Active and passive seismic imaging of the Central Abitibi Greenstone Belt, Larder Lake, Ontario

Mostafa Naghizadeh, Richard Smith, Kate Rubingh, Ross Sherlock, John Ayer, Bruno Lafrance, Saeid Cheraghi, David Snyder, Jérome Vergne, Dan Hollis, Aurélien Mordret

Publikation: Bidrag til tidsskriftArtikelForskningpeer review

1 Citationer (Scopus)

Resumé

Passive seismic methods are considered cost-effective and environmentally friendly alternatives to active (reflection) seismic methods. We have acquired colocated active and passive seismic surveys over a metal-endowed Archean granite-greenstone terrane in the Larder Lake area to investigate the reliability of estimated elastic properties using passive seismic methods. The passive seismic data were processed using two different data processing approaches, ambient noise surface-wave tomography (ANSWT) and receiver function analysis, to generate shear-wave velocity and P to S wave (P-S) convertibility profiles of the subsurface, respectively. The Cadillac-Larder Lake Fault (CLLF) was imaged as a south-dipping subvertical zone of weak reflectivity in the reflection seismic profile. To the north of the CLLF, a package of north-dipping reflections in the upper crust (at depths of 5–10 km) resides on the boundary of high (on the top) and low (on the bottom) shear-wave velocity zones estimated using the ANSWT method. This package of reflections is most likely caused by overlaying mafic volcanic and underlying felsic intrusive rocks. The P-S convertibility profile imaged the Moho boundary at ∼40-km depth as well as a south-dipping feature that penetrates the mantle, which is interpreted to be either caused by the delamination of the lower crust or a possible deeper extension of the Porcupine-Destor Fault. Overall, the reflectivity, shear-wave velocity, and P-S convertibility profiles exhibit a good correlation and provided a detailed image of the subsurface lithological structure to a depth of 10 km.

OriginalsprogEngelsk
Artikelnummere2021JB022334
Antal sider19
TidsskriftJournal of Geophysical Research: Solid Earth
Vol/bind127
Udgave nummer2
DOI
StatusUdgivet - feb. 2022
Udgivet eksterntJa

Programområde

  • Programområde 3: Energiressourcer

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