Geology and geochemistry of Permian and Triassic sediments in Perth Basin for exploration of petroleum in WA. A mutlidisciplinery approach using molecular organic geochemical analyses combined with geological information will innovatively contribute to a coherent portrayal of the decline, collapse and subsequent recovery of biological species at the Permian/Triassic extinction event in Western Australia and other parts of the world. The proposed study will particulary focus on environmental ch ....Geology and geochemistry of Permian and Triassic sediments in Perth Basin for exploration of petroleum in WA. A mutlidisciplinery approach using molecular organic geochemical analyses combined with geological information will innovatively contribute to a coherent portrayal of the decline, collapse and subsequent recovery of biological species at the Permian/Triassic extinction event in Western Australia and other parts of the world. The proposed study will particulary focus on environmental changes closely related to deposition of petroleum source rocks globally but also focussing on the Perth Basin of the Triassic. This information will then be used to better identify rocks in Australia offering good sources of petroleum.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347945
Funder
Australian Research Council
Funding Amount
$182,000.00
Summary
Extension to Stable Isotope Facility: Elemental Analyser and GC-GC Preparative Systems. To carry out compound specific stable isotope analysis, compounds need to be resolved by GC, and with samples such as petroleum, this is uncommon. We therefore seek to explore GC-GC as a novel additional preparative system in isotope ratio mass spectrometry. Within our new State Centre of Excellence we will be confronted with samples such as soils, sediments, and natural organic matter which require examinati ....Extension to Stable Isotope Facility: Elemental Analyser and GC-GC Preparative Systems. To carry out compound specific stable isotope analysis, compounds need to be resolved by GC, and with samples such as petroleum, this is uncommon. We therefore seek to explore GC-GC as a novel additional preparative system in isotope ratio mass spectrometry. Within our new State Centre of Excellence we will be confronted with samples such as soils, sediments, and natural organic matter which require examination by bulk isotope analysis. If equipped with a customised elemental analyser as an inlet system, both our existing mass analysers will be capable of measuring carbon, hydrogen, nitrogen, oxygen and sulphur isotope values of whole samples.Read moreRead less
Stable Carbon and Hydrogen Isotope Signatures of Chemical Fossils to Infer Palaeoenvironmental Change. Aims are to selectively measure the stable carbon and hydrogen isotopic composition of individual chemical fossils (biomarkers) in sediments and petroleum. Biomarkers are derived from biochemicals in algae, bacteria and higher plants and their isotopic compositions reflects important information about the climate and environment under which the precursor organisms lived. Periods of palaeoenvir ....Stable Carbon and Hydrogen Isotope Signatures of Chemical Fossils to Infer Palaeoenvironmental Change. Aims are to selectively measure the stable carbon and hydrogen isotopic composition of individual chemical fossils (biomarkers) in sediments and petroleum. Biomarkers are derived from biochemicals in algae, bacteria and higher plants and their isotopic compositions reflects important information about the climate and environment under which the precursor organisms lived. Periods of palaeoenvironmental change will be established through the varied stable isotope compositions of certain biomarkers within samples sectioned from sediment profiles of different age. This information will then be used to better identify rocks in Australia offering good sources of petroleum.Read moreRead less
Linking modern biolipids and pigments to ancient biomolecules using innovative laser and hydro pyrolysis and compound specific stable isotope techniques. This project will help scientists understand recent and past climate changes and in turn will improve our ability to forecast future climate change and help Australia manage current threats to biodiversity. Furthermore, this research involving analyses of discrete trace hydrocarbon materials will increase the ability to identify crude oil sourc ....Linking modern biolipids and pigments to ancient biomolecules using innovative laser and hydro pyrolysis and compound specific stable isotope techniques. This project will help scientists understand recent and past climate changes and in turn will improve our ability to forecast future climate change and help Australia manage current threats to biodiversity. Furthermore, this research involving analyses of discrete trace hydrocarbon materials will increase the ability to identify crude oil sources, to the benefit of petroleum exploration in Australia and world-wide. Importantly, this project will enable students and young researchers to be trained in state-of-the-art technologies, leading to quality scientists ready for employment in geoscience industries, and raising the profile of science careers in Australia.Read moreRead less