Artigo de periodico

Towards Unified Online-Coupled Aerosol Parameterization for the Brazilian Global Atmospheric Model (BAM): Aerosol-Cloud Microphysical-Radiation Interactions (2023)

• Authors:
  • Pendharkar, Jayant
  • Nobre, Paulo
  • Herdies, Dirceu Luis
  • Figueroa, Silvio Nilo
  • Vara-Vela, Angel
  • Krishna, Ravuri Phani Murali
  • Schuch, Daniel
  • Kubota, Paulo Yoshio
  • Alvim, Débora Souza
  • Vendrasco, Éder Paulo
  • Gomes, Helber Barros
• Autor USP: ALVIM, DÉBORA SOUZA - EEL
• Unidade: EEL
• DOI: 10.3390/rs15010278
• Assunto: AEROSSOL
• Keywords: aerosol–cloud microphysical–radiation interactions; aerosols; global model
• Agências de fomento:
  • Financiamento CAPES
• Language: Inglês
• Abstract: In this work, we report the ongoing implementation of online-coupled aerosol–cloud microphysical–radiation interactions in the Brazilian global atmospheric model (BAM) and evaluate the initial results, using remote-sensing data for JFM 2014 and JAS 2019. Rather than developing a new aerosol model, which incurs significant overheads in terms of fundamental research and workforce, a simplified aerosol module from a preexisting global aerosol–chemistry–climate model is adopted. The aerosol module is based on a modal representation and comprises a suite of aerosol microphysical processes. Mass and number mixing ratios, along with dry and wet radii, are predicted for black carbon, particulate organic matter, secondary organic aerosols, sulfate, dust, and sea salt aerosols. The module is extended further to include physically based parameterization for aerosol activation, vertical mixing, ice nucleation, and radiative optical properties computations. The simulated spatial patterns of surface mass and number concentrations are similar to those of other studies. The global means of simulated shortwave and longwave cloud radiative forcing are comparable with observations with normalized mean biases ≤11% and ≤30%, respectively. Large positive bias in BAM control simulation is enhanced with the inclusion of aerosols, resulting in strong overprediction of cloud optical properties. Simulated aerosol optical depths over biomass burning regions are moderately comparable. A case study simulating an intense biomass burning episode in the Amazon is able to reproduce the transport of smoke plumes towards the southeast, thus showing a potential for improved forecasts subject to using near-real-time remote-sensing fire products and a fire emission model. Here, we rely completely on remote-sensing data for the present evaluation and restrain from comparing our results with previous results until a complete
• Imprenta:
  • Publisher: MDPI
  • Publisher place: Basel
  • Date published: 2023
• Source:
  • Título: Remote Sensing
  • ISSN: 2072-4292
  • Volume/Número/Paginação/Ano: v. 15, n.1, p.1-25, art. 278, 2023

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How to cite

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• ABNT

  PENDHARKAR, Jayant et al. Towards Unified Online-Coupled Aerosol Parameterization for the Brazilian Global Atmospheric Model (BAM): Aerosol-Cloud Microphysical-Radiation Interactions. Remote Sensing, v. 15, n. 1, p. 1-25, 2023Tradução . . Disponível em: https://doi.org/10.3390/rs15010278. Acesso em: 14 mar. 2026.

• APA

  Pendharkar, J., Nobre, P., Herdies, D. L., Figueroa, S. N., Vara-Vela, A., Krishna, R. P. M., et al. (2023). Towards Unified Online-Coupled Aerosol Parameterization for the Brazilian Global Atmospheric Model (BAM): Aerosol-Cloud Microphysical-Radiation Interactions. Remote Sensing, 15( 1), 1-25. doi:10.3390/rs15010278

• NLM

  Pendharkar J, Nobre P, Herdies DL, Figueroa SN, Vara-Vela A, Krishna RPM, Schuch D, Kubota PY, Alvim DS, Vendrasco ÉP, Gomes HB. Towards Unified Online-Coupled Aerosol Parameterization for the Brazilian Global Atmospheric Model (BAM): Aerosol-Cloud Microphysical-Radiation Interactions [Internet]. Remote Sensing. 2023 ; 15( 1): 1-25.[citado 2026 mar. 14 ] Available from: https://doi.org/10.3390/rs15010278

• Vancouver

  Pendharkar J, Nobre P, Herdies DL, Figueroa SN, Vara-Vela A, Krishna RPM, Schuch D, Kubota PY, Alvim DS, Vendrasco ÉP, Gomes HB. Towards Unified Online-Coupled Aerosol Parameterization for the Brazilian Global Atmospheric Model (BAM): Aerosol-Cloud Microphysical-Radiation Interactions [Internet]. Remote Sensing. 2023 ; 15( 1): 1-25.[citado 2026 mar. 14 ] Available from: https://doi.org/10.3390/rs15010278

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