Impacts of the Lagrangian Data Assimilation of Surface Drifters on Estimating Ocean Circulation during the Gulf of Mexico Grand Lagrangian Deployment

Sun, Luyu; Penny, Stephen G.; Harrison, Matthew

doi:10.1175/mwr-d-21-0123.1

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Impacts of the Lagrangian Data Assimilation of Surface Drifters on Estimating Ocean Circulation during the Gulf of Mexico Grand Lagrangian Deployment

2022
By Sun, Luyu ; Penny, Stephen G. ; Harrison, Matthew
Source: Monthly Weather Review, 150(4), 949-965

[PDF-2.38 MB]

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Journal Title:

Monthly Weather Review
Personal Author:

Sun, Luyu ; Penny, Stephen G. ; Harrison, Matthew

Sun, Luyu ; Penny, Stephen G. ; Harrison, Matthew Less -
NOAA Program & Office:

CIRES (Cooperative Institute for Research in Environmental Sciences)
Description:

Satellite-tracked in situ surface drifters, providing measurements of near-surface ocean quantities, have become increasingly prevalent in the global ocean observation system. However, the position data from these instruments are typically not leveraged in operational ocean data assimilation (DA) systems. In this work, the impact of an augmented-state Lagrangian data assimilation (LaDA) method using the local ensemble Kalman transform filter is investigated within a realistic regional ocean DA system. Direct positioning data of surface drifters released by the Consortium for Advanced Research on Transport of Hydrocarbon in the Environment during the summer 2012 Grand Lagrangian Deployment Experiment are assimilated using a Gulf of Mexico (GoM) configuration of the Modular Ocean Model, version 6, of the Geophysical Fluid Dynamics Laboratory. Multiple cases are tested using both 1/4° eddy-permitting and 1/12° eddy-resolving model resolutions: 1) a free running model simulation, 2) a conventional assimilation of temperature and salinity profile observations, 3) an assimilation of profiles and Lagrangian surface drifter positions, and 4) an assimilation of the profiles and derived Eulerian velocities. LaDA generally produces more accurate estimates of all fields compared to the assimilation of derived Eulerian velocities, with estimates of surface currents notably improving, when transitioning to 1/12° model resolution. In particular, LaDA produces the most accurate estimates of sea surface velocities under tropical cyclone conditions when Hurricane Isaac (2012) impacted the GoM. Further experiments applying a vertical localization while assimilating surface drifter positions improve the estimates of temperature and salinity below the mixed layer depth. Cases including the surface drifter positions in the DA show better Lagrangian predictability than the conventional DA.
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Atmospheric Science
Source:

Monthly Weather Review, 150(4), 949-965
DOI:

https://doi.org/10.1175/mwr-d-21-0123.1
ISSN:

0027-0644;1520-0493;
Format:

PDF
Publisher:

American Meteorological Society
Document Type:

Journal Article
Funding:

Grant no. NA16OAR4310140 ; Grant no. NA18NWS4680048 ; Grant no. NA20OAR4600277 ; Grant no. NA19NES4320002

Grant no. NA16OAR4310140 ; Grant no. NA18NWS4680048 ; Grant no. NA20OAR4600277 ; Grant no. NA19NES4320002 Less -
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urn:sha256:e79f25b086ae8ec803c77e92aed06759f059ab619d47a9e988ec928b363484e7
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https://repository.library.noaa.gov/view/noaa/54796/noaa_54796_DS1.pdf
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Impacts of the Lagrangian Data Assimilation of Surface Drifters on Estimating Ocean Circulation during the Gulf of Mexico Grand Lagrangian Deployment

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