領域外・複数領域(M)
セッション小記号 ジョイント(IS)
セッションID M-IS05
タイトル 和文 Developments and applications of XRF-core scanning techniques in natural archives
英文 Developments and applications of XRF-core scanning techniques in natural archives
タイトル短縮名 和文 XRF-core scanning in natural archives
英文 XRF-core scanning in natural archives
代表コンビーナ 氏名 和文 Jyh-Jaan Steven Huang
英文 Jyh-Jaan Steven Huang
所属 和文 Institute of Oceanography, National Taiwan University
英文 Institute of Oceanography, National Taiwan University
共同コンビーナ 1 氏名 和文 天野 敦子
英文 Atsuko Amano
所属 和文 産業技術総合研究所
英文 National institute of Advanced Industrial Science and Technology
共同コンビーナ 2 氏名 和文 田中 えりか
英文 Erika Tanaka
所属 和文 高知大学
英文 Kochi University
共同コンビーナ 3 氏名 和文 Ludvig A Lowemark
英文 Ludvig A Lowemark
所属 和文 National Taiwan University
英文 National Taiwan University
発表言語 E
スコープ 和文
X-ray fluorescence (XRF) core scanning techniques have revolutionized element proxy-based paleo-research over the last decade and has now become an indispensable tool for many research areas. However, despite being fast, non-destructive, and providing records of elemental variations at the submillimeter resolution, science applications of XRF-core scanning results also encounter numerous challenges due to its intrinsically semi-quantitative and ultra-high resolution nature, such as the influences of down-core physical and organic variations, parameter optimizations of machinery, as well as quantitative calibrations and evaluations of the voluminous and complex scanning data. Therefore, the implications of shifts and trends in the elemental data remain challenging to interpret in many settings. 
It is therefore considered timely to bring together international specialists using high-resolution XRF-core scanners in all fields of science to present new research, to stimulate new collaborations and discussions, as well as to propose new technological developments.
英文
X-ray fluorescence (XRF) core scanning techniques have revolutionized element proxy-based paleo-research over the last decade and has now become an indispensable tool for many research areas. However, despite being fast, non-destructive, and providing records of elemental variations at the submillimeter resolution, science applications of XRF-core scanning results also encounter numerous challenges due to its intrinsically semi-quantitative and ultra-high resolution nature, such as the influences of down-core physical and organic variations, parameter optimizations of machinery, as well as quantitative calibrations and evaluations of the voluminous and complex scanning data. Therefore, the implications of shifts and trends in the elemental data remain challenging to interpret in many settings. 
It is therefore considered timely to bring together international specialists using high-resolution XRF-core scanners in all fields of science to present new research, to stimulate new collaborations and discussions, as well as to propose new technological developments.
発表方法 口頭および(または)ポスターセッション
ジョイントセッション CGU ,AGU ,EGU
講演番号 タイトル 発表者
ポスター発表 5月28日 PM3
MIS05-P01 KCCの全てのITRAXデータの定量化に向けて:日本海堆積物を例とした標準試料測定結果からわかること 関 有沙
MIS05-P02 Hands-on tutorial for the analysis of Itrax XRF core scanner data using the Corascope application Chien-Yi Liao
MIS05-P03 Investigating the impact of sample desiccation on Itrax XRF core scanner signal reproducibility Chien-Yi Liao
MIS05-P04 Developing Practical Guidelines for XRF-Core Scanning in Paleoenvironmental Studies: Insights from IODP Expedition 386 Jyh-Jaan Steven Huang
MIS05-P05 Preliminary XRF scanning results of three marine sediment cores off Shimokita in the northwest Pacific from MR23-05 Leg 2 粕谷 拓人
MIS05-P06 XRFコアスキャナーを用いた元素プロファイルに基づく完新世における紀伊水道,紀ノ川沖合の環境変遷 天野 敦子