@article{fdi:010096068,
  title = {{P}hysical processes driving carbon subduction in the southern ocean in an eddy-permitting model},
  author = {{L}e {C}hev{\`e}re, {S}. and {D}ufour, {C}. {O}. and {B}opp, {L}. and {L}evy, {M}arina},
  editor = {},
  language = {{ENG}},
  abstract = {{T}he {S}outhern {O}cean south of 35 degrees {S} represents a small source of natural inorganic carbon for the atmosphere but a major sink of anthropogenic carbon. {T}he magnitude of the inorganic carbon sink, and the sequestration of inorganic and organic carbon strongly depend on the rate at which they are subducted below the mixed layer. {W}e use a global ocean model at 0.25 degrees resolution to quantify the drivers of the pathways of total and anthropogenic dissolved inorganic carbon ({DIC}) and organic carbon ({OC}) across and within the time-varying mixed layer of five physically consistent regions of the {S}outhern {O}cean over the period 1995-2014. {T}otal {DIC} is brought into the mixed layer through obduction south of the {A}ntarctic {C}ircumpolar {C}urrent ({ACC}) and subducted north of the {ACC}, resulting in a net obduction of 11.2 {P}g{C}/year, with advective processes being responsible for about two-thirds of the total transfer. {A}nthropogenic carbon is brought to the mixed layer through the ocean surface in all regions but mainly subducted north of the {ACC}, with the subduction (1.05 {P}g{C}/year) being achieved through both advection and diffusion, each dominating respectively north and south of the {S}ubantarctic {F}ront. {T}wo thirds of the organic carbon are subducted through the gravitational pump (1.9 {P}g{C}/year) and one-third through physical transfer (0.9 {P}g{C}/year), with an equivalent contribution from advection and diffusion. {A}t the local scale, advective fluxes largely dominate other physical processes in transferring carbon across the base of the mixed layer, and are found to be increased near topographic features and boundary currents.},
  keywords = {dissolved inorganic carbon ; physical processes ; particulate and dissolved organic carbon ; mixed layer fluxes ; {S}outhern {O}cean ; ocean modeling ; {OCEAN} {ANTARCTIQUE}},
  booktitle = {},
  journal = {{G}lobal {B}iogeochemical {C}ycles},
  volume = {40},
  numero = {1},
  pages = {e2024{GB}008416 [24 p.]},
  ISSN = {0886-6236},
  year = {2026},
  DOI = {10.1029/2024gb008416},
  URL = {https://www.documentation.ird.fr/hor/fdi:010096068},
}