Tuchen Franz Philip

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Tuchen
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Franz Philip
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  • Article
    Evidence for the maintenance of slowly varying equatorial currents by intraseasonal variability
    (John Wiley & Sons, 2018-02-09) Greatbatch, Richard J. ; Claus, Martin ; Brandt, Peter ; Matthießen, Jan-Dirk ; Tuchen, Franz Philip ; Ascani, Francois ; Dengler, Marcus ; Toole, John M. ; Roth, Christina ; Farrar, J. Thomas
    Recent evidence from mooring data in the equatorial Atlantic reveals that semiannual and longer time scale ocean current variability is close to being resonant with equatorial basin modes. Here we show that intraseasonal variability, with time scales of tens of days, provides the energy to maintain these resonant basin modes against dissipation. The mechanism is analogous to that by which storm systems in the atmosphere act to maintain the atmospheric jet stream. We demonstrate the mechanism using an idealized model setup that exhibits equatorial deep jets. The results are supported by direct analysis of available mooring data from the equatorial Atlantic Ocean covering a depth range of several thousand meters. The analysis of the mooring data suggests that the same mechanism also helps maintain the seasonal variability.
  • Article
    Two decades of full-depth current velocity observations from a moored observatory in the central equatorial Atlantic at 0°N, 23°W
    (Frontiers Media, 2022-06-30) Tuchen, Franz Philip ; Brandt, Peter ; Hahn, Johannes ; Hummels, Rebecca ; Krahmann, Gerd ; Bourlès, Bernard ; Provost, Christine ; McPhaden, Michael J.
    Regional climate variability in the tropical Atlantic, from interannual to decadal time scales, is inevitably connected to changes in the strength and position of the individual components of the tropical current system with impacts on societally relevant climate hazards such as anomalous rainfall or droughts over the surrounding continents (Bourlès et al., 2019; Foltz et al., 2019). Furthermore, the lateral supply of dissolved oxygen in the tropical Atlantic upper-ocean is closely linked to the zonal current bands (Brandt et al., 2008; Brandt et al., 2012; Burmeister et al., 2020) and especially to the Equatorial Undercurrent (EUC) and its long-term variations with potential implications for regional marine ecosystems (Brandt et al., 2021). The eastward flowing EUC is located between 70 to 200 m depth and forms one of the strongest tropical currents with maximum velocities of up to 1 m s-1 and maximum variability on seasonal time scales (Brandt et al., 2014; Johns et al., 2014). In the intermediate to deep equatorial Atlantic, variability on longer time scales is mainly governed by alternating, vertically-stacked, zonal currents (equatorial deep jets (EDJs); Johnson and Zhang, 2003). At a fixed location, the phases of these jets are propagating downward with time, implying that parts of their energy must propagate upward towards the surface (Brandt et al., 2011). In fact, a pronounced interannual cycle of about 4.5 years, that is associated with EDJs, is projected onto surface parameters such as sea surface temperature or precipitation (Brandt et al., 2011) further demonstrating the importance of understanding equatorial circulation variability and its role in tropical climate variability.