著者
鈴木 健太 山本 正伸1 2 Rosenheim Brad 大森 貴之 Polyak Leonid 南 承一
出版者
日本地球惑星科学連合
雑誌
日本地球惑星科学連合2018年大会
巻号頁・発行日
2018-03-14

The Arctic Ocean underwent dramatic climate changes in the past. Changes in sea-ice extent and ocean currents in the Arctic Ocean cause changes in surface albedo and deep water formation, which drove global climatic changes. However, Arctic paleoceanographic studies have been limited compared to the other oceans due to chronostratigraphic difficulties. One of the reasons for this is absence of material suitable for 14C dating in the Arctic Ocean sediments deposited since the last glacial maximum. To enable improved age constraints for sediments impoverished in datable material, we apply ramped pyrolysis 14C method (Rosenheim et al., 2008) to sedimentary records from the Chukchi-Alaska margin recovering Holocene to late-glacial deposits. Samples were divided into five fraction products by gradual heating sedimentary organic carbon from ambient room temperature to 900°C. The thermographs show a trimodal pattern of organic matter decomposition over temperature, and we consider that CO2 generated at the lowest temperature range was derived from autochthonous organic carbon contemporaneous with sediment deposition, similar to studies in the Antarctic margin and elsewhere. For verification of results, some of the samples treated for ramped pyrolysis 14C were taken from intervals dated earlier by AMS 14C using bivalve shells. The ages of lowest temperature split showed older ages than the radiocarbon ages derived from bivalve shells indicating that those splits were still mixtures and not pure autochthonous organic matter. The relationship between radiocarbon ages of generated gas and pyrolysis temperature is linear. We used this empirical relationship to determine the optimal temperature yielding pure marine organic carbon and estimated age of horizons by sampling at those temperatures. We compare these ages to mixing model ages decoupling the simpler mixtures represented by our original low-temperature splits, which were consistent with the bivalve ages.

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【共同利用成果・国内学会】鈴木健太,山本正伸,Rosenheim Brad,大森貴之 他.「Application of ramped pyrolysis 14C method to postglacial sediment in the Chukchi-Alaskan margin, western Arctic Ocean」 JpGU2018, 2018年5月20-24日, 幕張メッセ, 日本. https://t.co/bhMHuY0MPh

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