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MAP-IO: an atmospheric and marine observatory program on board Marion Dufresne over the Southern Ocean

Authors :
P. Tulet
J. Van Baelen
P. Bosser
J. Brioude
A. Colomb
P. Goloub
A. Pazmino
T. Portafaix
M. Ramonet
K. Sellegri
M. Thyssen
L. Gest
N. Marquestaut
D. Mékiès
J.-M. Metzger
G. Athier
L. Blarel
M. Delmotte
G. Desprairies
M. Dournaux
G. Dubois
V. Duflot
K. Lamy
L. Gardes
J.-F. Guillemot
V. Gros
J. Kolasinski
M. Lopez
O. Magand
E. Noury
M. Nunes-Pinharanda
G. Payen
J. Pianezze
D. Picard
O. Picard
S. Prunier
F. Rigaud-Louise
M. Sicard
B. Torres
Source :
Earth System Science Data, Vol 16, Pp 3821-3849 (2024)
Publication Year :
2024
Publisher :
Copernicus Publications, 2024.

Abstract

This article is devoted to the presentation of the MAP-IO observation program. This program, launched in early 2021, has enabled the observation of nearly 700 d of measurements over the Indian and Southern Ocean with the equipment of 17 meteorological and oceanographic scientific instruments on board the ship Marion Dufresne. Several observational techniques have been developed to respond to the difficulties of observations on board the ship, in particular for passive remote sensing data, as well as for quasi-autonomous data acquisition and transfer. The first measurements made it possible to draw up unprecedented climatological data of the Southern Ocean regarding the size distribution and optical thickness of aerosols, the concentration of trace gases and greenhouse gases, UV, and integrated water vapor. High-resolution observations of phytoplankton in surface waters have also shown a great variability in latitude in terms of abundance and community structure (diversity). The operational success of this program and these unique scientific results together establish a proof of concept and underline the need to transform this program into a permanent observatory. The multi-year rotations over the Indian Ocean will enable us to assess the trends and seasonal variability of phytoplankton, greenhouse gases, ozone, and marine aerosols in a sensitive and poorly documented climatic region. Without being exhaustive, MAP-IO should make it possible to better understand and assess the biological carbon pump, to study the variability of gases and aerosols in a region that is remote in relation to the main anthropogenic sources, and to monitor the transport of stratospheric ozone by the Brewer–Dobson circulation. The meteorological MAP-IO data set is publicly available at https://www.aeris-data.fr/catalogue-map-io/ (last access: 26 August 2024) (atmospheric data) and at https://doi.org/10.17882/89505 (Thyssen et al., 2022a) (phytoplankton data).

Details

Language :
English
ISSN :
18663508 and 18663516
Volume :
16
Database :
Directory of Open Access Journals
Journal :
Earth System Science Data
Publication Type :
Academic Journal
Accession number :
edsdoj.6cf5330723824c8491db5c074e5cafe4
Document Type :
article
Full Text :
https://doi.org/10.5194/essd-16-3821-2024