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Dataset: b.e21.BSMYLE-AUFIRE.f09_g17.2019-08.230.cam.h1.PRECL.20190801-20220731.nc
Catalog: /thredds/catalog/files/d583142/catalog.html
dataFormatNetCDF
authorityedu.ucar.gdex
featureTypeGRID
dataSize200668421
idfiles/d583142/b.e21.BSMYLE-AUFIRE.f09_g17.2019-08.230.cam.h1.PRECL.20190801-20220731.nc
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Documentation
Dates
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Description:

  • Rights: Freely Available
  • summary: The coupled climate response to biomass burning emissions from the 2019/20 Australian wildfire season is estimated from the contrast between this 30-member ensembles using CESM2 initialized in August 2019. In response to the fires, a widespread increase in biomass aerosol burdens is simulated in the southern hemisphere through late 2019 and early 2020. Accompanying the increase is an enhancement of cloud albedo, particularly in regions of widespread stratocumulus clouds in the southeastern subtropical Pacific Ocean. The increase in albedo acts to cool the surface, dry the boundary layer, and reduce the moist static energy of the advected low-level flow into the deep tropics. It also cools the ocean locally and the currents that flow into the deep tropics. In response, the Intertropical Convergence Zone is found to migrate northward and sea surface temperature in the Nino 3. 4 region cools. A subsequent multi-year ensemble-mean cooling of the tropical Pacific is simulated through the end of 2021, suggesting an important contribution to the ongoing strong La Nina event.
  • NCAR GDEX - CESM2 Initialized 2019/20 Australian Wildfire Simulations(d583142)

Dates:

  • modified : 2025-08-19T17:51:09.202Z

Creators:

  • UCAR/NCAR/ACOM
  • UCAR/NCAR/CGD

Publishers:

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