JpGU-AGU Joint Meeting 2020

講演情報

[E] ポスター発表

セッション記号 A (大気水圏科学) » A-CC 雪氷学・寒冷環境

[A-CC38] アイスコアと古環境モデリング

コンビーナ:阿部 彩子(東京大学大気海洋研究所)、植村 立(名古屋大学 環境学研究科)、川村 賢二(情報・システム研究機構 国立極地研究所)、竹内 望(千葉大学)

[ACC38-P03] Evolution in geometry of firn in ice sheets detected by dielectric
anisotropy

*藤田 秀二1,2福井 幸太郎3平林 幹啓1飯塚 芳徳4的場 澄人4宮本 淳5斉藤 健4本山 秀明1,2鈴木 利孝6 (1.大学共同利用機関法人 情報・システム研究機構 国立極地研究所、2.総合研究大学院大学、3.立山カルデラ砂防博物館、4.北海道大学低温科学研究所、5.北海道大学、6.山形大学)

キーワード:アイスコア、フィルン、変態

Ice in polar ice sheets once experience a state of firn at near-surface depths. Therefore, it is important to understand physical processes of firn formation, metamorphism and deformation for ice core studies. We investigated firn through measurement of tensorial values of the dielectric permittivity at microwave and millimeter-wave frequencies. This method can detect presence and strength of anisotropic structure in the geometry of pore spaces and ice matrix. We applied the method to many firn cores drilled at both ice sheets. We find that firn that have shorter residence time at the near-surface depths does not form strong vertical anisotropy that is caused by vertical movement of moistures. In contrast, firn that have longer residence time at the near-surface depths tend to form vertical anisotropy. When density exceeds more than ~600 kg/m3, a common feature of firn at many polar sites is that there is evolution of vertically elongated features of pore spaces in firn despite growth of vertical compression. We hypothesize an explanation as follows. As firn becomes denser, air within firn escape to upward directions as compared to sinking firn. In firn, porous structure tends to have vertically elongated structure because of this vertical escape movement of air. The observed phenomena of the growth of the vertical dielectric anisotropy can be understood by this vertical movement of the air within firn.