Luminescence dating of Holocene beach-ridge sands on the Yumigahama Peninsula, western Japan-Reference-Cited by-同舟云学术

Luminescence dating of Holocene beach-ridge sands on the Yumigahama Peninsula, western Japan

Published:2017-01-01 Issue:1 Volume:44 Page:331-340
ISSN:1897-1695
Container-title:Geochronometria
language:en
Short-container-title:

Author:

Tamura Toru¹²,Ito Kazumi¹,Inoue Takahiko¹,Sakai Tetsuya³⁴

Affiliation:

1. Geological Survey of Japan , National Institute of Advanced Industrial Science and Technology , Ibaraki , Japan

2. Division of Environmental Studies , Graduate School of Frontier Sciences , The University of Tokyo , Chiba , Japan

3. Department of Geoscience , Shimane University , Matsue , Shimane , Japan

4. Estuary Research Center , Shimane University , Matsue , Shimane , Japan

Abstract

Abstract We applied infrared stimulated luminescence (IRSL50) and post-infrared (post-IR) IRSL150 dating to K-feldspar sand obtained from Holocene beach ridges on the Yumigahama Peninsula, Japan, to investigate the rate of progradation of the beach, which has been affected by 17–18th century iron mining in a local river catchment. All samples showed higher equivalent doses for the post-IR IRSL signal. Fading tests indicated that IRSL yielded relatively high g-values (11–13%/decade), while post-IR IRSL yielded negative g-values (–5 to –8%/decade). The corrected IRSL age of the oldest sample, 8.1 ± 1.3 ka, was slightly overestimated with respect to its expected age of 5–6.7 ka. The corrected age is highly dependent on the g-value, which if slightly inaccurate would have caused the overestimate. The uncorrected post-IR IRSL ages were underestimated, and we consider that the post-IR IRSL signal faded. However, given the negative g-values, application of an appropriate fading correction was not feasible. The corrected IRSL ages of the younger samples, coupled with an assumption of residual dose, roughly agreed with the historical shoreline changes, indicating that the rate of shoreline progradation increased markedly during the recent period of mining-related enhanced sediment discharge.

Publisher

Walter de Gruyter GmbH

Subject

Earth and Planetary Sciences (miscellaneous)

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