Analysis of impact crater populations and the geochronology of planetary surfaces in the inner solar system

Fassett, C. I.

doi:10.1002/2016je005094

Cited by 95 publications

(83 citation statements)

References 206 publications

(309 reference statements)

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“…The interpretation of the model ages therefore may not be straightforward and may represent a steady state between production and removal of craters (Öpik , ), or a diminishing sequence of resurfacing processes, thereby providing a retention age regulated by the destruction rate instead of a surface formation age (Chapman and Jones ; Smith et al. ; Michael ; Fassett ; Kite and Mayer ).…”

Section: Crater Modificationmentioning

confidence: 99%

“…Established approaches to dating planetary surfaces through the analysis of a superposed crater population rely on the technique of binning the measured crater diameters, and attempting to use the thus divided data to resolve the characteristic shape and density of the accumulating crater population (Hartmann ; Crater Analysis Techniques Working Group ; Neukum ). The method has seen numerous fruitful applications (see listing of predictive successes in recent review by Fassett ), but has always required caution when the number of observed craters is low.…”

Section: Statistical and Observational Biasesmentioning

confidence: 99%

“…; Le Feuvre and Wieczorek ; Hiesinger et al. ; Robbins ) as more recent image data have become available along with an improved understanding of impactor dynamics and asteroid populations (also see recent review by Fassett [] and references therein).…”

Section: Introductionmentioning

confidence: 99%

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Dating very young planetary surfaces from crater statistics: A review of issues and challenges

Williams

Bogert

Pathare

et al. 2017

Meteorit & Planetary Scien

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Abstract-Determining the ages of young planetary surfaces relies on using populations of small, often sub-km diameter impact craters due to the higher frequency at which they form. Smaller craters however can be less reliable for estimating ages as their sizefrequency distribution is more susceptible to alteration with debate as to whether they should be used at all. With the current plethora of meter-scale resolution images acquired of the lunar and Martian surfaces, small craters have been widely used to derive model ages to establish the temporal relation of recent geologic events. In this review paper, we discuss the many factors that make smaller craters particularly challenging to use and should be taken into consideration when crater counts are confined to small crater diameters. Establishing confidence in a model age ultimately requires an understanding of the geologic context of the surface being dated as reliability can vary considerably and limitations of the dating technique should be considered in applying ages to any geologic interpretation.

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Section: Crater Modificationmentioning

confidence: 99%

Section: Statistical and Observational Biasesmentioning

confidence: 99%

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Dating very young planetary surfaces from crater statistics: A review of issues and challenges

Williams

Bogert

Pathare

et al. 2017

Meteorit & Planetary Scien

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“…The crater count‐derived crater retention ages for the channels vary from ~0.2 to ~0.5 Ga [ Ivanov , ] (Figure b). It is important to mention here that the ages obtained for the channels do not straightaway represent the exact time of the fluvial activity, whereas they reflect the crater retention age over the channels [ Fassett , ] or plausibly lava flow resurfacing activity, which is evident from Figure a. The inferred ages are the lower limit for channels, as it is possible that high erosional activity could have altered the surface and the true age can be much older [ Fassett , ].…”

Section: Description and Analysismentioning

confidence: 99%

Amazonian fluvial outflow channels in Jovis Tholus region, Mars

Vijayan

Sinha

2017

JGR Planets

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Outflow channels are prevalent on the surface of Mars, and they are one of the strongest lines of evidence for fluvial activity. The purported presence of some of the channel networks on the Amazonian surface provides evidence for recent surficial fluvial activity. We describe morphological evidence collectively diagnostic of fluvial origin for the channels located northwest (NW) of Jovis Tholus, within the Tharsis volcanic province. The fluvial relationships are deciphered from (1) morphological analysis of catastrophic effusion associated with the graben system superposed over the NW portion of an unnamed crater ejecta (19.85°N, 118.03°W) and (2) crater‐size frequency distributions of unnamed crater ejecta revealing the tentative period of the fluvial activity. Channels, streamlined/curvilinear islands, terraces, divide crossing, crossover channels, networks of braided‐like channels, and eroded ejecta are collectively suggestive of fluvial outflow that emanated from the graben. Chronological analysis revealed that the unnamed crater formed at ~3.4 Ga. Subsequently, the NW part of crater ejecta was incised by a channel network originated from the graben. Furthermore, we infer that the current channel floor has undergone volcanic and aeolian resurfacing to some extent, and the estimated modeled resurfaced channel age is ~0.2–0.5 Ga. This reveals that the fluvial activity possibly occurred after the crater formation, but before channel floor resurfacing, which is during Early to Middle Amazonian. Nevertheless, the potential source for the channel formation likely persisted under this region since the pre‐Amazonian epoch. The suite of these fluvial features inferred within the Jovis Tholus region outflow channel system thus adds one another evidence for Amazonian fluvial activity.

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“…This technique has been greatly improved with new advances in sample analyses methods, cratering mechanics, orbital dynamics, and multiwavelengths high-resolution datasets obtained by recent lunar and deep space explorations. A review on the establishment, usage and new advances of this technique is detailed by Fassett (2016). It is not overstated that this technique has built most of the time frames a b d c Fig.…”

Section: Introductionmentioning

confidence: 99%

On the importance of self-secondaries

Xiao

2018

Geosci. Lett.

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Self-secondaries are secondary craters that are formed on both the continuous ejecta deposits and interior of the parent crater. The possible existence of self-secondaries was proposed in the late 1960s, but their identity, formation mechanism, and importance were not revisited until the new generation of high-resolution images for the Moon have recently became available. Possible self-secondary crater populations have now been recognized not only on the Moon, but also on Mercury, Mars, 1Ceres, 4Vesta, and satellites of the ice giants. On the Moon and terrestrial planets, fragments that form self-secondaries are launched with high ejection angles via spallation during the early cratering process, so that self-secondaries can be formed both within the crater and on the continuous ejecta deposits at the end of the cratering process. Self-secondaries potentially possess profound effects on the widely used agedetermination technique using crater statistics in planetary geology, because (1) self-secondaries cause nonuniform crater density across the continuous ejecta deposits, which cannot be solely explained by the effect of different target properties on crater size-frequency distributions; (2) crater chronologies for both the Moon and the other terrestrial bodies are largely based on crater counts on the continuous ejecta deposits of several young lunar craters. The effect of self-secondaries on crater chronology can be well addressed after the spatial distribution, size-frequency distribution, and density evolution of self-secondaries are resolved.

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Analysis of impact crater populations and the geochronology of planetary surfaces in the inner solar system

Cited by 95 publications

References 206 publications

Dating very young planetary surfaces from crater statistics: A review of issues and challenges

Dating very young planetary surfaces from crater statistics: A review of issues and challenges

Amazonian fluvial outflow channels in Jovis Tholus region, Mars

On the importance of self-secondaries

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