@article{fdi:010066158,
  title = {{I}nfluence of anthropogenic aerosol deposition on the relationship between oceanic productivity and warming},
  author = {{W}ang, {R}. and {B}alkanski, {Y}. and {B}opp, {L}. and {A}umont, {O}livier and {B}oucher, {O}. and {C}iais, {P}. and {G}ehlen, {M}. and {P}enuelas, {J}. and {E}the, {C}. and {H}auglustaine, {D}. and {L}i, {B}. {G}. and {L}iu, {J}. {F}. and {Z}hou, {F}. and {T}ao, {S}.},
  editor = {},
  language = {{ENG}},
  abstract = {{S}atellite data and models suggest that oceanic productivity is reduced in response to less nutrient supply under warming. {I}n contrast, anthropogenic aerosols provide nutrients and exert a fertilizing effect, but its contribution to evolution of oceanic productivity is unknown. {W}e simulate the response of oceanic biogeochemistry to anthropogenic aerosols deposition under varying climate from 1850 to 2010. {W}e find a positive response of observed chlorophyll to deposition of anthropogenic aerosols. {O}ur results suggest that anthropogenic aerosols reduce the sensitivity of oceanic productivity to warming from -15.21.8 to -13.31.6{P}g{C}yr(-1)degrees {C}-1 in global stratified oceans during 1948-2007. {T}he reducing percentage over the {N}orth {A}tlantic, {N}orth {P}acific, and {I}ndian {O}ceans reaches 40, 24, and 25%, respectively. {W}e hypothesize that inevitable reduction of aerosol emissions in response to higher air quality standards in the future might accelerate the decline of oceanic productivity per unit warming.},
  keywords = {ocean productivity ; anthropogenic aerosols ; nutrient limitation ; ocean ; biogeochemical model ; {PACIFIQUE} ; {ATLANTIQUE} ; {OCEAN} {INDIEN}},
  booktitle = {},
  journal = {{G}eophysical {R}esearch {L}etters},
  volume = {42},
  numero = {24},
  pages = {10745–10754},
  ISSN = {0094-8276},
  year = {2015},
  DOI = {10.1002/2015gl066753},
  URL = {https://www.documentation.ird.fr/hor/fdi:010066158},
}