Aerospan aerosol characterisation

AeroSpan is a network of automated instruments located to characterise the primary sources of Australian continental aerosol (dust and smoke).

The Aerospan sun photometry station at Birdsville, Australia

In 1997, the first Aerospan station was installed in the remote Strzelecki desert of South Australia. Further stations were established over subsequent years at targeted locations. For many stations, the data record now exceeds 10 years, allowing generation of aerosol climatologies for both the tropical north and the arid zone.

The role of aerosol in moderating climate change is well recognised, both through the scattering and absorption of incoming solar radiation by aerosol (the so-called direct effect) and via the modification of cloud droplet size and cloud lifetime (the indirect effect). In the past, uncertainty as to the magnitude of these effects stemmed largely from the lack of a comprehensive knowledge of regional and seasonal characteristics of aerosol across the globe. 

Sun photometer networks, such as the Aerosol Robotic Network (AERONET) operated by NASA GSFC, were established in the 1990s to address that need. At that time, little attention had been focused on the characterisation of Australian continental aerosol, even though Australia is a globally significant source of biomass burning aerosol, contributing about 10 per cent of global emissions, largely from seasonal savanna burning in the tropical north.

Map of Australia showing the Aerospan station locations in the Australian network.

In addition, the Australian deserts are well known as sources of wind-blown dust, and constitute the largest dust source in the Southern Hemisphere. Although distant from most major aerosol sources in the Northern Hemisphere, it is clear that Australia is the recipient of long-range transport of aerosol from external sources, for example biomass burning in Southeast Asia.

The CSIRO network, formerly known as AGSNet (Australian Ground Station Network), was established to measure continental aerosol, to promote the validation of satellite aerosol retrievals, and to provide data to facilitate atmospheric correction of satellite images. The primary instrument at each station is the Cimel automatic sun-tracking photometer which provides information on the amount, size and type of aerosol present. These instruments are compatible with AERONET, and our affiliation with them imposes standardisation of calibration and processing and provides a public portal to the aerosol data.

Station From To Operator

Tinga Tingana

1997

2012

CSIRO Oceans & Atmosphere

Lake Argyle

1999

Current

CSIRO Oceans & Atmosphere

Jabiru

2000

Current

CSIRO Oceans & Atmosphere

Canberra

2003

Current

CSIRO Oceans & Atmosphere

Birdsville

2005

Current

CSIRO Oceans & Atmosphere

Brisbane

2010

Current

University of Queensland

Lucinda

2009

2010

CSIRO Land & Water

Lake Lefroy

2012

Current

CSIRO Mineral Resources

Fowlers Gap

2013

Current

CSIRO Oceans & Atmosphere

Darwin

2004

2008

CSIRO Oceans & Atmosphere

Darwin

2008

2014

Atmospheric Radiation Measurement (ARM) Climate Research Facility (US DoE)

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