JpGU-AGU Joint Meeting 2017

講演情報

[JJ]Eveningポスター発表

セッション記号 S (固体地球科学) » S-GL 地質学

[S-GL38] [JJ] 上総層群における下部ー中部更新統境界GSSP

2017年5月22日(月) 17:15 〜 18:30 ポスター会場 (国際展示場 7ホール)

[SGL38-P04] Biostratigraphy of calcareous nannofossils and inferred sea surface conditions around the Brunhes–Matuyama Boundary of the Kokumoto Formation, Kazusa Group, distributed in the Boso Peninsula, central Japan

*亀尾 浩司1羽田 裕貴2久保田 好美3菅沼 悠介4岡田 誠2 (1.千葉大学理学研究科地球科学、2.茨城大学大学院理学研究科、3.国立科学博物館、4.国立極地研究所)

キーワード:石灰質ナノ化石層序、千葉セクション

A Pleistocene formation, the Kokumoto Formation of the Kazusa Group, widely distributes in the middle part of the Boso Peninsula, central Japan. The formation exposed in the Chiba composite section is one of the GSSP (Global Boundary Stratotype Section and Point) candidate for the lower/middle Pleistocene boundary as same as two other candidates, Montalbano Jonico and Valle di Manche sections (e.g., Ogg et al., 2016). The Kokumoto Formation in the section includes a clear boundary of the Brunhes-Matsuyama geomagnetic boundary (MBB) and thus, a lot of chronologic and/or chronostratigraphic studies in the formation have been done (e.g., Suganuma et al., 2015). Recently, paleoenvironmental and paleoceanographic studies have also performed in order to clarify past sea surface conditions, land vegetation, and related paleoclimatic changes during this time around the Northwestern Pacific region (e.g., Haneda et al., 2016). This study added some new calcareous nannofossil data to Kameo et al. (2016) and discusses nannofossil events around the MBB and sea surface conditions, especially temporal and spatial changes of the Kuroshio Current, one of the major sea surface currents around Japanese Islands. Approximately 60 mudstone samples were examined in the middle part of the Kokumoto Formation and well-preserved, abundant calcareous nannofossils were obtained. At least fifteen genera and 16 species are observed throughout the examined section but no characteristic changes of nannofossil occurrences are observed. Even though any last and/or first occurrences of specific species were not detected, larger Gephyrocapsa specimens are characteristically found in the upper part of the examined formation. Their occurrences might correspond to the presence of larger specimens of Gephyrocapsa sp. C (Matsuoka and Okada, 1990), and/or Gephyrocapsa sp.3 (Rio et al., 1990). It means that the base of occurrence of larger forms of Gephyrocapsa sp. 3. can be a possible biohorizon near the MBB. At the same time, some environmental nannofossil indicators near the Japanese islands, were characteristically found. Florisphaera profunda, a lower photic taxon that preferred stable sea surface conditions (Ahagon et al., 1993), and Umbilicosphaera sibogae, a Kuroshio water taxon (Tanaka, 1990) became abundant after the boundary of the MIS 20/19. It suggests that the northward penetration of the Kuroshio Current occurred after 790 ka. Moreover, some local upwelling events in the basin might be estimated because an upwelling indicator, Coccolithus pelagicus braarudii, was occasionally observed after the boundary of MIS 20/19.
References
Ahagon et al., 1993, Marine Micropaleontol., 22, 255-273., Haneda, Y., 2016, Abst., Paleosciences Soc., 2nd annual meeting, 24., Ogg et al., 2016, A Concise Geologic Time Scale 2016, 236 pp., Kameo et al., 2016, Abst. 166th Regular Meeting, Palaeotological Soc., Japan, 39., Rio et al., 1982, Int. Repts. DSDP, 68, 325–343., Suganuma et al., 2015, Geology, 43, 491-494., Tanaka, Y.,1991, Sci. Rep., Tohoku Univ., 2nd ser. (Geol.), 61, 127-198.