2020
DOI: 10.1175/jcli-d-19-0608.1
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The Southeastern Tropical Atlantic SST Bias Investigated with a Coupled Atmosphere–Ocean Single-Column Model at a PIRATA Mooring Site

Abstract: Warm sea surface temperature (SST) biases in the tropical Atlantic Ocean form a longstanding problem in coupled general circulation models (CGCMs). Considerable efforts to understand the origins of these biases and alleviate them have been undertaken, but state-of-the-art CGCMs still suffer from biases that are very similar to those of the generation of models before. In this study, we use a powerful combination of in situ moored buoy observations and a new coupled ocean-atmosphere single-column model (SCM) wi… Show more

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Cited by 11 publications
(17 citation statements)
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“…The warm bias, in turn, weakens the lower-tropospheric stability and thus hinders the formation of the stratocumulus deck, which contributes to sustaining the surface warm bias. Other mechanisms have been proposed to explain this bias, including too weak equatorial and alongshore winds weakening upwelling (e.g., Richter et al, 2012;Koseki et al, 2018;Goubanova et al, 2019;, biases in regional atmospheric moisture (Hourdin et al, 2015), too weak offshore transport by ocean mesoscale eddies, and the misrepresentation of the coastal current system (Xu et al, 2014b) or vertical mixing in the upper ocean (e.g., Hazeleger and Haarsma, 2005;Exarchou et al, 2018;Deppenmeier et al, 2020). Richer (2015) extensively reviewed all these mechanisms.…”
Section: Upwelling Regionsmentioning
confidence: 99%
“…The warm bias, in turn, weakens the lower-tropospheric stability and thus hinders the formation of the stratocumulus deck, which contributes to sustaining the surface warm bias. Other mechanisms have been proposed to explain this bias, including too weak equatorial and alongshore winds weakening upwelling (e.g., Richter et al, 2012;Koseki et al, 2018;Goubanova et al, 2019;, biases in regional atmospheric moisture (Hourdin et al, 2015), too weak offshore transport by ocean mesoscale eddies, and the misrepresentation of the coastal current system (Xu et al, 2014b) or vertical mixing in the upper ocean (e.g., Hazeleger and Haarsma, 2005;Exarchou et al, 2018;Deppenmeier et al, 2020). Richer (2015) extensively reviewed all these mechanisms.…”
Section: Upwelling Regionsmentioning
confidence: 99%
“…To assess the model simulations, we use local observation data from the R/V Revelle. SSTs taken are obtained from the ship's intake thermosalinograph at 5 m depth corrected to represent the skin temperature based on the Sea Snake floating thermistor at 5 cm depth (Edson et al, 2016;de Szoeke et al, 2015). In the following the SST used as a reference will be the SST skin temperature.…”
Section: Reference Datasetsmentioning
confidence: 99%
“…In addition, prescribed surface fluxes do not account for the thermal adjustment of the atmospheric boundary layer to the sea surface conditions (e.g., Barnier et al, 1995). To overcome these caveats and properly study the interplay between the atmosphere and ocean boundary layers, only a few studies have so far developed coupled ocean-atmosphere SCMs (Clayson and Chen, 2002;Deppenmeier et al, 2020;Hartung et al, 2018).…”
Section: Introductionmentioning
confidence: 99%
“…The communication between the model components is handled by the OASIS3-MCT coupler. A detailed description of the AOSCM and how to design an experiment with it can be found in Hartung et al (2018) and a tropical application is presented in Deppenmeier et al (2020). The corresponding host model to the AOSCM is the EC-Earth global climate model used in CMIP5 (Hazeleger et al, 2010(Hazeleger et al, , 2012 and CMIP6 (Döscher et al, 2021).…”
Section: The Coupled Atmosphere-ocean Single-column Modelmentioning
confidence: 99%
“…(2018) and a tropical application is presented in Deppenmeier et al. (2020). The corresponding host model to the AOSCM is the EC‐Earth global climate model used in CMIP5 (Hazeleger et al., 2010, 2012) and CMIP6 (Döscher et al., 2021).…”
Section: Model Description and Data Sourcesmentioning
confidence: 99%