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 H (地球人間圏科学) » H-CG 地球人間圏科学複合領域・一般

[H-CG25] デルタとエスチュアリー:複雑な河口システムの理解を目指して

2018年5月21日(月) 10:45 〜 12:15 103 (幕張メッセ国際会議場 1F)

コンビーナ:齋藤 文紀(島根大学エスチュアリー研究センター)、堀 和明(名古屋大学環境学研究科地理学講座)、Guan-Hong Lee(共同)、Qing He(State Key Laboratory of Estuarine and Coastal Research, East China Normal University)、座長:Yoshiki Saito(GSJ, AIST / Shimane Univ)、Lee Guan-Hong(Inha University)、Hori Kazuaki(Nagoya Univ)

11:45 〜 12:00

[HCG25-11] New residence times of the Holocene reworked shells on the west coast of Bohai Bay, ChinaNew residence times of the Holocene reworked shells on the west coast of Bohai Bay, China

*Zhiwen Shang1,2Fu Wang1,2Jianfen Li1,2William Marshall3Yongsheng Chen1,2Xingyu Jiang1,2Lizhu Tian1,2Hong Wang1,2 (1.Tianjin Centre, China Geological Survey (CGS)、2.Key Laboratory of Muddy Coast Geoenvironment, CGS, Tianjin、3.School of Geography, Earth and Environmental Sciences, University of Plymouth)

キーワード:Reworked shells, Single layer, Residence time, Calibration, Coast of Bohai Bay

Shelly cheniers and shell-rich beds found intercalated in near-shore marine muds and sandy sediments can be used to indicate the location of ancient shorelines, and help to estimate the height of sea level. However, dating the deposition of material within cheniers and shell-rich beds is not straightforward because much of this material is transported and re-worked, creating an unknown temporal off-set, i.e., the residence time, between the death of a shell and its subsequent entombment. To quantify the residence time during the Holocene on a section of the northern Chinese coastline a total 47 shelly subsamples were taken from 17 discrete layers identified on the west coast of Bohai Bay. This material was AMS 14C dated and the calibrated ages were systematically compared.

The subsamples were categorized by type as articulated and disarticulated bivalves, gastropod shells, and undifferentiated shell-hash. It was found that within most individual layers the calibrated ages of the subsamples got younger relative to the amount of apparent post-mortem re-working the material had been subject to. For examples, the 14C ages of the bivalve samples trended younger in this order: shell-hash → split shells → articulated shells. We propose that the younger subsample age determined within an individual layer will be the closest to the actual depositional age of the material dated. Using this approach at four Holocene sites we find residence times which range from 100 to 1260 cal yrs, with two average values of 600 cal yrs for the original 14C dates older than 1 ka cal BP and 100 cal yrs for the original 14C dates younger than 1 ka cal BP, respectively. Using this semi-empirical estimation of the shell residence times we have refined the existing chronology of the Holocene chenier ridges on the west coast of Bohai Bay.