Deep-sea water displacement from a turbidity current induced by the Super Typhoon Hagibis
Autor: | Hiroyuki Yokooka, Dhugal J. Lindsay, Tetsuya Miwa, Sangkyun Lee, Hiroyuki Yamamoto, Shinsuke Kawagucci, Kenichiro Nishibayashi, Shotaro Nishi, Ayu Takahashi, Eri Ogura |
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Jazyk: | angličtina |
Rok vydání: | 2020 |
Předmět: |
Turbidity current
010504 meteorology & atmospheric sciences Aquatic and Marine Chemistry General Neuroscience Biological Oceanography Temperature salinity diagrams Video image General Medicine 010502 geochemistry & geophysics Oceanography 01 natural sciences General Biochemistry Genetics and Molecular Biology Deep sea Turbidite Waves and shallow water Water column In situ observation Typhoon Turbidity General Agricultural and Biological Sciences Bay Geology 0105 earth and related environmental sciences |
Zdroj: | PeerJ |
ISSN: | 2167-8359 |
Popis: | Turbidity currents are the main drivers behind the transportation of terrestrial sediments to the deep sea, and turbidite deposits from such currents have been widely used in geological studies. Nevertheless, the contribution of turbidity currents to vertical displacement of seawater has rarely been discussed. This is partly because until recently, deep-sea turbidity currents have rarely been observed due to their unpredictable nature, being usually triggered by meteorological or geological events such as typhoons and earthquakes. Here, we report a direct observation of a deep-sea turbidity current using the recently developed Edokko Mark 1 monitoring system deployed in 2019 at a depth of 1,370 m in Suruga Bay, central Japan. A turbidity current occurred two days after its probable cause, the Super Typhoon Hagibis (2019), passed through Suruga Bay causing devastating damage. Over aperiod of 40 hours, we observed increased turbidity with turbulent conditions confirmed by a video camera. The turbidity exhibited two sharp peaks around 3:00 and 11:00 on October 14 (Japan Standard Time). The temperature and salinity characteristics during these high turbidity events agreed with independent measurements for shallow water layers in Suruga Bay at the same time, strongly suggesting that the turbidity current caused vertical displacement in the bay’s water column by transporting warmer and shallower waters downslope of the canyon. Our results add to the previous few examples that show meteorological and geological events may have significant contributions in the transportation of shallower seawater to the deep sea. Recent technological developments pertaining to the Edokko Mark 1 and similar devices enable straightforward, long-term monitoring of the deep-seafloor and will contribute to the understanding of similar spontaneous events in the deep ocean. |
Databáze: | OpenAIRE |
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