Toppling the Boring Billion: Biomarkers, orbital cycles and primordial life. This project aims to discover microbiological processes involved in ore formation in order to understand how zinc and lead minerals formed in the sediments of Australia’s ancient seas. The apparent ‘Boring Billion’ – the geological period 1800 to 800 million years ago – may have harboured seas of fluctuating colours. Fossil biomolecules, unearthed from 1.6 billion years old sediments, draw a picture of ancient seas osci ....Toppling the Boring Billion: Biomarkers, orbital cycles and primordial life. This project aims to discover microbiological processes involved in ore formation in order to understand how zinc and lead minerals formed in the sediments of Australia’s ancient seas. The apparent ‘Boring Billion’ – the geological period 1800 to 800 million years ago – may have harboured seas of fluctuating colours. Fossil biomolecules, unearthed from 1.6 billion years old sediments, draw a picture of ancient seas oscillating between blooms of purple and green bacteria, with waters rapidly alternating between toxic and sulphidic and rich in dissolved iron. Based on these observations, the project aims to discover the dynamic nature of primordial ecosystems, investigate how ancient seas were controlled by the Earth’s orbit around the sun, and explore how microorganisms may have formed the world’s largest zinc deposits.Read moreRead less
Molecular traces of our primordial ancestors. This project aims to work with the exploration industry to develop an age-diagnostic fingerprinting tool for ancient petroleum seeps. Primordial molecules extracted from 1.6 billion years old rocks are the first and only witnesses of this extinct world. Australia’s vast red centre retains undiscovered oil reserves. This project will yield information about an oil’s provenance and help predict where reserves may be hidden, increasing the accuracy of s ....Molecular traces of our primordial ancestors. This project aims to work with the exploration industry to develop an age-diagnostic fingerprinting tool for ancient petroleum seeps. Primordial molecules extracted from 1.6 billion years old rocks are the first and only witnesses of this extinct world. Australia’s vast red centre retains undiscovered oil reserves. This project will yield information about an oil’s provenance and help predict where reserves may be hidden, increasing the accuracy of surveys and reducing costs and risks of exploration. Broader benefits from the findings may change common understanding about our very earliest ancestors and their effect on the planet’s evolution.Read moreRead less
The recovery of life recorded at the end-cretaceous impact crater. This project aims to provide new insights into how the Earth and its ecosystems respond to catastrophic events and dramatic shifts in climate. Sharp changes in climate and ocean circulation can place ecosystems under severe stress. The unique data stemming from this multidisciplinary characterisation of the fluxes of organisms recorded at the Chicxulub impact crater could be used to model the fate of life, and the potential to re ....The recovery of life recorded at the end-cretaceous impact crater. This project aims to provide new insights into how the Earth and its ecosystems respond to catastrophic events and dramatic shifts in climate. Sharp changes in climate and ocean circulation can place ecosystems under severe stress. The unique data stemming from this multidisciplinary characterisation of the fluxes of organisms recorded at the Chicxulub impact crater could be used to model the fate of life, and the potential to recover from future ecologically turbulent events.Read moreRead less