日本地球惑星科学連合2018年大会

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セッション記号 M (領域外・複数領域) » M-IS ジョイント

[M-IS20] 遠洋域の進化

2018年5月23日(水) 17:15 〜 18:30 ポスター会場 (幕張メッセ国際展示場 7ホール)

コンビーナ:松岡 篤(新潟大学理学部地質科学科)、栗原 敏之(新潟大学大学院自然科学研究科)、尾上 哲治(熊本大学大学院自然科学研究科、共同)、木元 克典(独立行政法人海洋研究開発機構)

[MIS20-P04] Late Cretaceous radiolarian assemblages and U-Pb zircon ages of the Yezo Group in the Niikappu area, Hokkaido, Japan

伊藤 祐輝1、*栗原 敏之1植田 勇人2松岡 篤2 (1.新潟大学大学院自然科学研究科、2.新潟大学理学部)

The Yezo Group, distributed in the central part of Hokkaido, Japan, is composed of thick Cretaceous forearc-basin sediments. The macrofaunas, the foraminiferal biostratigraphy, and the carbon isotope stratigraphy have been studied (e.g., Hasegawa, 1997; Takashima, 2011). The detailed radiolarian biostratigraphy in the Urakawa area has been documented by Taketani (1982).

Cretaceous sediments in the Niikappu area are subdivided into the Shunbetsugawa and Niikappugawa formations. The Shunbetsugawa Formation consists of a basal conglomerate, sandstones, and alternating sandstones and mudstones along with several tuff beds in the lower part and hemipelagic mudstones in the upper part. The Niikappugawa Formation is composed mainly of mudstone along with turbidites in its lower part. The mudstones contain abundant radiolarians, and often inoceramids.

U–Pb ages were measured for zircons from four horizons of tuff (895, 931-02, 916-27, and 906) in the Shunbetsugawa and Niikappugawa formations. The cluster of the youngest peak was analyzed using the Unmix Ages routine of Isoplot/Ex 4.15 to obtain the depositional age. As a result, the ages of samples 895 and 931-02 collected from the lower part of the Shunbetsugawa Formation are ca. 100 Ma, corresponding more-or-less to the boundary between the Albian and Cenomanian. The age of the tuff in the lower part of the Niikappugawa Formation (sample 916-27) is ca. 91 Ma, and in the upper part (sample 906) it is ca. 87 Ma. The former age corresponds to the Turonian and the latter to the Coniacian.

We obtained moderately to well-preserved radiolarians, and recognized four assemblages (assemblages 1 to 4). Our age assignments are based on the works of Pessagno (1976) and O’Dogherty (1994). Assemblage 1 is characterized by Crolanium triangulare and Hiscocapsa asseni of late Albian to early Cenomanian age. Assemblage 2 consists of typical Cenomanian species such as Dactyliosphaera silviae, Holocryptocanium barbui, and Pseudodictyomitra tiara. Assemblage 3 is characterized by the dominance of Stichomitra species along with Diacanthocapsa sp. Assemblage 4 contains Alievium superbum, Archaeospongoprunum bipartitum, Dictyomitra formosa, and Pseudotheocampe urna, and this assemblage is considered to be late Turonian-Coniacian in age. The biostratigraphic ages are consistent with the numerical ages of the tuffs. In particular, assemblage 3 can be assigned to the Turonian based on the age of the tuff (sample 916-27: ca. 91 Ma) in the lower part of the Niikappugawa Formation.

The species in our assemblages of Albian to Cenomanian and Coniacian age (assemblages 1, 2, and 4) are similar to those in assemblages reported from the Tethys and North America (e.g., Pessagno, 1976; O’Dogherty, 1994; Hara & Kurihara, 2017). In contrast, the Turonian assemblage of the Yezo Group (assemblage 3) has a very low diversity of species and does not contain typical Turonian species. This implies that the faunal connection between the western Pacific and Tethys was limited during the Turonian.