地層中に存在する古津波堆積物の調査

Sawai, Yuki

doi:10.5575/geosoc.2012.0063

Cited by 36 publications

(22 citation statements)

References 144 publications

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“…Parallel laminations are one of the major criteria for the recognition of tsunami deposits (e.g. Sawai, ). However, the core data examined in this study reveal that original sedimentary structures (parallel laminations) in the tsunami deposits were possibly modified by bioturbation, and that the tsunamigenic coarse‐grained deposit (sand) can be distinguished from ordinary background deposits (mud) based mainly on textural differences among the sediments in the semi‐enclosed bay.…”

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confidence: 99%

Post‐depositional alteration of shallow‐marine tsunami‐induced sand layers: A comparison of recent and ancient tsunami deposits, Onagawa Bay, northeastern Japan

2017

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Core data examined in this study reveal that original sedimentary structures in the tsunami deposits were possibly modified by bioturbation, and that the tsunamigenic coarse‐grained deposit can be distinguished from ordinary background deposits based mainly on textural differences among the sediments in the semi‐enclosed bay. Thus, recognition of the effects of post‐depositional alteration of ancient tsunami deposits is important for the identification of paleotsunami events in the geological record.

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confidence: 99%

Post‐depositional alteration of shallow‐marine tsunami‐induced sand layers: A comparison of recent and ancient tsunami deposits, Onagawa Bay, northeastern Japan

2017

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“…1 , , 1968;, 1983;, 1994;Goto et al, 2010aGoto et al, 1771Goto et al, , 1968Goto et al, 1927Goto et al, 1968Goto et al, , 1981 1. , 2007, 2012Paris et al, 2009Paris et al, , 2010Feldens et al, 2012;Nandasena et al, 2013;Yamada et al, 2014 1 2 , Szczuciński, 2012; 50 cm (Goto et al, 2013), (c) storm boulders (after Goto et al, 2013), and (d) potential sandy tsunami deposits (e.g., Yamamoto, 2008;Geshi, 2009;Hojo et al, 2011;Kawana et al, 2011b;Kugai, 2011;Kobayashi, 2013 1968, 198117711968, 19811980, Bourrouilh-Le and Talandier, 1985Young and Bryant, 19921968, 19811968, 198119902 197250 m 1983210 75 BP 17711968, 1981, 1983, , 198719861987, 1986, 1987;, 1987, 1990, 1987...…”

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“…The 1625 AD event may be a localized tsunami at Ishigaki Island (e.g., Araoka et al, 2013). , , 1983;, 199414 C Hughen et al, 2004Hideshima et al, 2001Yoneda et al, 20072000, Suzuki et al, 2008Araoka et al, 2010Araoka et al, 2000 U/Th , 2000; Suzuki et al, 2008;Araoka et al, 2010Araoka et al, , 2013, 2010;, 2011a;, 2012;, 2012;, 2013, 1771, Araoka et al 2013 150-400 …”

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Paleotsunami researches along the Ryukyu Trench

Goto

2017

Jour. Geol. Soc. Japan

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Paleotsunami research along the Ryukyu Trench has been undertaken for ca. years. In particular, studies of tsunami-transported boulders have shown that large tsunamis have repeatedly occurred in the Sakishima Islands along the southern Ryukyu Trench, whereas no large tsunamis have affected the Amami and Okinawa islands along the northern and central Ryukyu Trench in the past yr. These observations are supported by seismological research and imply that earthquakes and tsunamis occur unevenly along the Ryukyu Trench. In contrast to studies of tsunami-transported boulders, sandy and gravely deposits related to tsunamis have been less extensively studied. Future research on such sandy deposits is expected to reveal more detailed paleotsunami histories, which include small-to moderate-scale events.

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“…Most previous investigations of tsunami sediments in land areas have been carried out in large strand plains, coastal wetlands, and lakes (Sawai, 2012). And many studies on the 3.11 Tsunami deposits were reported on the Sendai Plain and delta plains in Sanriku coastal bays (e.g., Naruse et al, 2012;Abe et al, 2012).…”

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confidence: 99%

Formation processes of tsunami deposits following the 2011 Tohoku-oki earthquake in the estuary of Odaka District, Minamisoma City, Fukushima Prefecture, northeast Japan

Oota

Ishizawa

Hoyanagi

2017

Jour. Sed. Soc. Japan

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The 2011 Tohoku-oki tsunami inundated the Idagawa estuarine lowland in Odaka District, Minamisoma City, to a distance of up to 3.2 km inland from the shoreline. In this study, the formation processes of the tsunami deposits is reconstructed based on the pathways of the tsunami, facies of the tsunami deposits. The tsunami deposits are divided into three main units (Units 1-3, in ascending order), and Unit 1 is subdivided into Subunits 1A-1C. Subunit 1A consists of fine sand and was deposited by the encroached flow through the drainage channel in the earliest stage of the tsunami. Subunit 1B comprises an assortment of gravels and was formed from the overflow of a sea dike and river bank. Subunit 1C consists of medium to fine sand and was formed from the flooded flow. Most of these subunits formed from the run-up flow of the first tsunami wave with a remarkably high water level. However, clear erosional contacts are occasionally recognized in the subunits, which were formed from minor run-up flows after the secondary wave. Unit 2 consists of poorly sorted muddy fine sand and was formed from the return flow due to a drop in water level in the latter half of the tsunami. Unit 3 consists of massive mud settled down from the ponding water after the tsunami.

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地層中に存在する古津波堆積物の調査

Cited by 36 publications

References 144 publications

Post‐depositional alteration of shallow‐marine tsunami‐induced sand layers: A comparison of recent and ancient tsunami deposits, Onagawa Bay, northeastern Japan

Post‐depositional alteration of shallow‐marine tsunami‐induced sand layers: A comparison of recent and ancient tsunami deposits, Onagawa Bay, northeastern Japan

Paleotsunami researches along the Ryukyu Trench

Formation processes of tsunami deposits following the 2011 Tohoku-oki earthquake in the estuary of Odaka District, Minamisoma City, Fukushima Prefecture, northeast Japan

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