Erratum: Post-IR IRSL dating of K-feldspar from last interglacial marine terrace deposits on the kamikita coastal plain, northeastern Japan

Abstract To establish a suitable luminescence dating protocol for marine terrace deposits in Japan, we tested the applicability of K-feldspar post-infrared (IR) infrared stimulated luminescence (IRSL) (pIRIR) dating using a marine isotope stage (MIS) 5e terrace deposit from the Kamikita coastal plain (NE Japan), where independent age control from a tephra is available. One of the most commonly used pIRIR signals, measured at 290°C with the first IR stimulation temperature at 50°C (pIRIR50/290), faded with a mean g2days value of 1.94 ± 0.19%/decade. In contrast, the pIRIR signal with a higher first IR stimulation temperature of 200°C (pIRIR200/290) had a much lower fading rate (g2days = 0.16 ± 0.49%/decade). The average fading-uncorrected and -corrected pIRIR200/290 ages of MIS 5e subtidal sediments obtained from two sampling sites were 126 ± 3 ka and 132 ± 2 ka, which is in good agreement with the independent age control. We conclude that is it is now possible to use pIRIR protocol to estimate the ages of not only marine terraces formed during MIS 5 substages (5a, 5c) but also of older marine terraces, for which age evidence is limited.

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The Estimation of the Marine Terrace of the Late Warm Period of the Last Interglacial in the Sajin Coast of Yeongdeok, Southeastern Coast of Korea

Journal of the Association of Korean Geographers ◽

10.25202/jakg.5.3.5 ◽

2016 ◽

Vol 5 (3) ◽

pp. 281-287

Author(s):

Seong Gil Choi

Keyword(s):

Warm Period ◽

Marine Terrace ◽

Last Interglacial ◽

Southeastern Coast

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Holocene beach deposits for assessing coastal uplift of the northeastern Boso Peninsula, Pacific coast of Japan

Quaternary Research ◽

10.1016/j.yqres.2010.07.009 ◽

2010 ◽

Vol 74 (2) ◽

pp. 227-234 ◽

Cited By ~ 21

Author(s):

Toru Tamura ◽

Fumitoshi Murakami ◽

Kazuaki Watanabe

Keyword(s):

Marine Terrace ◽

Last Interglacial ◽

Sagami Trough ◽

Boso Peninsula ◽

Uplift Rates ◽

Pacific Coast Of Japan ◽

Ground Penetrating ◽

Coastal Uplift ◽

Northeastern Coast

AbstractThis paper presents a case study that assessed spatial variations in the tectonic uplift rates of beach deposits in the relict Kujukuri strand plain, situated on the northeastern coast of the Boso Peninsula, eastern Japan. The southern Boso Peninsula is tilted downward to the northeast due to plate subduction along the Sagami Trough. However, the cause of the northeastern coast uplift creating the relict strand plain is unclear, due to the absence of a Holocene raised marine terrace sequence. Elevations and ages of beach deposits were collected from drilled cores and ground-penetrating radar profiles along three shore-normal sections in the southern Kujukuri strand plain. From this, alongshore variations in the relative sea level since the mid-Holocene could be seen. These corresponded to north-to-northeast downward tilting at a rate of 0.4 m/ka for an interval 10 km and are concordant with the longer term tilting of the last interglacial marine terrace surrounding the plain. Although it is difficult to assess shore-normal variations of uplift based on the present dataset, the recognized tilting apparently continues to the tilting of the southern Boso Peninsula, implying the Sagami Trough probably affects the uplift of the Kujukuri coast.

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Interpreting the Paleozoogeography and Sea Level History of Thermally Anomalous Marine Terrace Faunas: A Case Study from the Last Interglacial Complex of San Clemente Island, California

Monographs of the Western North American Naturalist ◽

10.3398/042.007.0110 ◽

2014 ◽

Vol 7 (1) ◽

pp. 82-108 ◽

Cited By ~ 5

Author(s):

Daniel R. Muhs ◽

Lindsey T. Groves ◽

R. Randall Schumann

Keyword(s):

Sea Level ◽

Marine Terrace ◽

Last Interglacial ◽

History Of ◽

And Sea Level ◽

San Clemente Island

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Vegetation dynamics during the Last Interglacial–Glacial cycle in the Arno coastal plain (Tuscany, western Italy): location of a new tree refuge

Quaternary Science Reviews ◽

10.1016/j.quascirev.2008.09.009 ◽

2008 ◽

Vol 27 (27-28) ◽

pp. 2456-2466 ◽

Cited By ~ 13

Author(s):

M LUCCHI

Keyword(s):

Coastal Plain ◽

Vegetation Dynamics ◽

Glacial Cycle ◽

Last Interglacial

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Quaternary environmental change in Cyrenaica evidenced by U-Th, ESR and OSL dating of coastal alluvial fan sequences

Libyan Studies ◽

10.1017/s026371890000529x ◽

2000 ◽

Vol 31 ◽

pp. 5-16 ◽

Cited By ~ 18

Author(s):

John S. Rowan ◽

Stuart Black ◽

Mark G. Macklin ◽

Brian J. Tabner ◽

John Dore

Keyword(s):

Environmental Change ◽

Coastal Plain ◽

Drainage System ◽

Alluvial Fan ◽

Beach Sand ◽

Last Interglacial ◽

Aeolian Dunes ◽

Beach Rock ◽

Glacial Periods ◽

Cut And Fill

AbstractThe coastal alluvial fan sequences of Cyrenaica are important archives of environmental change data, but hitherto relatively little has been known about their formative processes and rates. The Wadi Zewana coastal fan near Tolmeita was studied and a range of dating techniques (U-Th, ESR and OSL) applied to selected components of the stratigraphy. The sequence spans the last two global glacial periods separated by an Interglacial. Cemented alluvial fan gravel units yielded U-Th leachate-residue ages of 201 ± 18 ka, 179 ± 15 ka and 138 ± 8 ka respectively. The fan toe units are interdigitated with bioclastic beach rock deposits dated to 150 ± 10.9 ka corresponding to an Interglacial high stand in sea level and marine recession sequence featuring transgressive lag gravels, beach sand and cemented aeolian dunes dated to 121 ± 8 ka. Within the Wadi Zewana catchment a complex cut and fill history is evidenced. Aggradation phases dated to 76 ± 4 ka, 42.1 ± 5.1 ka and 12.5 ± 1.5 ka are broadly coincident with global glacials and stadials, whilst during the Last Interglacial and successive interstadials the drainage system underwent entrenchment, manifested on the coastal plain as telescopic fan segmentation and associated fan head trenching.

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Development of a Late Quaternary Marine Terraced Landscape during On-Going Tectonic Contraction, Crescent City Coastal Plain, California

Quaternary Research ◽

10.1006/qres.1999.2061 ◽

1999 ◽

Vol 52 (2) ◽

pp. 217-228 ◽

Cited By ~ 11

Author(s):

Michael Polenz ◽

Harvey M. Kelsey

Keyword(s):

Coastal Plain ◽

Late Quaternary ◽

Hanging Wall ◽

Thrust Fault ◽

Cascadia Subduction Zone ◽

Marine Terrace ◽

Crescent City ◽

The North ◽

Marine Terraces ◽

Tectonically Active

The Crescent City coastal plain is a low-lying surface of negligible relief that lies on the upper plate of the Cascadia subduction zone in northernmost California. Whereas coastal reaches to the north in southern Oregon and to the south near Cape Mendocino contain flights of deformed marine terraces from which a neotectonic history can be deduced, equivalent terraces on the Crescent City coastal plain are not as pronounced. Reexamination of the coastal plain revealed three late Pleistocene marine terraces, identified on the basis of subtle geomorphic boundaries and further delineated by differentiable degrees of soil development. The youngest marine terrace is preserved in the axial valley of a broad syncline, and the two older marine terraces face each other across the axial region. An active thrust fault, previously recognized offshore, underlies the coastal plain, and folding in the hanging wall of this thrust fault has dictated, through differential uplift, the depositional limits of each successive marine terrace unit. This study demonstrates the importance of local structures in coastal landscape evolution along tectonically active coastlines and exemplifies the utility of soil relative-age determinations to identify actively growing folds in landscapes of low relief.

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Emergent Marine Record and Paleoclimate of the Last Interglaciation along the Northwest Alaskan Coast

Quaternary Research ◽

10.1006/qres.1995.1017 ◽

1995 ◽

Vol 43 (2) ◽

pp. 159-173 ◽

Cited By ~ 71

Author(s):

Julie Brigham-Grette ◽

David M. Hopkins

Keyword(s):

Sea Ice ◽

Sea Level ◽

Coastal Plain ◽

Bering Sea ◽

Atlantic Water ◽

Arctic Sea Ice ◽

The Arctic ◽

Last Interglacial ◽

Arctic Coastal Plain ◽

The Bering Sea

AbstractThe last interglacial high sea-level stand, the Pelukian transgression of isotope substage 5e, is recorded along the western and northern coasts of Alaska by discontinuous but clearly traceable marine terraces and coastal landforms up to about 10 m altitude. The stratigraphy indicates that sea level reached this altitude only once during the last interglacial cycle. From the type area at Nome, to St. Lawrence Island in the Bering Sea, to the eastern limit of the Beaufort Sea, Pelukian deposits contain extralimital faunas indicating that coastal waters were warmer than present. Amino acid ratios in molluscs from these deposits decrease to the north toward Barrow, consistent with the modern regional temperature gradient. Fossil assemblages at Nome and St. Lawrence Island suggest that the winter sea-ice limit was north of Bering Strait, at least 800 km north of its present position, and the Bering Sea was perennially ice-free. Microfauna in Pelukian sediments recovered from boreholes indicate that Atlantic water may have been present on the shallow Beaufort Shelf, suggesting that the Arctic Ocean was not stratified and the Arctic sea-ice cover was not perennial for some period. In coastal regions of western Alaska, spruce woodlands extended westward beyond their modern range and in northern Alaska, on the Arctic Coastal Plain, spruce groves may have entered the upper Colville River basin. The Flaxman Member of the Gubik Formation on the Alaskan Arctic Coastal Plain was deposited during marine isotope substage 5a and records the breakup of an intra-stage 5 ice sheet over northwestern Keewatin.

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