Improving Equatorial Upper Ocean Vertical Mixing in the NOAA/GFDL OM4 Model

Reichl, Brandon G.; Wittenberg, Andrew T.; Griffies, Stephen M.; Adcroft, Alistair

doi:10.1029/2023ea003485

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Improving Equatorial Upper Ocean Vertical Mixing in the NOAA/GFDL OM4 Model

2024
By Reichl, Brandon G. ; Wittenberg, Andrew T. ; Griffies, Stephen M. ; ...
Source: Earth and Space Science, 11(10)

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Journal Title:

Earth and Space Science
Personal Author:

Reichl, Brandon G. ; Wittenberg, Andrew T. ; Griffies, Stephen M. ; Adcroft, Alistair

Reichl, Brandon G. ; Wittenberg, Andrew T. ; Griffies, Stephen M. ; Adcroft, Alistair Less -
NOAA Program & Office:

OAR (Oceanic and Atmospheric Research) ; GFDL (Geophysical Fluid Dynamics Laboratory)

OAR (Oceanic and Atmospheric Research) ; GFDL (Geophysical Fluid Dynamics Laboratory) Less -
Description:

Deficiencies in upper ocean vertical mixing parameterizations contribute to tropical upper ocean biases in global coupled general circulation models, affecting their simulated ocean heat uptake and ENSO variability. To better understand these deficiencies, we develop a suite of ocean model experiments including both idealized single column models and realistic global simulations. The vertical mixing parameterizations are first evaluated using large eddy simulations as a baseline to assess uncertainties and evaluate their implied turbulent mixing. Global models are then developed following NOAA/GFDL's 0.25° nominal horizontal grid spacing OM4 (uncoupled) configuration of the MOM6 ocean model, with various modifications that target biases in the original model. We test several enhancements to the existing mixing schemes and evaluate them against observational constraints from Tropical Atmosphere Ocean moorings and Argo floats. In particular, we find that we can improve the diurnal variability of mixing in OM4 via modifications to its surface boundary layer mixing scheme, and can improve the net mixing in the upper thermocline by reducing the background vertical viscosity, allowing for more realistic, less diffuse currents. The improved OM4 model better represents the mixing, leading to improved diurnal deep‐cycle variability, a more realistic time‐mean tropical thermocline structure, and a better Pacific Equatorial Undercurrent.
Source:

Earth and Space Science, 11(10)
DOI:

https://doi.org/10.1029/2023ea003485
ISSN:

2333-5084;2333-5084;
Format:

pdf
Publisher:

American Geophysical Union (AGU)
Document Type:

Journal Article
Funding:

Grant no. NA18OAR4320123
License:

https://creativecommons.org/licenses/by/4.0/
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CC BY
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urn:sha-512:9ecc40acecefc415b49d63e1e0f571fe270ceafaa46716fc3bcf75ae997440cfdb9158ed9dca78440e981826bea0918bf01dfe6a2d0b0666cc7e4490978c2c13
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Improving Equatorial Upper Ocean Vertical Mixing in the NOAA/GFDL OM4 Model

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