Geophysical Research Letters (Mar 2023)

Disposal From In Situ Bitumen Recovery Induced the ML 5.6 Peace River Earthquake

  • Ryan Schultz,
  • Jeong‐Ung Woo,
  • Karissa Pepin,
  • William L. Ellsworth,
  • Howard Zebkar,
  • Paul Segall,
  • Yu Jeffrey Gu,
  • Sergey Samsonov

DOI
https://doi.org/10.1029/2023GL102940
Journal volume & issue
Vol. 50, no. 6
pp. n/a – n/a

Abstract

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Abstract Earthquakes induced by human activities can impede the development of underground resources. Significant induced events (M5) have caused both economic and human losses. The recent ML 5.6 (MW 5.1) event near Peace River, Alberta occurs in a region of in situ bitumen recovery. We find that 3.4 cm of ground deformation was caused by reverse fault slip (∼29 cm), possibly related to Peace River Arch faulting. Events are located within the shallow basement, nearby to significant wastewater injection into Paleozoic strata. We find a statistical relationship between earthquakes and injection operations. These events were likely related to the in situ bitumen development: dominantly from wastewater disposal induced pore pressure increases, with smaller poroelastic contributions from bitumen recovery. The assessment of this earthquake as induced will likely have implications for future energy development, management, and regulation—including carbon capture and blue hydrogen.

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