T. Obase, A. Abe‐Ouchi, F. Saito, S. Tsutaki, S. Fujita, K. Kawamura, H. Motoyama
{"title":"选择南极富士巨蛋附近最古老冰芯钻探地点的一维温度和年龄模型研究","authors":"T. Obase, A. Abe‐Ouchi, F. Saito, S. Tsutaki, S. Fujita, K. Kawamura, H. Motoyama","doi":"10.5194/tc-17-2543-2023","DOIUrl":null,"url":null,"abstract":"Abstract. The recovery of a new Antarctic ice core spanning the past\n∼ 1.5 million years will advance our understanding of climate\nsystem dynamics during the Quaternary. Recently, glaciological field surveys\nhave been conducted to select the most suitable core location near Dome Fuji\n(DF), Antarctica. Specifically, ground-based radar-echo soundings have been\nused to acquire highly detailed images of bedrock topography and internal\nice layers. In this study, we use a one-dimensional (1-D) ice-flow model to\ncompute the temporal evolutions of age and temperature, in which the ice\nflow is linked with not only transient climate forcing associated with past\nglacial–interglacial cycles but also transient basal melting diagnosed\nalong the evolving temperature profile. We investigated the influence of ice\nthickness, accumulation rate, and geothermal heat flux on the age and\ntemperature profiles. The model was constrained by the observed temperature\nand age profiles reconstructed from the DF ice-core analysis. The results of\nsensitivity experiments indicate that ice thickness is the most crucial\nparameter influencing the computed age of the ice because it is critical to\nthe history of basal temperature and basal melting, which can eliminate old\nice. The 1-D model was applied to a 54 km long transect in the vicinity of\nDF and compared with radargram data. We found that the basal age of the ice\nis mostly controlled by the local ice thickness, demonstrating the\nimportance of high-spatial-resolution surveys of bedrock topography for\nselecting ice-core drilling sites.\n","PeriodicalId":56315,"journal":{"name":"Cryosphere","volume":" ","pages":""},"PeriodicalIF":4.4000,"publicationDate":"2023-06-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"5","resultStr":"{\"title\":\"A one-dimensional temperature and age modeling study for selecting the drill site of the oldest ice core near Dome Fuji, Antarctica\",\"authors\":\"T. Obase, A. Abe‐Ouchi, F. Saito, S. Tsutaki, S. Fujita, K. Kawamura, H. Motoyama\",\"doi\":\"10.5194/tc-17-2543-2023\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Abstract. The recovery of a new Antarctic ice core spanning the past\\n∼ 1.5 million years will advance our understanding of climate\\nsystem dynamics during the Quaternary. Recently, glaciological field surveys\\nhave been conducted to select the most suitable core location near Dome Fuji\\n(DF), Antarctica. Specifically, ground-based radar-echo soundings have been\\nused to acquire highly detailed images of bedrock topography and internal\\nice layers. In this study, we use a one-dimensional (1-D) ice-flow model to\\ncompute the temporal evolutions of age and temperature, in which the ice\\nflow is linked with not only transient climate forcing associated with past\\nglacial–interglacial cycles but also transient basal melting diagnosed\\nalong the evolving temperature profile. We investigated the influence of ice\\nthickness, accumulation rate, and geothermal heat flux on the age and\\ntemperature profiles. The model was constrained by the observed temperature\\nand age profiles reconstructed from the DF ice-core analysis. The results of\\nsensitivity experiments indicate that ice thickness is the most crucial\\nparameter influencing the computed age of the ice because it is critical to\\nthe history of basal temperature and basal melting, which can eliminate old\\nice. The 1-D model was applied to a 54 km long transect in the vicinity of\\nDF and compared with radargram data. 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A one-dimensional temperature and age modeling study for selecting the drill site of the oldest ice core near Dome Fuji, Antarctica
Abstract. The recovery of a new Antarctic ice core spanning the past
∼ 1.5 million years will advance our understanding of climate
system dynamics during the Quaternary. Recently, glaciological field surveys
have been conducted to select the most suitable core location near Dome Fuji
(DF), Antarctica. Specifically, ground-based radar-echo soundings have been
used to acquire highly detailed images of bedrock topography and internal
ice layers. In this study, we use a one-dimensional (1-D) ice-flow model to
compute the temporal evolutions of age and temperature, in which the ice
flow is linked with not only transient climate forcing associated with past
glacial–interglacial cycles but also transient basal melting diagnosed
along the evolving temperature profile. We investigated the influence of ice
thickness, accumulation rate, and geothermal heat flux on the age and
temperature profiles. The model was constrained by the observed temperature
and age profiles reconstructed from the DF ice-core analysis. The results of
sensitivity experiments indicate that ice thickness is the most crucial
parameter influencing the computed age of the ice because it is critical to
the history of basal temperature and basal melting, which can eliminate old
ice. The 1-D model was applied to a 54 km long transect in the vicinity of
DF and compared with radargram data. We found that the basal age of the ice
is mostly controlled by the local ice thickness, demonstrating the
importance of high-spatial-resolution surveys of bedrock topography for
selecting ice-core drilling sites.
期刊介绍:
The Cryosphere (TC) is a not-for-profit international scientific journal dedicated to the publication and discussion of research articles, short communications, and review papers on all aspects of frozen water and ground on Earth and on other planetary bodies.
The main subject areas are the following:
ice sheets and glaciers;
planetary ice bodies;
permafrost and seasonally frozen ground;
seasonal snow cover;
sea ice;
river and lake ice;
remote sensing, numerical modelling, in situ and laboratory studies of the above and including studies of the interaction of the cryosphere with the rest of the climate system.