Zumba crater, Daedalia Planum, Mars: Geologic investigation of a young, rayed impact crater and its secondary field

•13,064 secondary fields mapped out to 200km beyond Zumba's non-secondary zone.•Highest areal coverage of secondary fields within 100km of Zumba and in its rays.•Lava flow ages consistent with and intermediate to 0.1–1Ga mapped flow units.•Primary surface age identified for craters >100m eve...

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Published inIcarus (New York, N.Y. 1962) Vol. 269; pp. 75 - 90
Main Authors Chuang, Frank C., Crown, David A., Tornabene, Livio L.
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.05.2016
Subjects
Age
Background radiation
Cratering
Craters
Deposition
Estimates
Geological processes
Impact processes
Lava
Mars, surface
Plains
Projectiles
Impact processes
Cratering
Mars, surface
Geological processes
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Abstract •13,064 secondary fields mapped out to 200km beyond Zumba's non-secondary zone.•Highest areal coverage of secondary fields within 100km of Zumba and in its rays.•Lava flow ages consistent with and intermediate to 0.1–1Ga mapped flow units.•Primary surface age identified for craters >100m even with secondaries present.•∼352,000 secondary craters were produced by the Zumba impact event. Zumba is a ∼2.9km diameter rayed crater on Mars located on extensive lava plains in Daedalia Planum to the southwest of Arsia Mons. It is a well-preserved young crater with large ejecta rays that extend for hundreds of kilometers from the impact site. The rays are thermally distinct from the background lava flows in THEMIS daytime and nighttime thermal infrared data, a unique characteristic among martian rayed craters. Concentrated within the rays are solitary or dense clusters of secondary craters with associated diffuse dark-toned deposits along with fewer secondary craters lacking dark-toned deposits. Using CTX images, we have mapped secondary craters with dark-toned deposits, collectively termed “secondary fields”, to investigate their distribution as a function of distance from the impact site. The mapped secondary field was then used to investigate various aspects of the crater-forming event such as the surface angle and direction of the projectile, the effect of secondary craters on surface age estimates, and the number of secondary craters produced by the impact event. From our mapping, a total of 13,064 secondary fields were documented out to a 200km radial distance beyond a 15km-wide non-secondary zone around Zumba crater. Results show that the highest areal coverage of secondary fields occurs within 100km of Zumba and within its rays, decreasing radially with distance to a background scattering of small secondary fields that are <10km2 in size (∼91.9% of the total population). The strong east–west asymmetry of crater rays and low areal coverage of fields to the south of Zumba correlate well with studies of Zumba impact melt deposits, indicating a moderately oblique impact projectile coming from the south. Using primary craters in a ∼101km2 sample region and all craters (primaries and secondaries) from 43 select secondary fields in two map sectors in the study area, we obtain ages of ∼580±100Ma and ∼650±70Ma, respectively, for the lava flows into which Zumba impacted. These ages are consistent with and intermediate to 0.1–1Ga volcanic flow units within and near Daedalia Planum. For craters within the secondary fields, a log differential plot of the data shows a pronounced downward deflection of the binned points for craters <100m in diameter. This is an indication that possible aeolian erosion and deposition, in combination with emplacement and remobilization of Zumba ejecta, have modified the lava flow surfaces in Daedalia Planum over time. Our crater count results also show that even in the presence of large numbers of secondary craters, the age of the primary crater surface can still be identified from the data for craters >100m. We estimate that ∼352,000 secondary craters were produced by the Zumba impact event.
AbstractList •13,064 secondary fields mapped out to 200km beyond Zumba's non-secondary zone.•Highest areal coverage of secondary fields within 100km of Zumba and in its rays.•Lava flow ages consistent with and intermediate to 0.1–1Ga mapped flow units.•Primary surface age identified for craters >100m even with secondaries present.•∼352,000 secondary craters were produced by the Zumba impact event. Zumba is a ∼2.9km diameter rayed crater on Mars located on extensive lava plains in Daedalia Planum to the southwest of Arsia Mons. It is a well-preserved young crater with large ejecta rays that extend for hundreds of kilometers from the impact site. The rays are thermally distinct from the background lava flows in THEMIS daytime and nighttime thermal infrared data, a unique characteristic among martian rayed craters. Concentrated within the rays are solitary or dense clusters of secondary craters with associated diffuse dark-toned deposits along with fewer secondary craters lacking dark-toned deposits. Using CTX images, we have mapped secondary craters with dark-toned deposits, collectively termed “secondary fields”, to investigate their distribution as a function of distance from the impact site. The mapped secondary field was then used to investigate various aspects of the crater-forming event such as the surface angle and direction of the projectile, the effect of secondary craters on surface age estimates, and the number of secondary craters produced by the impact event. From our mapping, a total of 13,064 secondary fields were documented out to a 200km radial distance beyond a 15km-wide non-secondary zone around Zumba crater. Results show that the highest areal coverage of secondary fields occurs within 100km of Zumba and within its rays, decreasing radially with distance to a background scattering of small secondary fields that are <10km2 in size (∼91.9% of the total population). The strong east–west asymmetry of crater rays and low areal coverage of fields to the south of Zumba correlate well with studies of Zumba impact melt deposits, indicating a moderately oblique impact projectile coming from the south. Using primary craters in a ∼101km2 sample region and all craters (primaries and secondaries) from 43 select secondary fields in two map sectors in the study area, we obtain ages of ∼580±100Ma and ∼650±70Ma, respectively, for the lava flows into which Zumba impacted. These ages are consistent with and intermediate to 0.1–1Ga volcanic flow units within and near Daedalia Planum. For craters within the secondary fields, a log differential plot of the data shows a pronounced downward deflection of the binned points for craters <100m in diameter. This is an indication that possible aeolian erosion and deposition, in combination with emplacement and remobilization of Zumba ejecta, have modified the lava flow surfaces in Daedalia Planum over time. Our crater count results also show that even in the presence of large numbers of secondary craters, the age of the primary crater surface can still be identified from the data for craters >100m. We estimate that ∼352,000 secondary craters were produced by the Zumba impact event.
Zumba is a 2.9km diameter rayed crater on Mars located on extensive lava plains in Daedalia Planum to the southwest of Arsia Mons. It is a well-preserved young crater with large ejecta rays that extend for hundreds of kilometers from the impact site. The rays are thermally distinct from the background lava flows in THEMIS daytime and nighttime thermal infrared data, a unique characteristic among martian rayed craters. Concentrated within the rays are solitary or dense clusters of secondary craters with associated diffuse dark-toned deposits along with fewer secondary craters lacking dark-toned deposits. Using CTX images, we have mapped secondary craters with dark-toned deposits, collectively termed "secondary fields", to investigate their distribution as a function of distance from the impact site. The mapped secondary field was then used to investigate various aspects of the crater-forming event such as the surface angle and direction of the projectile, the effect of secondary craters on surface age estimates, and the number of secondary craters produced by the impact event. From our mapping, a total of 13,064 secondary fields were documented out to a 200km radial distance beyond a 15km-wide non-secondary zone around Zumba crater. Results show that the highest areal coverage of secondary fields occurs within 100km of Zumba and within its rays, decreasing radially with distance to a background scattering of small secondary fields that are <10km2 in size (91.9% of the total population). The strong east-west asymmetry of crater rays and low areal coverage of fields to the south of Zumba correlate well with studies of Zumba impact melt deposits, indicating a moderately oblique impact projectile coming from the south. Using primary craters in a 101km2 sample region and all craters (primaries and secondaries) from 43 select secondary fields in two map sectors in the study area, we obtain ages of 580 plus or minus 100Ma and 650 plus or minus 70Ma, respectively, for the lava flows into which Zumba impacted. These ages are consistent with and intermediate to 0.1-1Ga volcanic flow units within and near Daedalia Planum. For craters within the secondary fields, a log differential plot of the data shows a pronounced downward deflection of the binned points for craters <100m in diameter. This is an indication that possible aeolian erosion and deposition, in combination with emplacement and remobilization of Zumba ejecta, have modified the lava flow surfaces in Daedalia Planum over time. Our crater count results also show that even in the presence of large numbers of secondary craters, the age of the primary crater surface can still be identified from the data for craters >100m. We estimate that 352,000 secondary craters were produced by the Zumba impact event.
Author Chuang, Frank C.
Crown, David A.
Tornabene, Livio L.
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Snippet •13,064 secondary fields mapped out to 200km beyond Zumba's non-secondary zone.•Highest areal coverage of secondary fields within 100km of Zumba and in its...
Zumba is a 2.9km diameter rayed crater on Mars located on extensive lava plains in Daedalia Planum to the southwest of Arsia Mons. It is a well-preserved young...
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SubjectTerms Age
Background radiation
Cratering
Craters
Deposition
Estimates
Geological processes
Impact processes
Lava
Mars, surface
Plains
Projectiles
Title Zumba crater, Daedalia Planum, Mars: Geologic investigation of a young, rayed impact crater and its secondary field
URI https://dx.doi.org/10.1016/j.icarus.2016.01.005
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https://search.proquest.com/docview/1800460389
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