2022
DOI: 10.5194/os-2021-114
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Internal tides off the Amazon shelf during two contrasted seasons: Interactions with background circulation and SSH imprints

Abstract: Abstract. The Amazon shelf break is a key region for internal tides (IT) generation. The region also shows a large seasonal variation of circulation and associated stratification. The objective of this study is to document how these variations will impact IT generation and propagation properties. A high-resolution regional model (1/36° horizontal resolution), explicitly resolving IT is analyzed to investigate their interactions with the background circulation and stratification, over two seasons: first MAMJJ (… Show more

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Cited by 2 publications
(7 citation statements)
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“…The faster mode 1 wave overtakes the slower mode 2 wave, causing alternating patterns of reduced and elevated surface kinetic energy. Similar banding patterns have been observed in satellite altimetry and model simulations of the Amazon Shelf region by Tchilibou et al (2022). These banding patterns are not present in KE after depth integration.…”
Section: Discussionsupporting
confidence: 84%
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“…The faster mode 1 wave overtakes the slower mode 2 wave, causing alternating patterns of reduced and elevated surface kinetic energy. Similar banding patterns have been observed in satellite altimetry and model simulations of the Amazon Shelf region by Tchilibou et al (2022). These banding patterns are not present in KE after depth integration.…”
Section: Discussionsupporting
confidence: 84%
“…The main internal tide beam is generated in at least three hot spots along the steep Amazon Shelf slope (Figure 5a), in agreement with previous studies (Magalhaes et al, 2016;Tchilibou et al, 2022). The tidal energy flux is high at the shelf slope and along the internal tide propagation path with values >14 kW/m.…”
Section: Energetics At the Amazon Shelfsupporting
confidence: 90%
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“…An important cascade of energy is apparent in the SSH spectrum around the tropical latitudes (Tchilibou et al, 2018), with an increased high-frequency variability of tidal origin (mainly non-phase locked) for wavelengths shorter than 70 km (Tchilibou et al 2022). Using a highresolution global OGCM, Qiu et al (2018) explored the influence of the internal tides on their 505 estimates of Lt, concluding that the removal of the phase-locked internal tide contribution significantly reduces the values of Lt by 50 to 100 km in many regions.…”
Section: Uncertainty In the Small-scale Wavelength Rangementioning
confidence: 99%