Assessment of Southern Ocean clouds and aerosols in the New Zealand Earth System Model using shipborne and ground-based observations

Kuma, Peter; McDonald, Adrian; Morgenstern, Olaf; Hartery, Sean; Harvey, Mike; Parsons, Simon

doi:10.5281/zenodo.5635689

Presentation

Assessment of Southern Ocean clouds and aerosols in the New Zealand Earth System Model using shipborne and ground-based observations

Peter Kuma¹, Adrian McDonald¹, Olaf Morgenstern², Sean Hartery¹, Mike Harvey², Simon Parsons¹

¹University of Canterbury, Christchurch, New Zealand
²NIWA, Welllington, New Zealand

Presentation PDF

Abstract

One of the primary objectives of the New Zealand Earth System Model (NZESM) is to reduce shortwave radiation biases over the Southern Ocean, which are related to deficiencies in representation of clouds and aerosols in this region. This is a subject of active research with multiple hypotheses being tested including cloud microphysics, cloud–aerosol interaction, horizontal homogeneity and differences in the frequency of cloud regimes related to different weather systems being examined. Comparison with observations is necessary for the identification and resolution of these deficiencies. Unfortunately, observations in the Southern Ocean are scarce, with satellites providing the most extensive spatial and temporal coverage, especially instruments such as MODIS and ISCCP and active instruments such as radar and lidar (laser lidar) on the CloudSat and CALIPSO satellites. However, these instruments lack the capability to observe low-level cloud when there is a higher-level overlapping cloud.

We present a multi-year dataset of shipborne and ground-based ceilometer, radar and aerosol observations in the Southern Ocean, which allows for cloud to be seen “from below”. In particular, we discuss the use the Cloud Feedback Model Intercomparison Project (CFMIP) Observation Simulator Package (COSP) to compare the ceilometer measurements with NZESM simulations. The COSP simulator currently does not support ground-based lidars with a matching wavelength, but the ACTSIM lidar simulator in COSP requires only a few modifications to support the analysis of ceilometer data. Using an instrument simulator such as COSP allows us to account for the limited view of the ceilometer and signal attenuation in the atmosphere.

We apply the newly developed ceilometer simulator to the NZESM atmospheric state output in the regions of the Southern Ocean where shipborne or ground-based observations are available, and compare the resulting backscatter distribution and algorithmically derived products such as cloud base between the model and observations.

Conference:: Meteorological Society of New Zealand Annual Conference, Dunedin, New Zealand, 13–15 November 2017
Archive:: Zenodo
DOI:: 10.5281/zenodo.5635689
Published:: 13 November 2017
License:: Open access / Creative Commons Attribution 4.0 International (CC BY 4.0)

BibTeX:


@misc{kuma2017,




  year={2017},


  note={Meteorological Society of New Zealand Annual Conference, Dunedin, New Zealand, 13–15 November 2017},





  doi={10.5281/zenodo.5635689},

  url={https://doi.org/10.5281/zenodo.5635689},

  author={Kuma, Peter and McDonald, Adrian and Morgenstern, Olaf and Hartery, Sean and Harvey, Mike and Parsons, Simon},

  title={Assessment of Southern Ocean clouds and aerosols in the New Zealand Earth System Model using shipborne and ground-based observations}

}

Peter Kuma
Science and Software

Assessment of Southern Ocean clouds and aerosols in the New Zealand Earth System Model using shipborne and ground-based observations

Abstract

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