Teleseismic investigation of upper mantle anisotrophy beneath Great Slave Lake shear zone NT.

Régions: South Slave Region

étiquettes: physical sciences, geology, seismology

chercheur principal: Eaton, David (2)
Nᵒ de permis: 13037
Organisation: University of Western Ontario
Année(s) de permis: 1999 1996
Délivré: avr. 20, 1999
Équipe de projet: Greg Clark, Sandrine Sage

Objectif(s): The Great Slave Lake shear zone is an ancient fault zone, nearly 2 billion years old, that played an important role in the geological assembly of the North American continent. Much later, but still in the distant geological past, fluids in this fault zone carried valuable minerals to the surface forming the Pine Point lead-zinc deposit. The shear zone trends northeast and passes south of Great Slave Lake crossing Hwy 5 north of Wood Buffalo National Park. Although this fault zone is not presently active, recent technological developments allow scientists to use passive recordings of distant earthquakes to map its internal structure to depths of 100s of km. Using these methods, this project will help to develop an understanding of the Great Slave Lake shear zone as well as improve the application of novel geophysical imaging techniques.

Description du projet: The goal of this study is to use advanced passive telesiesmic equipment to map the geological feature known as the Great Slave Lake shear zone. The planned geophysical survey will use between 9 and 15 instrument sites spaced 10 km apart and situated close to Hwy 5 between Hay River and the northern part of Wood Buffalo National Park. Each site will consist of solar panels, a buried seismometer, and a steel enclosure (about 1m x 0.8m x 0.5m) with batteries and recording equipment inside. Sites will be selected about 100m from the road to reduce traffic noise and visibility. The equipment will be set up during May and revisited every 4-6 weeks to download data. Upon completion of the project, all equipment will be removed and each site restored to its natural state.