セッション概要
| 固体地球科学(S) | |||
|---|---|---|---|
| セッション小記号 | 岩石学・鉱物学(MP) | ||
| セッションID | S-MP30 | ||
| タイトル | 和文 | Supercontinents and Crustal Evolution | |
| 英文 | Supercontinents and Crustal Evolution | ||
| タイトル短縮名 | 和文 | Supercontinents and Crustal Evolution | |
| 英文 | Supercontinents and Crustal Evolution | ||
| 代表コンビーナ | 氏名 | 和文 | 東野 文子 |
| 英文 | Fumiko Higashino | ||
| 所属 | 和文 | 京都大学大学院理学研究科 | |
| 英文 | Graduate School of Science, Kyoto University | ||
| 共同コンビーナ 1 | 氏名 | 和文 | 足立 達朗 |
| 英文 | Tatsuro ADACHI | ||
| 所属 | 和文 | 九州大学 | |
| 英文 | Kyushu University | ||
| 共同コンビーナ 2 | 氏名 | 和文 | Sreehari Lakshmanan |
| 英文 | Sreehari Lakshmanan | ||
| 所属 | 和文 | Department of Earth science Shimane University, Shimane, Matsue, Japan | |
| 英文 | Department of Earth science Shimane University, Shimane, Matsue, Japan | ||
| 発表言語 | E | ||
| スコープ | 和文 |
Supercontinent formation and dispersion has been enigmatic in the Earth's history. Eurasia is one such current supercontinent and incredible progress in the understanding of its geological evolution has been achieved in the past decade. Earlier supercontinents in the Earth's history such as Gondwana (0.5 Ga), Rodinia (1.0 Ga), Columbia/Nuna (2.0 Ga), Kenorland (2.5 Ga) and Vaalbara (3.1 Ga), have been the focus of several studies, however limited information on older supercontinents has restricted an understanding their tectonic evolution. Several important unsolved issues remain, such as how, when and where these supercontinents formed and how long they remained as such before breaking apart. Additional questions arise on the processes that triggered the fragmentation and unification of continents. In this session, we invite authors around the world to present original new data as well as review results on the continental scale crustal processes and tectonic evolution that are associated with supercontinent formation events in Earth's history. The well-studied Eurasia and Gondwana supercontinents are of particular focus. Topics of interest include, but not restricted to, extremes in metamorphism, P-T-D-t evolution, magmatism, and the role of fluids. We hope to provide a platform for scientific discussions that will enlighten our understanding of the physical and chemical processes in the continental crust that records episodes of orogenesis that contributed to the formation and evolution of supercontinents. |
|
| 英文 |
Supercontinent formation and dispersion has been enigmatic in the Earth's history. Eurasia is one such current supercontinent and incredible progress in the understanding of its geological evolution has been achieved in the past decade. Earlier supercontinents in the Earth's history such as Gondwana (0.5 Ga), Rodinia (1.0 Ga), Columbia/Nuna (2.0 Ga), Kenorland (2.5 Ga) and Vaalbara (3.1 Ga), have been the focus of several studies, however limited information on older supercontinents has restricted an understanding their tectonic evolution. Several important unsolved issues remain, such as how, when and where these supercontinents formed and how long they remained as such before breaking apart. Additional questions arise on the processes that triggered the fragmentation and unification of continents. In this session, we invite authors around the world to present original new data as well as review results on the continental scale crustal processes and tectonic evolution that are associated with supercontinent formation events in Earth's history. The well-studied Eurasia and Gondwana supercontinents are of particular focus. Topics of interest include, but not restricted to, extremes in metamorphism, P-T-D-t evolution, magmatism, and the role of fluids. We hope to provide a platform for scientific discussions that will enlighten our understanding of the physical and chemical processes in the continental crust that records episodes of orogenesis that contributed to the formation and evolution of supercontinents. |
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| 発表方法 | 口頭および(または)ポスターセッション | ||
| 時間 | 講演番号 | タイトル | 発表者 |
|---|---|---|---|
| 口頭発表 5月29日 PM1 | |||
| 13:45 - 14:00 | SMP30-01 | Petrochronological constraints on the polymetamorphic history of the Sør Rondane Mountains: Insights from Zr-in-rutile thermometry and pseudosection modeling | 河上 哲生 |
| 14:00 - 14:15 | SMP30-02 | Reconstruction of P-T-t path of pelitic gneiss from Mefjell, Sør Rondane Mountains, East Antarctica | 東野 文子 |
| 14:15 - 14:30 | SMP30-03 | Geochemical characteristics of Post-collisional magmatic activities in the Sør Rondane Mountains, East Antarctica: Constrains to change of tectonic regime | 大和田 正明 |
| 14:30 - 14:45 | SMP30-04 | Role of earthquakes and Fluid-Assisted Processes in Deforming the Lower Crust: Evidence from the Napier Complex, East Antarctica. | 村山 燎 |
| 14:45 - 15:00 | SMP30-05 | Comparative Analysis of Radiogenic Heat Production and Crustal Thermal Evolution in Sri Lanka and East Antarctica | DEVIKA S PANICKER |
| 15:00 - 15:15 | SMP30-06 | Petrogenesis of Charnockites in the Wanni Complex of Sri Lanka: Implications for tectonic evolution | Pahan Abewardana |
| 口頭発表 5月29日 PM2 | |||
| 15:30 - 15:45 | SMP30-07 | Detrital garnet chemistry from southern Indian beach placers: Insights into source rock characteristics | Athira Pendanath Gopinathan |
| 15:45 - 16:00 | SMP30-08 | Mobile aluminium tracked through metasomatic sapphirine | Sajeev Krishnan |
| 16:00 - 16:15 | SMP30-09 | Mesoproterozoic crustal growth to Triassic magmatism of the Banggai–Sula Microcontinent, Eastern Indonesia | Fransiska Ayuni Catur Wahyuandari |
| 16:15 - 16:30 | SMP30-10 | Phase equilibrium modeling and petrogenesis of multilayer corona textures at olivine-plagioclase interfaces in metagabbros from the Mozambique Belt in Malawi | 粂 美伶 |
| 16:30 - 16:45 | SMP30-11 | Nature and characterization of fluids and their influence on epizonal gold mineralization at Kwaka, North Central, Nigeria | Abdulrahman Ahmadu |
| 16:45 - 17:00 | SMP30-12 | Neoproterozoic crustal evolution and stabilization of the Arabian-Nubian Shield: geochronological and isotopic constraints | Hamed Gamaleldien |
| 講演番号 | タイトル | 発表者 |
|---|---|---|
| ポスター発表 5月29日 PM3 | ||
| SMP30-P01 | Paleoproterozoic regional-scale thermal reworking of the Neoarchean Limpopo Complex, southern Africa | 角替 敏昭 |
| SMP30-P02 | Counterclockwise P-T evolution of the Buhwa Greenstone Belt in the southern Zimbabwe Craton: Implications for Neoarchean continental collision during Kenorland assembly | 沓沢 葉子 |
| SMP30-P03 | Tectonic evolution of granitic gneisses from the Dahomeyide Belt (Ghana) and Central Hoggar (Algeria) in the Trans-Saharan Belt | Fred Temeng Okyere-Siaw |
| SMP30-P04 | Metamorphic evolution and detrital provenance of schists in the A Vuong Formation, southern Truong Son Belt, central Vietnam | 北野 一平 |
| SMP30-P05 | Mineral chemistry and mantle source constraints of Precambrian mafic dykes from Udupi region, Dharwar Craton, southern India | Ammini Sasidharan Silpa |
| SMP30-P06 | Structural and petrogenetic constraints on ultramafic rocks along the Rakhabdev Lineament, NW India: A preliminary study | Drishti Drishti |
| SMP30-P07 | 東南極,セール・ロンダーネ山地,メーニパ地域に産する変成黒色頁岩の地球化学的特徴 | 足立 達朗 |
| SMP30-P08 | Formation process of gedrite–plagioclase coronas around garnet inferred from felsite–nanogranite inclusions in garnet and Cl zoning in hornblende: implications for P–T path of Akarui Point in the Lützow-Holm Complex, East Antarctica | 森 祐紀 |
| SMP30-P09 | Microstructural evolution of high-grade rocks at Instekleppane, Lützow-Holm Complex, East Antarctica | 伊藤 優 |
| SMP30-P10 | Detrital zircon provenance of metasedimentary rocks in the Lützow-Holm Complex, East Antarctica: Implications for tectonic reconstruction prior to Gondwana assembly | 中野 伸彦 |
| SMP30-P11 | Crustal-Scale Deformation in the Lützow–Holm Complex and Its Significance for Gondwana Tectonics | Sreehari Lakshmanan |
| SMP30-P12 | Geologic architecture of the Indian Ocean sector of the Antarctic continent | 外田 智千 |
| SMP30-P13 | Revisiting the Th/U ratio in zircon | 竹原 真美 |