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Large earthquake recurrence on the southern Willunga Fault, South Australia
The presence of Pliocene marine sediments in the Myponga and Meadows basins within the Mt Lofty Ranges south of Adelaide is testament to over 200 m of tectonic uplift... -
Large earthquake recurrence on the southern Willunga Fault, South Australia
The presence of Pliocene marine sediments in the Myponga and Meadows basins within the Mt Lofty Ranges south of Adelaide is testament to over 200 m of tectonic uplift... -
Large earthquake recurrence on the southern Willunga Fault, South Australia
The presence of Pliocene marine sediments in the Myponga and Meadows basins within the Mt Lofty Ranges south of Adelaide is testament to over 200 m of tectonic uplift... -
Large earthquake recurrence on the southern Willunga Fault, South Australia
The presence of Pliocene marine sediments in the Myponga and Meadows basins within the Mt Lofty Ranges south of Adelaide is testament to over 200 m of tectonic uplift... -
Large earthquake recurrence on the southern Willunga Fault, South Australia
The presence of Pliocene marine sediments in the Myponga and Meadows basins within the Mt Lofty Ranges south of Adelaide is testament to over 200 m of tectonic uplift... -
Large earthquake recurrence on the southern Willunga Fault, South Australia
The presence of Pliocene marine sediments in the Myponga and Meadows basins within the Mt Lofty Ranges south of Adelaide is testament to over 200 m of tectonic uplift... -
Large earthquake recurrence on the southern Willunga Fault, South Australia
The presence of Pliocene marine sediments in the Myponga and Meadows basins within the Mt Lofty Ranges south of Adelaide is testament to over 200 m of tectonic uplift... -
Large earthquake recurrence on the southern Willunga Fault, South Australia
The presence of Pliocene marine sediments in the Myponga and Meadows basins within the Mt Lofty Ranges south of Adelaide is testament to over 200 m of tectonic uplift... -
Large earthquake recurrence on the southern Willunga Fault, South Australia
The presence of Pliocene marine sediments in the Myponga and Meadows basins within the Mt Lofty Ranges south of Adelaide is testament to over 200 m of tectonic uplift... -
Draft Hazard-Design Factor (Z) Maps and Elastic Design Spectrum for the 2026...
This paper presents the draft design-hazard factor (Z) maps developed for the 2025 amendment to the Australian Standard Structural Design Actions: Earthquake Actions in... -
Large earthquake recurrence on the southern Willunga Fault, South Australia
The presence of Pliocene marine sediments in the Myponga and Meadows basins within the Mt Lofty Ranges south of Adelaide is testament to over 200 m of tectonic uplift... -
In defence of low hazard in stable continental regions: the likelihood of...
The hazard factors in every version of AS 1170.4 since 1993 have been based on a seismic hazard map published in 1991. In this paper I statistically test the validity of that... -
Large earthquake recurrence on the southern Willunga Fault, South Australia
The presence of Pliocene marine sediments in the Myponga and Meadows basins within the Mt Lofty Ranges south of Adelaide is testament to over 200 m of tectonic uplift... -
Systematic Estimation of Earthquake Source Parameters for Continental...
A new continental-scale Fourier spectral attenuation model is developed to resolve source parameters for well-recorded earthquakes occurring within Australian continental crust... -
The 2018 National Seismic Hazard Assessment for Australia – Data package,...
Geoscience Australia, together with contributors from the wider Australian seismology community, has produced a National Seismic Hazard Assessment (NSHA18) that is intended as... -
Paleoseismology of the 2016 MW 6.1 Petermann earthquake source: Implications...
The 20 May 2016 MW 6.1 Petermann earthquake in central Australia generated a 21 km surface rupture with 0.1 to 1 m vertical displacements across a low-relief landscape. No... -
Extirpations and extinctions: a plant microfossil-based history of the...
Sites recording the extinction or extirpation of tropical–subtropical and cool–cold temperate rainforest genera during the Plio–Pleistocene aridification of Australia are... -
Southwest Australia Seismic Network (SWAN): recording earthquakes in...
The geological structure of southwest Australia comprises a rich, complex record of Precambrian cratonization and Phanerozoic continental breakup. Despite the stable continental... -
An Updated Fourier Spectral Attenuation Model for Southwestern Western Australia
Earthquake ground-motion data recorded on the South-West Australia (seismic) Network (SWAN) are augmented to existing ground-motion datasets for the southwest Western Australian... -
Systematic Estimation of Earthquake Source Parameters for Continental...
continental crust using a new continental-scale attenuation model. The attenuation model uses more than 6,100 individual earthquake recordings and is valid for hypocentral...