TY - JOUR
T1 - Polyphase mid‐latitude glaciation on Mars
T2 - Chronology of the formation of superposed glacier‐like forms from crater‐count dating
AU - Hepburn, A. J.
AU - Ng, F. S. L.
AU - Livingstone, S. J.
AU - Holt, T. O.
AU - Hubbard, B.
N1 - Funding Information:
We thank T. Kneissl and G. Michael for making available their CraterTools and Craterstats software packages; J. Chambers and G. Bigg for their comments on the manuscript; S.J. Conway for discussion concerning the calculation of surface slope; and D. Berman, J. Dickson and the editor for critical and constructive reviews. A.J.H is funded by a PhD scholarship at Aberystwyth University. A.J.H. performed all mapping, crater-counting measurements, and dating work. A.J.H. and F.S.L.N. designed the study and analysed the results and produced the manuscript with input from S.J.L., T.O.H., and B.H. All authors discussed the results and commented on the writing. All data derived from our mapping (the inventory of SGLFs and their morphometry, and ArcGIS shapefiles of SGLF boundaries and all craters discussed) and all data used in our dating procedure (impact crater counts) are given in an online data repository (Hepburn et al.,). The crater size-frequency distribution plots for our 35 SGLF aggregates and their underlying VFFs are provided in the supporting information.
Publisher Copyright:
©2019. The Authors.
PY - 2020/2/25
Y1 - 2020/2/25
N2 - Reconstructing Mars's glacial history informs understanding of its physical environment and past climate. The known distribution of viscous flow features (VFFs) containing water ice suggests that its mid-latitudes were glaciated during the Late Amazonian period (the last several hundred million years). The identification of a subgroup of VFFs—called superposed glacier like forms (SGLFs)—flowing onto other VFFs, indicates multiple glacial phases may have occurred during this time. To explore the history and spatial extent of these glaciations, we record the distribution of SGLFs globally and use impact-crater counting to date the SGLFs and the VFFs onto which they flow. Our inventory expands the handful of SGLFs reported in earlier literature to include 320 located throughout the mid-latitudes. Our dating reveals these SGLFs to be much younger than their underlying VFFs, which implies a spatially-asynchronous glaciation. SGLFs have been forming since ∼65 Ma, and their ages are clustered in two distinct groups around 2–20 and 45–65 Ma, whereas the ages of their underlying VFFs span the last ∼300 Ma diffusely. We discuss these results in the light of well-known uncertainties with the crater-dating method and infer that while ice sheets decayed over the Late Amazonian period, alpine glaciers waxed and waned in at least two major cycles before their final demise approximately two million years ago.
AB - Reconstructing Mars's glacial history informs understanding of its physical environment and past climate. The known distribution of viscous flow features (VFFs) containing water ice suggests that its mid-latitudes were glaciated during the Late Amazonian period (the last several hundred million years). The identification of a subgroup of VFFs—called superposed glacier like forms (SGLFs)—flowing onto other VFFs, indicates multiple glacial phases may have occurred during this time. To explore the history and spatial extent of these glaciations, we record the distribution of SGLFs globally and use impact-crater counting to date the SGLFs and the VFFs onto which they flow. Our inventory expands the handful of SGLFs reported in earlier literature to include 320 located throughout the mid-latitudes. Our dating reveals these SGLFs to be much younger than their underlying VFFs, which implies a spatially-asynchronous glaciation. SGLFs have been forming since ∼65 Ma, and their ages are clustered in two distinct groups around 2–20 and 45–65 Ma, whereas the ages of their underlying VFFs span the last ∼300 Ma diffusely. We discuss these results in the light of well-known uncertainties with the crater-dating method and infer that while ice sheets decayed over the Late Amazonian period, alpine glaciers waxed and waned in at least two major cycles before their final demise approximately two million years ago.
KW - Mars
KW - glaciers
KW - superposed glacier like forms
KW - crater-dating
KW - polyphase glaciation
KW - Superposed glacier like forms
KW - Glaciers
KW - Polyphase glaciation
KW - Crater-dating
UR - http://www.scopus.com/inward/record.url?scp=85080051704&partnerID=8YFLogxK
U2 - 10.1029/2019JE006102
DO - 10.1029/2019JE006102
M3 - Article
SN - 2169-9097
VL - 125
JO - Journal of Geophysical Research: Planets
JF - Journal of Geophysical Research: Planets
IS - 2
M1 - e2019JE006102
ER -