On August 16, 2012, residents of the tiny Dutch village of Huizinge were rattled by an inexplicably large 3.6 magnitude earthquake. Gas extraction in the nearby Groningen gas field, one of the largest onshore gas fields in the world, was the trigger. The area typically does not experience natural earthquakes, and this was the worst induced quake to hit the Netherlands to date.
Places like Groningen, IndiaтАЩs Deccan Plateau and Oklahoma are tectonically stable. They donтАЩt sit at the quake-prone boundaries of tectonic plates. What fault lines they do have lie only a few kilometers below the surface, too shallow to trigger significant natural shakes. Even if the rocks along such faults had slipped millions of years ago, they have since healed, building stronger bonds across these shallow fractures.
Yet human activities тАФ such as mining, oil and gas extraction, dam-building and tapping into geothermal energy тАФ have set off unexpected quakes in these stable regions.
тАЬNormally, what we think тАФ based on textbook earthquake physics тАФ is that if the faults get stronger, you should not be able to start an earthquake,тАЭ says earthquake physicist Ylona van Dinther of Utrecht University in the Netherlands. тАЬBut we were seeing earthquakes in Groningen, a lot.тАЭ The 2012 temblor pushed authorities to eventually stop extracting gas from that field.
Turns out that stationary, healing faults are vulnerable to human intervention. Such faults store strength over millennia of inactivity, and human activities can then push them over the edge, releasing that built-up strength in one go, van Dinther and her colleagues report October 15 in Nature Communications.
A few years ago, van DintherтАЩs colleagues examined the rocks lying below the Groningen gas field and discovered that the underlying faults were of a type that become stronger after tectonic movement. Unlike some deeper faults that lie at tectonic plate edges, the longer that rocks on either side of these stable faults spend in proximity without slipping, the more the area of contact increases between them.
тАЬIn the Netherlands, these faults havenтАЩt moved for millions of years,тАЭ van Dinther says. тАЬAs they get stuck together, they get stronger. We call that frictional healing.тАЭ
If two tectonic plates try to move past each other but the fault between them is stuck, stresses start building up at that fault. Ultimately, the rocks on either side of the fault тАЬslipтАЭ to relieve the building stress, triggering an earthquake. Stable тАЬintra-plateтАЭ faults, in contrast, arenтАЩt on a major plate boundary, so they donтАЩt get jostled by moving plates. But they can suffer other stresses.
For the new study, van Dinther and her team used computer simulations to investigate what happens when intra-plate faults heal undisturbed for millions of years and then suddenly experience a disturbance akin to gas extraction. This stresses the faults, and after about 35 years, the rising stress breaches the additional тАЬfrictional healingтАЭ strength. At this point, all that extra тАЬhealedтАЭ strength is released abruptly from the fault, causing a larger-than-expected drop in the built-up stress and setting off an induced earthquake.
On the plus side, once the strength is released, the fault becomes silent, and the chance of another earthquake at that fault is very low, the team observed, because it would take many millions of years for the fault to rebuild all that strength. But with more than a thousand healing faults in stable regions, human activity could trigger multiple tremors over time, as has happened in Groningen.
These induced earthquakes turn the shallow faults that would normally be protective against natural temblors into a one-time liability. The faultsтАЩ proximity to the surface can end up releasing more energy at the surface, hence shaking the ground significantly. Infrastructure in such conventionally stable regions is not built to withstand tremors.┬а
Stakeholders looking to develop projects in such areas must understand the underlying faults and the risks they pose, says geophysicist Daniel Faulkner of the University of Liverpool in England, who was not involved with the study. Even if companies eventually move away from extracting oil and gas, they will still need EarthтАЩs surface for clean, renewable resources such as geothermal energy. тАЬA lot of the geothermal projects around the globe have been stopped by [induced] seismicity,тАЭ Faulkner says. In 2017, a devastating earthquake struck Pohang, South Korea, because of a nearby geothermal project, which authorities subsequently shut down.
van Dinther says that companies should try to extract resources in ways that trigger a slow movement along the faults, as opposed to a fast release of pent-up strength. This could involve carefully controlling the rate and volume of fluid injected into the Earth to harness geothermal energy, either by starting slowly and ramping up gradually or by injecting fluid cyclically.
Nevertheless, she says, developers should be aware and communicate to others in the region that an earthquake could happen. тАЬWe should account for the effect of healing and strengthening in hazard assessment.тАЭ
