Synthetic biology could reshape the global industrial landscape, creating opportunities and challenges for Australian firms, according to a new report from the Australian Council of Learned Academies (ACOLA).
Synthetic biology in Australia: an outlook to 2030 examines the prospects for a fast-evolving field characterised by bold thinking and interdisciplinary research. Broadly defined, synthetic biology involves the application of engineering principles to biology to produce new and improved products and services, to manufacture substances that are difficult to synthesise by traditional techniques, and to harvest sustainably from nature. Examples include a low-emissions method of making jet fuel or the anti-malarial compound artemisinin.
The report analyses the opportunities across areas critical to Australia, including: health and medicine; industry and energy; agriculture and food, and; environment and biocontrol. The report also explores the human concerns raised by the technology, highlighting the importance of an adaptable and responsive regulatory system to guide responsible advancement.
“Synthetic biology offers immense potential to transform industry and deliver significant benefits for Australia. Its development will require strategic investment and a skilled workforce which can integrate the essential ethical, legal and social aspects of synthetic biology into the research and innovation process from its earliest stages,” said the chair of the ACOLA expert working group, Professor Peter Gray.
The report makes six findings that highlight the opportunities presented by synthetic biology and the steps needed to maximise the economic and societal benefits. These include building on areas of existing capability, improved research translation, proactive public communication, a workforce skilled in both HASS and STEM disciplines, and an integrated national infrastructure platform. Without a broad-reaching national implementation strategy for synthetic biology, and strategic investments in education and infrastructure, Australia will fall behind other leading nations. These, together with an inclusive ethical and social framework, and a strengthened culture of technology development and commercialisation, will provide Australia with significant benefits.
“The possibilities of synthetic biology are limitless,” Dr Finkel said. “The question for Australians is which avenues to pursue, and how to do so in a manner that earns consumers’ trust.”
This is the third in ACOLA’s Horizon Scanning series. ‘These interdisciplinary reports provide credible and well-considered evidence to guide opportunities and inform policy on issues ranging from the technological change and sustainability to international competitiveness and the economy’ Professor Glenn Withers, ACOLA President, said.
Penny Underwood on (03) 9818 8540, 0409 925 299 or firstname.lastname@example.org
Expert Working Group
- Professor Robert Williamson AO FRS FAA FAHMS (Chair)
- Professor Warwick Anderson FAHA FASSA FAHMS
- Dr Stephen Duckett FASSA FAHMS
- Professor Ian Frazer AC FRS FAA FTSE FAHMS
- Dr Carrie Hillyard FTSE
- Professor Emma Kowal
- Professor John Mattick AO FAA FRSN FAHMS
- Professor Catriona McLean FAHMS
- Professor Kathryn North AM FAHMS
- Mr Adrian Turner