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口頭

Extreme exhumation of the Pliocene-Pleistocene plutons along a high-geothermal zone in the Kurobe area, central Japan, revealed by Al-in-hornblende geobarometry and zircon U-Pb geochronometry

末岡茂; 河上哲生*; 鈴木康太*; 鏡味沙耶; 横山立憲; 芝崎文一郎*; 長田充弘; 山崎あゆ*; 東野文子*; King, G. E.*; et al.

no journal, ,

Exposure of young ( a few Ma) plutons have been reported in mobile belts, such as, along subduction zones in the Western Pacific, implying a rapid exhumation in the last few million years. We reconstructed exhumation history of the Pliocene-Pleistocene plutons in the Kurobe area, central Japan, for better understanding of exhumation process and mechanism of such young plutons. Because low-temperature thermochronology is difficult to extract an exhumation history in the Kurobe area due to the complex thermal history/structure related to the recent granitic intrusions, we constrained the exhumation history based on solidification depths and dates of the plutons obtained by using Al-in-hornblende geobarometry and zircon U-Pb geochronometry, respectively. The solidification depths obtained range c.a. 6-10 km regardless of location and solidification age, suggesting a uniform and subvertical exhumation after the solidification of the youngest pluton (c.a. 0.8 Ma). The mean exhumation rate since c.a. 0.8 Ma was computed to be c.a. 7-14 mm/yr, which is consistent with the shorter-term erosion rates obtained by other methods. This rapid and local exhumation might be attributable to localization of deformation along the hot and weak crust along the Kurobe area related to the high-temperature geothermal conditions. This interpretation is being verified by using numerical modeling incorporating the rheology, geothermal conditions, and horizontal compression.

口頭

Denudation history constrained by thermochronological multi-inversion; An Example from the eastern Nepalese Himalaya

中嶋徹; 河上哲生*; 岩野英樹*; 檀原徹*; 酒井治孝*

no journal, ,

過去数十年間でフィッション・トラック(FT)年代測定手法を用いた地殻の削剥史解明手法は大きく発展し、世界各地の変動帯において多く適用されてきた。特に変動帯を横断する測線上におけるFT年代分布を調べることにより、削剥史の解明に留まらず、変動帯における地殻の削剥の内的営力を明らかにする試みが多くなされてきた。一方、現行の大陸衝突帯であるヒマラヤにおいて行われた研究では、内的営力を明らかにする上でFT年代分布のみに基づく検討では時間解像度が不十分であることが指摘された。そこで私たちはジルコン、アパタイトのFT年代測定に加え、FT長データに基づく熱史逆解析を行うことで上部地殻が経験した熱史を高時間解像度で明らかにし、ネパールヒマラヤにおける地殻の削剥の内的営力を明らかにすることを試みた。

口頭

Evaluation of eight zircon samples as potential reference material for (U-Th)/He thermochronometry

福田将眞; Barry, K.*; 末岡茂; 檀原徹*; 岩野英樹*; 田上高広*

no journal, ,

ZHe法は、約1100 $^{circ}$ C/年の冷却速度と中程度の放射線損傷下で160200 $^{circ}$ Cの閉鎖温度であり、地殻最上部の10km以浅における熱履歴を復元できる手法である。従来のZHe年代測定で標準試料として使用されてきたFish Canyon Tuffのジルコンは、強いU-Thゾーニングを示すことがある。この問題により、近年ZHe年代測定の標準物質として考えられる他のジルコンを評価する研究が行われている。本講演では、ZFT法またはU-Pb年代の標準試料や国内の標準試料候補から選ばれた、100Ma未満で放射線損傷が比較的少ない8試料のジルコンについて、ZHe法の標準試料としての評価結果を報告する。ZHe年代測定は各サンプルから30粒のジルコンに対して行い、その適性を評価した。結論として、TRG04-21とMt.Dromedaryのみ既報年代と一致するZHe年代を得たが、他の試料では中程度から高い年代のばらつきや、先行データと一致ないし有意に若い年代となった。

口頭

Termination criterion of step-etching in monazite fission-track thermochronometry; Toward the realization of etching of various characteristic monazites

福田将眞; 中嶋徹; 鈴木彩世*; 末岡茂; 田上高広*

no journal, ,

モナザイトフィッション・トラック(MFT)法は、超低温(50度以下)領域の熱年代法として有力視されている。Jones et al.(2019)は、デボン紀モナザイトにCfを人工照射したトラックを用いて、MFT法のエッチング条件(6M HClで90 $^{circ}$ C 60-90分)を提案した。われわれの予備実験では、日本の白亜紀モナザイトの自発トラックは90-120分以内でエッチングされ、FT密度がプラトーに達した。しかし、日本の第四紀モナザイトでは、600分間のステップエッチングを行った後では、細い(すなわち、エッチング不足の)自発トラックがわずかに得られた。また、ラマン分光分析およびEPMA分析の結果から、放射線損傷の少ないモナザイトほど長いエッチング時間を必要とする傾向があることが示唆された。そこで、MFT法の段階エッチングの終了基準として、ジルコンFT法の段階エッチングに倣って、最も細いトラック幅が約1.00.5ミクロンになるまでエッチングを行うことを提案した。この1ミクロン幅の基準は、モナザイトの特性(放射線損傷や化学的性質など)に関係なく有効である。

口頭

Thermal/denudation histories of the late Neogene pluton revealed by multi-thermochronometries and Al-in-Hornblende geobarometry in the Tanigawa-dake area, central Japan

南沙樹*; 末岡茂; 福田将眞; 長田充弘; Kohn, B. P.*; 横山立憲; 鏡味沙耶; 河上哲生*; 東野文子*; 安邊啓明; et al.

no journal, ,

Granites are generally formed at a crustal depth of several kilometers or deeper. Especially, granites younger than ca 5 Ma are exposed along the plate convergence boundaries, implying very rapid uplift/exhumation rates in the areas. Japanese islands are one of such areas, e.g., the world's youngest Kurobegawa granite (ca 0.8 Ma) is exposed on the Hida mountains. The Tanigawa-dake area is located in the arc-arc junction, where late Neogene Tanigawa-dake granites (zircon U-Pb ages: ca 4.0-3.2 Ma) are exposed. In this study, we performed zircon U-Pb, zircon (U-Th)/He (ZHe) and apatite (U-Th-Sm)/He (AHe) datings for the Tanigawa-dake granites to constrain thermal/denudation histories from the intrusion to exposure. We obtained 6.0-3.2 Ma of zircon U-Pb ages together with the previous work, 3.3-1.4 Ma of ZHe ages and 2.8-1.0 Ma of AHe ages. Zircon U-Pb ages indicated at least three intrusive events for the Tanigawa-dake granites. The AHe ages reflect uplift/denudation rather than thermal disturbance by the intrusions based on time-temperature paths. The denudation rates calculated from AHe ages are 0.3-1.4 mm/yr, comparable with those in other tectonically active regions in Japan, e.g., Tanzawa mountain and Ou back-bone range. The spatial distribution of the denudation rates suggests the Tanigawa-dake region might be symmetrically denudated centering around the west-side of Mt. Tanigawa-dake main ridge. In the presentation, further discussion will be provided with the results of geobarometry, stress analysis and QTQt thermal inversion modeling.

口頭

Thermochronological constraints on the thermal evolution of magmatic rocks associated with Chelopech Au-Cu deposit, Bulgaria

Balkanska, E.*; Georgiev, S.*; Marton, I.*; Kounov, A.*; Peytcheva, I.*; Anti, M.*; 田上高広*; 末岡茂; Wijbrans, J.*

no journal, ,

The Chelopech high-sulphidation epithermal Au-Cu deposit in Bulgaria is part of the Panagyurishte Ore District situated within the Late Cretaceous Apuseni-Banat-Timok-Sredna Gora metallogenic belt. The time of the magmatic and ore-forming events in the Chelopech area were previously well constrained by zircon U-Pb geochronology at 92.5-91 Ma. Here we provide the results of the first apatite fission-track (FT) together with biotite and amphibole $^{40}$ Ar/ $^{39}$ Ar multiple single grain fusion analysis on the Late Cretaceous magmatic rocks associated with the Chelopech Au-Cu deposit. These rocks were sampled in aim to reveal the post-magmatic/metallogenic evolution of the area, which includes a Late Cretaceous-Paleocene (Late Alpine) compression followed by an Eocene-Miocene extension. The obtained results reveal at least three major cooling episodes since the Late Cretaceous. The $^{40}$ Ar/ $^{39}$ Ar weighted mean ages of 92.12 0.60 Ma (amphibole) and 89.17 0.34 Ma (biotite) are interpreted as representing the time of cooling below ca 300 $^{circ}$ C after the emplacement of the sampled magmatic bodies. Four rock samples yield apatite FT ages between 48.6 4.1 Ma and 37.7 3.7 Ma. Modelling of the apatite fission track data using HeFTy software revealed two stages of rapid cooling below ca 120 $^{circ}$ C - the first one between 52 and 45 Ma probably related to the syn- to post-Late Alpine thrusting denudation and the second one between 38 and 35 Ma triggered by the post-orogenic middle to late Eocene extension and exhumation.