“…In hydraulic fracturing, the volume and duration of fluid injection are lower, but the pressure is much higher, compared to wastewater disposal; therefore, they have different potential risks for inducing earthquakes (Walters et al, ). Hydraulic fracturing is expected to generate microearthquakes with magnitude −3 < M < 0, since the intent is to create fractures restricted to the target formation (Maxwell, ; Rubinstein & Mahani, ; Warpinski et al, ); however, several studies have reported the occurrence of M > 1 earthquakes induced by hydraulic fracturing in Oklahoma (Holland, ), Ohio (Friberg et al, ; Skoumal et al, , ), United Kingdom (Clarke et al, ), and western Canada, in northeast British Columbia and northwest Alberta (Atkinson et al, ; Bao & Eaton, ; British Columbia Oil and Gas Commission (BCOGC), , ; Farahbod et al, ; Schultz, Mei, et al, ; Schultz, Stern, et al, ; Schultz et al, ; Wang et al, ), including a M 4.6 event in British Columbia (Atkinson et al, ). These events are likely caused by reactivation of nearby critically stressed faults that are well oriented to slip in the local stress field (Maxwell, ).…”