Advanced Micro-XRF Method to Separate Sedimentary Rhythms and Event Layers in Sediments: Its Application to Lacustrine Sediment from Lake Suigetsu, Japan

Advanced Micro-XRF Method to Separate Sedimentary Rhythms and Event Layers in Sediments: Its Application to Lacustrine Sediment from Lake Suigetsu, Japan

Event-related sedimentary layers, which are deposited occasionally due to volcanic eruptions, earthquakes or heavy rains, are often contained in the rhythmical sequences of lacustrine and marine sediments. We have developed an analytical method for separating the sedimentary rhythms and the event la...

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Bibliographic Details
Published in:Journal of paleolimnology Vol. 37; no. 2; pp. 259 - 271
Main Authors: Katsuta, Nagayoshi, Takano, Masao, Kawakami, Shin-ichi, Togami, Shoji, Fukusawa, Hitoshi, Kumazawa, Mineo, Yasuda, Yoshinori
Format: Journal Article
Language:English
Published: Dordrecht Springer Nature B.V 01-02-2007
Subjects:
Ash layers
Chemical composition
Earthquakes
Freshwater
Holocene
Lake sediments
Lakes
Manganese
Marine sediments
Sediments
Seismic activity
Volcanic eruptions
Volcanoes
AN, North Atlantic
Japan
INW, Japan
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Summary:Event-related sedimentary layers, which are deposited occasionally due to volcanic eruptions, earthquakes or heavy rains, are often contained in the rhythmical sequences of lacustrine and marine sediments. We have developed an analytical method for separating the sedimentary rhythms and the event layers identified using the scanning X-ray analytical microscope (SXAM) and obtained sequential profiles of seven elements Al, Si, K, Ca, Ti, Mn, and Fe in the lacustrine sediment from Lake Suigetsu, Japan. Two types of event layers could be detected from the elemental composition of 33 layers of sediment: three known volcanic ash layers and 30 clay layers containing 12 turbidites. The recurrence interval of the latter, which may potentially be initiated and archived by locally important earthquakes, is estimated to be an average of 640 ± 160 years by using Sompi event analysis (SEA) based on an autoregressive (AR) model. After removing those portions that represented event layers from the elemental profiles, we obtained event-removed (ER) temporal profiles based on the tephrochronology of the three volcanic ash layers. The ER temporal profiles of manganese and iron, probably representing the siderite content, showed a millennial-scale variation in the Holocene that corresponded well with ice-rafting events in the North Atlantic.[PUBLICATION ABSTRACT]
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ISSN:0921-2728
1573-0417
DOI:10.1007/s10933-006-9028-3