Widespread effusive volcanism on Mercury likely ended by about 3.5 Ga

Paul K. Byrne; Lillian R. Ostrach; Caleb I. Fassett; Clark R. Chapman; Brett W. Denevi; Alexander J. Evans; Christian Klimczak; Maria E. Banks; James W. Head; Sean C. Solomon

doi:10.1002/2016GL069412

Widespread effusive volcanism on Mercury likely ended by about 3.5 Ga

Paul K. Byrne
, Lillian R. Ostrach
, Caleb I. Fassett
, Clark R. Chapman
, Brett W. Denevi
, Alexander J. Evans
, Christian Klimczak
, Maria E. Banks
, James W. Head
, Sean C. Solomon

Department of Earth & Planetary Sciences

Research output: Contribution to journal › Article › peer-review

112 Scopus citations

Abstract

Crater size–frequency analyses have shown that the largest volcanic plains deposits on Mercury were emplaced around 3.7 Ga, as determined with recent model production function chronologies for impact crater formation on that planet. To test the hypothesis that all major smooth plains on Mercury were emplaced by about that time, we determined crater size–frequency distributions for the nine next-largest deposits, which we interpret also as volcanic. Our crater density measurements are consistent with those of the largest areas of smooth plains on the planet. Model ages based on recent crater production rate estimates for Mercury imply that the main phase of plains volcanism on Mercury had ended by ~3.5 Ga, with only small-scale volcanism enduring beyond that time. Cessation of widespread effusive volcanism is attributable to interior cooling and contraction of the innermost planet.

Original language	English
Pages (from-to)	7408-7416
Number of pages	9
Journal	Geophysical Research Letters
Volume	43
Issue number	14
DOIs	https://doi.org/10.1002/2016GL069412
State	Published - Jul 28 2016

Keywords

crater size-frequency distributions
global contraction
impact cratering
Mercury
volcanism

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10.1002/2016GL069412

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title = "Widespread effusive volcanism on Mercury likely ended by about 3.5 Ga",

abstract = "Crater size–frequency analyses have shown that the largest volcanic plains deposits on Mercury were emplaced around 3.7 Ga, as determined with recent model production function chronologies for impact crater formation on that planet. To test the hypothesis that all major smooth plains on Mercury were emplaced by about that time, we determined crater size–frequency distributions for the nine next-largest deposits, which we interpret also as volcanic. Our crater density measurements are consistent with those of the largest areas of smooth plains on the planet. Model ages based on recent crater production rate estimates for Mercury imply that the main phase of plains volcanism on Mercury had ended by \textasciitilde{}3.5 Ga, with only small-scale volcanism enduring beyond that time. Cessation of widespread effusive volcanism is attributable to interior cooling and contraction of the innermost planet.",

keywords = "crater size-frequency distributions, global contraction, impact cratering, Mercury, volcanism",

author = "Byrne, \{Paul K.\} and Ostrach, \{Lillian R.\} and Fassett, \{Caleb I.\} and Chapman, \{Clark R.\} and Denevi, \{Brett W.\} and Evans, \{Alexander J.\} and Christian Klimczak and Banks, \{Maria E.\} and Head, \{James W.\} and Solomon, \{Sean C.\}",

year = "2016",

month = jul,

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doi = "10.1002/2016GL069412",

language = "English",

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journal = "Geophysical Research Letters",

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TY - JOUR

T1 - Widespread effusive volcanism on Mercury likely ended by about 3.5 Ga

AU - Byrne, Paul K.

AU - Ostrach, Lillian R.

AU - Fassett, Caleb I.

AU - Chapman, Clark R.

AU - Denevi, Brett W.

AU - Evans, Alexander J.

AU - Klimczak, Christian

AU - Banks, Maria E.

AU - Head, James W.

AU - Solomon, Sean C.

PY - 2016/7/28

Y1 - 2016/7/28

N2 - Crater size–frequency analyses have shown that the largest volcanic plains deposits on Mercury were emplaced around 3.7 Ga, as determined with recent model production function chronologies for impact crater formation on that planet. To test the hypothesis that all major smooth plains on Mercury were emplaced by about that time, we determined crater size–frequency distributions for the nine next-largest deposits, which we interpret also as volcanic. Our crater density measurements are consistent with those of the largest areas of smooth plains on the planet. Model ages based on recent crater production rate estimates for Mercury imply that the main phase of plains volcanism on Mercury had ended by ~3.5 Ga, with only small-scale volcanism enduring beyond that time. Cessation of widespread effusive volcanism is attributable to interior cooling and contraction of the innermost planet.

AB - Crater size–frequency analyses have shown that the largest volcanic plains deposits on Mercury were emplaced around 3.7 Ga, as determined with recent model production function chronologies for impact crater formation on that planet. To test the hypothesis that all major smooth plains on Mercury were emplaced by about that time, we determined crater size–frequency distributions for the nine next-largest deposits, which we interpret also as volcanic. Our crater density measurements are consistent with those of the largest areas of smooth plains on the planet. Model ages based on recent crater production rate estimates for Mercury imply that the main phase of plains volcanism on Mercury had ended by ~3.5 Ga, with only small-scale volcanism enduring beyond that time. Cessation of widespread effusive volcanism is attributable to interior cooling and contraction of the innermost planet.

KW - crater size-frequency distributions

KW - global contraction

KW - impact cratering

KW - Mercury

KW - volcanism

UR - https://www.scopus.com/pages/publications/84982098021

U2 - 10.1002/2016GL069412

DO - 10.1002/2016GL069412

M3 - Article

AN - SCOPUS:84982098021

SN - 0094-8276

VL - 43

SP - 7408

EP - 7416

JO - Geophysical Research Letters

JF - Geophysical Research Letters

IS - 14

ER -

Widespread effusive volcanism on Mercury likely ended by about 3.5 Ga

Abstract

Keywords

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