@incollection{fdi:010057857,
  title = {{C}limatically-active gases in the eastern boundary upwelling and oxygen minimum zone ({OMZ}) systems},
  author = {{G}arbe, {C}.{S}. and {B}utz, {A}. and {D}adou, {I}. and {D}ewitte, {B}oris and {G}ar{\c{c}}on, {V}. and {I}llig, {S}erena and {P}aulmier, {A}ur{\'e}lien and {S}udre, {J}. and {Y}ahia, {H}.},
  editor = {},
  language = {{ENG}},
  abstract = {{T}he {EBUS} ({E}astern {B}oundary {U}pwelling {S}ystems) and {OMZ}s ({O}xygen {M}inimum {Z}one) contribute very significantly to the gas exchange between the ocean and the atmosphere, notably with respect to the greenhouse gases (hereafter {GHG}). {F}rom in-situ ocean measurements, the uncertainty of the net global ocean-atmosphere {CO} 2 fluxes is between 20 and 30%, and could be much higher in the {EBUS}-{OMZ}. {O}ff {P}eru, very few in-situ data are available presently, which justifies alternative approaches for assessing these fluxes. {I}n this contribution we introduce},
  keywords = {{INTERACTION} {OCEAN} {ATMOSPHERE} ; {UPWELLING} ; {DONNEES} {SATELLITE} ; {ANALYSE} {MULTIVARIABLE} ; {MODELE} ; {COUCHE} {MINIMUM} {D}'{OXYGENE} ; {GAZ} {A} {EFFET} {DE} {SERRE}},
  booktitle = {{IEEE} international geoscience and remote sensing symposium ({IGARSS}) : proceedings},
  numero = {},
  pages = {6150--6153},
  address = {{P}iscataway},
  publisher = {{IEEE}},
  series = {{G}eoscience and {R}emote {S}ensing {S}ymposium},
  year = {2012},
  DOI = {10.1109/{IGARSS}.2012.6352740},
  ISBN = {978-1-4673-1160-1},
  ISSN = {2153-6996},
  URL = {https://www.documentation.ird.fr/hor/fdi:010057857},
}