Siberian Traps

The term "trap" has been used in geology since 1785–1795 for such rock formations. It is derived from the Swedish word for stairs ("trappa") and refers to the step-like hills forming the landscape of the region. ==Formation==

at the Putorana Plateau, which is a World Heritage Site The source of the Siberian Traps basaltic rock has been attributed to a mantle plume which rose until it reached the bottom of the Earth's crust, producing volcanic eruptions through the Siberian Craton. It has been suggested that, as the Earth's lithospheric plates moved over the mantle plume (the Iceland plume), the plume had earlier produced the Viluy Traps to the east, then the Siberian Traps in the Permian and Triassic periods, and produced volcanic activity on the floor of the Arctic Ocean in the Jurassic and Cretaceous, and then generating volcanic activity in Iceland. Other plate tectonic causes have also been suggested. The main source of rock in this formation is basalt, but both mafic and felsic rocks are present, so this formation is officially called a Flood Basalt Province. The inclusion of mafic and felsic rock indicates multiple other eruptions that occurred and coincided with the one-million-year-long set of eruptions that created the majority of the basaltic layers. The traps are divided into sections based on their chemical, stratigraphical, and petrographical composition. ==Effects on prehistoric life==

The Siberian Traps coincide with the Permian–Triassic extinction event, which is the most severe known extinction event in the history of life on earth. Sedimentary, palaeontological and geochemical records of the mass extinction indicate that it was caused by a cascade of environmental changes. The emission of large magnitudes of CO2, SO2, halogens and metals by the eruptions led to global warming, oceanic anoxia, oceanic acidification, ozone reduction, acid rain and metal poisoning, triggering major extinctions in terrestrial and marine ecosystems, with slightly different timing on land and in the sea. The relative timing of the exceptionally voluminous magmatism and the extinction, and the potential of this magmatism to generate the immense volumes of greenhouse gases involved, suggests that the Siberian Traps were ultimately responsible for the extinction. Nevertheless, the ultimate reasons for the exceptional severity of the Permian–Triassic mass extinction remain debated. Several other mechanisms causing the extinction or contributing to its severity have been proposed. ==Dating==

in igneous rock of the Putorana Plateau The volcanism that occurred in the Siberian Traps resulted in copious amounts of magma being ejected from the Earth's crust—leaving permanent traces of rock from the same time period of the mass extinction that can be examined today. was then used to accurately determine the age of the zircons found in the Siberian Traps. Eliminating the variability due to lead, the CA-TIMS age-dating technique allowed uranium within the zircon to be the centre focus in linking the volcanism in the Siberian Traps that resulted in high amounts of magmatic material with the Permian–Triassic mass extinction. Specifically focusing on volcanism, rock samples from the Siberian Traps and other southern regions were obtained and compared. Basalts and gabbro samples from several southern regions close to and from the Siberian Traps were dated with the argon-argon method. Studies confirmed that samples of gabbro and basalt from the same time period of the Permian–Triassic event from the other southern regions also matched the age of samples within the Siberian Traps. This confirms the assumption of the linkage between the age of volcanic rocks within the Siberian Traps, along with rock samples from other southern regions to the Permian–Triassic mass extinction event. ==Mineral deposits==

iron (from the Putorana Plateau) The giant Norilsk-Talnakh nickel–copper–palladium deposit formed within the magma conduits in the most complete part of the Siberian Traps. It has been linked to the Permian–Triassic extinction event, The method used to correlate the extinction event with the surplus amount of nickel located in the Siberian Traps compares the timeline of the magmatism within the traps and the timeline of the extinction itself. Before the link between magmatism and the extinction event was discovered, it was hypothesized that the mass extinction and volcanism occurred at the same time due to the linkages in rock composition. ==See also==