Abstract
An overflow of dense cold water from the Faroese Channels across the Wyville Thomson Ridge
(WTR) into the Rockall Trough was recorded during the 136th cruise of the RRS James Cook in June 2016.
This event happened in the eastern part of the ridge. The remotely operated vehicle ISIS deployed for a
collection of coral samples recorded an abrupt drop in temperature at 500-m depth. Specifically, the water
temperature decreased from 8.73 to 6.74 ∘C and salinity from 35.26 to 35.16. This rapid drop happened
over 20 min, with the fastest rate of water temperature decrease of 1.10 ∘C occurring just over 1 min 50 s.
The numerical modeling conducted to reproduce the event has shown that a massive overflow took place
in the WTR section, which is close to the Darwin Mounds. The overflow has led to resuspension of bottom
sediments; the remotely operated vehicle sampling program in the area of the Darwin Mounds terminated
due to low visibility. The numerical experiments have shown that tidally induced overflows over the WTR
can occur periodically under spring tidal conditions. The model allowed us to identify two places in the
eastern part of the WTR where the tidally driven overflows more realistically can happen
(WTR) into the Rockall Trough was recorded during the 136th cruise of the RRS James Cook in June 2016.
This event happened in the eastern part of the ridge. The remotely operated vehicle ISIS deployed for a
collection of coral samples recorded an abrupt drop in temperature at 500-m depth. Specifically, the water
temperature decreased from 8.73 to 6.74 ∘C and salinity from 35.26 to 35.16. This rapid drop happened
over 20 min, with the fastest rate of water temperature decrease of 1.10 ∘C occurring just over 1 min 50 s.
The numerical modeling conducted to reproduce the event has shown that a massive overflow took place
in the WTR section, which is close to the Darwin Mounds. The overflow has led to resuspension of bottom
sediments; the remotely operated vehicle sampling program in the area of the Darwin Mounds terminated
due to low visibility. The numerical experiments have shown that tidally induced overflows over the WTR
can occur periodically under spring tidal conditions. The model allowed us to identify two places in the
eastern part of the WTR where the tidally driven overflows more realistically can happen
| Original language | English |
|---|---|
| Pages (from-to) | 6753-6765 |
| Number of pages | 13 |
| Journal | Journal of Geophysical Research: Oceans |
| Volume | 123 |
| Publication status | Published - 2018 |
| Externally published | Yes |
Keywords
- Faroe Bank
- Faroese channels