Add to ORKGGeochemical investigations on the widely dispersed Late Proterozoic Acraman impact ejecta horizon and its host marine shales in the Adelaide Geosyncline provide strong evidence for low-temperature mobilization of the platinum group elements (PGE), including Ir. The ejecta horizon was formed when the middle Proterozoic dacitic volcanics in the Gawler Ranges, central South Australia, were impacted by a very large (ca. 4 km) meteorite. The resulting structure, now represented by Lake Acraman, is Australia's largest meteorite impact structure. Debris from the impact was blasted for many hundreds of kilometers, some falling into the shallow sea of the Adelaide Geosyncline, some 300 km to the east of the impact site
Thin layers rich in spherules formed during impacts by large extraterrestrial objects have the poten...
Next to the rare finds of meteorite fragments in or near impact structures, a handful of geochemical...
Porphyry deposits produce nearly 75% of the world's Cu, 95% of its Mo and 35% of its Au. These depos...
The unique 2.05-Ga Bushveld and Vredefort complexes cover 100,000 sq km (diameter 400 km) on the oth...
A stratigraphically consistent <20-cm-thick unit of microkrystite spherule and microtektite-bearing ...
Discovery of a widespread horizon of shock-deformed volcaniclastic ejecta preserved in Late Proteroz...
High concentrations of iridium have been reported in terrestrial sediments dated at 12.9 ka and are ...
Elevated concentrations of iridium (Ir) and other platinum-group elements (PGE) have been reported i...
The Vorotilov core was drilled in the central uplift of the Puchezh-Katunki astrobleme to a depth of...
Geochemical measurements have been performed on thousands of rock samples collected across bio-event...
A global faunal crisis close to the Eifelian-Givetian stage boundary in the mid-Devonian has been pu...
The globally-deposited clay layer marking the Cretaceous-Tertiary boundary has been studied to deter...
Thin layers rich in formerly molten spherules interpreted as distal ejecta from large impacts by ext...
Not only meteoritic elements (Ir, Ni, Au, Pt metals), but also some patently non-meteoritic elements...
Here, we report new data from four independent laboratories that reveal a positive iridium anomaly w...
Thin layers rich in spherules formed during impacts by large extraterrestrial objects have the poten...
Next to the rare finds of meteorite fragments in or near impact structures, a handful of geochemical...
Porphyry deposits produce nearly 75% of the world's Cu, 95% of its Mo and 35% of its Au. These depos...
The unique 2.05-Ga Bushveld and Vredefort complexes cover 100,000 sq km (diameter 400 km) on the oth...
A stratigraphically consistent <20-cm-thick unit of microkrystite spherule and microtektite-bearing ...
Discovery of a widespread horizon of shock-deformed volcaniclastic ejecta preserved in Late Proteroz...
High concentrations of iridium have been reported in terrestrial sediments dated at 12.9 ka and are ...
Elevated concentrations of iridium (Ir) and other platinum-group elements (PGE) have been reported i...
The Vorotilov core was drilled in the central uplift of the Puchezh-Katunki astrobleme to a depth of...
Geochemical measurements have been performed on thousands of rock samples collected across bio-event...
A global faunal crisis close to the Eifelian-Givetian stage boundary in the mid-Devonian has been pu...
The globally-deposited clay layer marking the Cretaceous-Tertiary boundary has been studied to deter...
Thin layers rich in formerly molten spherules interpreted as distal ejecta from large impacts by ext...
Not only meteoritic elements (Ir, Ni, Au, Pt metals), but also some patently non-meteoritic elements...
Here, we report new data from four independent laboratories that reveal a positive iridium anomaly w...
Thin layers rich in spherules formed during impacts by large extraterrestrial objects have the poten...
Next to the rare finds of meteorite fragments in or near impact structures, a handful of geochemical...
Porphyry deposits produce nearly 75% of the world's Cu, 95% of its Mo and 35% of its Au. These depos...