Aerosols at the poles: an AeroCom Phase II multi-model evaluation Academic Article uri icon

abstract

  • Abstract. Atmospheric aerosols from anthropogenic and natural sources reach the polar regions through long-range transport and affect the local radiation balance. Such transport is, however, poorly constrained in present-day global climate models, and few multi-model evaluations of polar anthropogenic aerosol radiative forcing exist. Here we compare the aerosol optical depth (AOD) at 550nm from simulations with 16 global aerosol models from the AeroCom Phase II model intercomparison project with available observations at both poles. We show that the annual mean multi-model median is representative of the observations in Arctic, but that the intermodel spread is large. We also document the geographical distribution and seasonal cycle of the AOD for the individual aerosol species: black carbon (BC) from fossil fuel and biomass burning, sulfate, organic aerosols (OAs), dust, and sea-salt. For asubset of models that represent nitrate and secondary organic aerosols (SOAs), we document the role of these aerosols at high latitudes.The seasonal dependence of natural and anthropogenic aerosols differs with natural aerosols peaking in winter (sea-salt) and spring (dust), whereas AOD from anthropogenic aerosols peaks in late spring and summer. The models produce amedian annual mean AOD of 0.07 in the Arctic (defined here as north of 60N). The models also predict anoteworthy aerosol transport to the Antarctic (south of 70S) with aresulting AOD varying between 0.01 and 0.02. The models have estimated the shortwave anthropogenic radiative forcing contributions to the direct aerosol effect (DAE) associated with BC and OA from fossil fuel and biofuel (FF), sulfate, SOAs, nitrate, and biomass burning from BC and OA emissions combined. The Arctic modelled annual mean DAE is slightly negative (0.12Wm2), dominated by apositive BC FF DAE in spring and anegative sulfate DAE in summer. The Antarctic DAE is governed by BC FF. We perform sensitivity experiments with one of the AeroCom models (GISS modelE) to investigate how regional emissions of BC and sulfate and the lifetime of BC influence the Arctic and Antarctic AOD. Adoubling of emissions in eastern Asia results in a33% increase in Arctic AOD of BC. Adoubling of the BC lifetime results in a39% increase in Arctic AOD of BC. However, these radical changes still fall within the AeroCom model range.

published proceedings

  • ATMOSPHERIC CHEMISTRY AND PHYSICS

altmetric score

  • 4

author list (cited authors)

  • Sand, M., Samset, B. H., Balkanski, Y., Bauer, S., Bellouin, N., Berntsen, T. K., ... Zhang, H.

citation count

  • 45

complete list of authors

  • Sand, Maria||Samset, Bjorn H||Balkanski, Yves||Bauer, Susanne||Bellouin, Nicolas||Berntsen, Terje K||Bian, Huisheng||Chin, Mian||Diehl, Thomas||Easter, Richard||Ghan, Steven J||Iversen, Trond||Kirkevag, Alf||Lamarque, Jean-Francois||Lin, Guangxing||Liu, Xiaohong||Luo, Gan||Myhre, Gunnar||van Noije, Twan||Penner, Joyce E||Schulz, Michael||Seland, Oyvind||Skeie, Ragnhild B||Stier, Philip||Takemura, Toshihiko||Tsigaridis, Kostas||Yu, Fangqun||Zhang, Kai||Zhang, Hua

publication date

  • October 2017