Retrieved 21 May 2024.
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