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Research to detect and measure air pollution, the composition the atmosphere and mixing in the atmosphere.

ANSTO uses atmospheric radioactivity measurements, fine particle sampling and composition analysis to understand the source and impact of harmful air pollution on human health and the environment.

ANSTO has played a formative role and continues to make important contributions using nuclear and isotopic techniques to understand past climates and patterns of change, maintain water resource sustainability and provide insights into the impact of contaminate in the environment.

ITRAX has now analysed more than a kilometre of cores since it became operational in 2012.

Your students can analyse real research data from ANSTO scientists.

Participants undertook IAEA training hosted by Macquarie University and ANSTO on use of radionuclides for soil and water investigations.

Principal Technical Consultant Michael Druce shares some personal insights on the design and construction of ANSTO's nuclear medicine facility.

Investigators have verified and quantified the relationship between the Earth’s land biosphere and changes in temperature and provided evidence that temperature impacts the cycling of carbon between land, ocean and the atmosphere.

The need for a smaller, more transportable version of ANSTO’s 1500-litre atmospheric radon-222 monitor, and with a calibration traceable to the International System of Units, prompted the team to develop a 200-litre radon monitor that would meet those needs.

The Radon Analytical Laboratory operates a comprehensive suite of instrumentation for the monitoring and analysis of natural radioactivity resulting from radon, thoron and their progeny.

Highlights on the Water Isotope Network project.