Radar sounding evidence for buried glaciers in the southern mid-latitudes of Mars

John W. Holt; Ali Safaeinili; Jeffrey J. Plaut; James W. Head; Roger J. Phillips; Roberto Seu; Scott D. Kempf; Prateek Choudhary; Duncan A. Young; Nathaniel E. Putzig; Daniela Biccari; Yonggyu Gim

doi:10.1126/science.1164246

Radar sounding evidence for buried glaciers in the southern mid-latitudes of Mars

John W. Holt, Ali Safaeinili, Jeffrey J. Plaut, James W. Head, Roger J. Phillips, Roberto Seu, Scott D. Kempf, Prateek Choudhary, Duncan A. Young, Nathaniel E. Putzig, Daniela Biccari, Yonggyu Gim

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Abstract

Lobate features abutting massifs and escarpments in the middle latitudes of Mars have been recognized in images for decades, but their true nature has been controversial, with hypotheses of origin such as ice-lubricated debris flows or glaciers covered by a layer of surface debris. These models imply an ice content ranging from minor and interstitial to massive and relatively pure. Soundings of these deposits in the eastern Hellas region by the Shallow Radar on the Mars Reconnaissance Orbiter reveal radar properties entirely consistent with massive water ice, supporting the debris-covered glacier hypothesis. The results imply that these glaciers formed in a previous climate conducive to glaciation at middle latitudes. Such features may collectively represent the most extensive nonpolar ice yet recognized on Mars.

Original language	English (US)
Pages (from-to)	1235-1238
Number of pages	4
Journal	Science
Volume	322
Issue number	5905
DOIs	https://doi.org/10.1126/science.1164246
State	Published - Nov 21 2008
Externally published	Yes

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title = "Radar sounding evidence for buried glaciers in the southern mid-latitudes of Mars",

abstract = "Lobate features abutting massifs and escarpments in the middle latitudes of Mars have been recognized in images for decades, but their true nature has been controversial, with hypotheses of origin such as ice-lubricated debris flows or glaciers covered by a layer of surface debris. These models imply an ice content ranging from minor and interstitial to massive and relatively pure. Soundings of these deposits in the eastern Hellas region by the Shallow Radar on the Mars Reconnaissance Orbiter reveal radar properties entirely consistent with massive water ice, supporting the debris-covered glacier hypothesis. The results imply that these glaciers formed in a previous climate conducive to glaciation at middle latitudes. Such features may collectively represent the most extensive nonpolar ice yet recognized on Mars.",

author = "Holt, {John W.} and Ali Safaeinili and Plaut, {Jeffrey J.} and Head, {James W.} and Phillips, {Roger J.} and Roberto Seu and Kempf, {Scott D.} and Prateek Choudhary and Young, {Duncan A.} and Putzig, {Nathaniel E.} and Daniela Biccari and Yonggyu Gim",

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TY - JOUR

T1 - Radar sounding evidence for buried glaciers in the southern mid-latitudes of Mars

AU - Holt, John W.

AU - Safaeinili, Ali

AU - Plaut, Jeffrey J.

AU - Head, James W.

AU - Phillips, Roger J.

AU - Seu, Roberto

AU - Kempf, Scott D.

AU - Choudhary, Prateek

AU - Young, Duncan A.

AU - Putzig, Nathaniel E.

AU - Biccari, Daniela

AU - Gim, Yonggyu

PY - 2008/11/21

Y1 - 2008/11/21

N2 - Lobate features abutting massifs and escarpments in the middle latitudes of Mars have been recognized in images for decades, but their true nature has been controversial, with hypotheses of origin such as ice-lubricated debris flows or glaciers covered by a layer of surface debris. These models imply an ice content ranging from minor and interstitial to massive and relatively pure. Soundings of these deposits in the eastern Hellas region by the Shallow Radar on the Mars Reconnaissance Orbiter reveal radar properties entirely consistent with massive water ice, supporting the debris-covered glacier hypothesis. The results imply that these glaciers formed in a previous climate conducive to glaciation at middle latitudes. Such features may collectively represent the most extensive nonpolar ice yet recognized on Mars.

AB - Lobate features abutting massifs and escarpments in the middle latitudes of Mars have been recognized in images for decades, but their true nature has been controversial, with hypotheses of origin such as ice-lubricated debris flows or glaciers covered by a layer of surface debris. These models imply an ice content ranging from minor and interstitial to massive and relatively pure. Soundings of these deposits in the eastern Hellas region by the Shallow Radar on the Mars Reconnaissance Orbiter reveal radar properties entirely consistent with massive water ice, supporting the debris-covered glacier hypothesis. The results imply that these glaciers formed in a previous climate conducive to glaciation at middle latitudes. Such features may collectively represent the most extensive nonpolar ice yet recognized on Mars.

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Radar sounding evidence for buried glaciers in the southern mid-latitudes of Mars

Abstract

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