Multi-platform high resolution in situ observations for understanding mesoscale and sub-mesoscale processes and their role in the air-sea exchanges: Experiences and prospects from the EUREC4A-OA/ATOMIC field experiment
- 1LMD-IPSL, Ecole Normale Supérieure – PSL, Paris, France (sabrina.speich@lmd.ens.fr)
- 2Helmoltz Center GEOMAR, Kiel, Germany
- 3LOPS, Université de Brest, Brest, France
- 4University of Sao Paolo, Brazil
- 5CIMA Foundation, Genova, Italy
- 6Observatoire Des Sciences De L'univers Institut Pythéas, Marseille, France
- 7NERSC, Bergen, Norway
- 8UCAR, Boulder, CO, USA
- 9Physical Sciences Laboratory, NOAA, Boulder, CO, USA
- 10Caribbean Institute for Meteorology and Hydrology, Bridgetown, Barbados
- 11Météo France, Toulouse, France
- 12Helmholtz-Zentrum Hereon, Geesthacht, Germany
- 13University of Bergen, Bergen, Norway
- 14NOAA, PMEL, Seattle WA, USA
- 15MPI Hamburg, Hamburg, Germany
- 16LEGOS, Toulouse, France
- 17LOCEAN-IPSL, Paris, France
- *A full list of authors appears at the end of the abstract
In January-February 2020, the EUREC4A-OA/ATOMIC experiment took place in the Northwest Tropical Atlantic with the overall goal of understanding the role of fine-scale processes in internal ocean dynamics and air-sea interaction. Four oceanographic ships, the French Atalante, the German Maria S. Merian and Meteor, and the US Ron Brown, were closely coordinated with airborne observations and autonomous ocean platforms (gliders, ©Saildrones, Argo floats, and drifters) to simultaneously measure the ocean and atmosphere from east of Barbados to the northern border of French Guyana. The multiple observations of the ocean, atmosphere, and their interface have revealed more complex ocean dynamics than expected, in particular a strong interaction between the Amazon River outflow (despite its reduced winter discharge), the North Brazil Current (NBC), and several mesoscale eddies (including the highly energetic NBC rings). This leads to even richer submesoscale dynamics that shape an important fraction of the air-sea exchange of heat, momentum, and CO2, and efficiently isolates the NBC northward flow waters from intense and continuous interactions with the atmosphere. Owing to the many complementary observations from ships and autonomous platforms, we have been able to quantify some of these processes, including the diurnal cycle and the 3D dynamics of different mesoscale eddies, as well as to map and quantify different terms of the air-sea fluxes and their impacts on the marine atmospheric boundary-layer water budget. The results have been widely used not only to validate numerical simulations of the region, but also to guide their analyses and to improve various numerical parameterizations.
The collection of these observations was the result of an important international coordination between many different groups of ocean and atmospheric scientists. In addition, the special strategy for targeted data collection of meso- and submesoscale processes relied on daily planning of the field experiment and on detailed analysis of the near-real-time satellite data and the observations already obtained during the experiment, which was essential for providing the right snapshots of the ocean and atmosphere for the quantification of many processes. The lessons learned from this experiment will be implemented and extended in the upcoming major high-resolution oceanographic endeavor, the WHIRLS experiment, which will take place in June-July 2025, southwest of Africa.
Sabrina Speich sabrina.speich@lmd.ens.fr Johannes Karstensen jkarstensen@geomar.de BARABINOT Yan yan.barabinot@ens-paris-saclay.fr César Barbedo Rocha cesar.rocha@usp.br Hugo Bellenger hugo.bellenger@lmd.jussieu.fr Matteo Borgnino matteo.borgnino@unimib.it Denis Bourras denis.bourras@mio.osupytheas.fr Xavier CARTON xavier.carton@univ-brest.fr solange.coadou.chaventon@ens.fr solange.coadou.chaventon@ens.fr Carlos Conejero carlos.conejero@legos.obs-mip.fr Richard Davy Richard.Davy@nersc.no Fehmi Dilmahamod fdilmahamod@geomar.de Anna del Moral-Méndez è delmoral@ucar.edu Fabien Desbiolles fabien.desbiolles@unimib.it Chris.Fairall@noaa.gov Chris.Fairall@noaa.gov Farrell David dfarrell@cimh.edu.bb Pablo Fermández Fernández pablo.fdez.fdez.1998@gmail.com GIORDANI Hervé herve.giordani@meteo.fr Jonathan Gula jonathan.gula@univ-brest.fr Jochen.Horstmann@hereon.de Jochen.Horstmann@hereon.de noel.keenlyside@gfi.uib.no noel.keenlyside@uib.no Shunya Koseki Shunya.Koseki@gfi.uib.no Julien Jouanno julien.jouanno@legos.obs-mip.fr Landschützer Peter peter.landschutzer@vliz.be LAPEYRE Guillaume guillaume.lapeyre@lmd.ens.fr Rémi Laxenaire remi.laxenaire@lmd.ens.fr Pierre L'hegaret pierre.lhegaret@univ-brest.fr Agostino Niyonkuru Meroni agostino.meroni@unimib.it Anna Napoli anna.napoli@unitn.it dante napolitano dante.napolitano@univ-brest.fr Antonio Parodi antonio.parodi@cimafoundation.org Claudia Pasquero claudia.pasquero@unimib.it Léa Olivier lea.olivier@locean.ipsl.fr Lionel Renault lionel.renault@ird.fr gilles.reverdin@locean-ipsl.upmc.fr gilles.reverdin@locean-ipsl.upmc.fr Florian Schütte fschuette@geomar.de Corentin Subirade corentinsubirade@gmail.com Lingling Suo lingling.suo@nersc.no Jin-Song von Storch jin-song.von.storch@mpimet.mpg.de Nazario Tartaglione nazario.tartaglione@isprambiente.it Fangxing Tian fangxing.tian@reading.ac.uk elizabeth.thompson@noaa.gov elizabeth.thompson@noaa.gov Dongxiao.Zhang@noaa.gov Dongxiao.Zhang@noaa.gov
How to cite: Speich, S., Karstensen, J., Carton, X., Barbedo Rocha, C., Bellenger, H., Pasquero, C., Parodi, A., Gula, J., Bourras, D., Davy, R., renault, L., del Moral-Méndez, A., Zhang, D., Fairall, C., Farrell, D., von Storch, J.-S., Giordani, H., Reverdin, G., Horstmann, J., and Keenlyside, N. and the EUREC4A-OA/ATOMIC Ocean-atmosphere processes: Multi-platform high resolution in situ observations for understanding mesoscale and sub-mesoscale processes and their role in the air-sea exchanges: Experiences and prospects from the EUREC4A-OA/ATOMIC field experiment, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-19188, https://doi.org/10.5194/egusphere-egu24-19188, 2024.
