Shakesgiving 2025: Alaska Earthquake Special

What Today’s M6.0 Means in the Shadow of the 1964 Megathrust Giant

🌎 Today’s Big Shaker: The M6.0

Earlier today, Southcentral Alaska was rattled by a magnitude-6.0 intraslab earthquake beneath the region west of Willow/Wasilla. Deep, sharp, widely felt, but not unusual for Alaska’s seismic personality.

This quake struck within the subducting Pacific Plate, not along the boundary between plates. These deep intraslab events commonly produce long, rolling motion that people across Anchorage, Mat-Su, and the Kenai Peninsula recognize instantly.

No tsunami risk. No catastrophic structural damage. But certainly a wake-up call.

🕰️ How 1964 Fits In: The Megathrust Benchmark

The dramatic **Fourth Avenue collapse near C Street in Anchorage** during the **1964 Good Friday megathrust earthquake**, where a massive landslide dropped the graben **11 feet** after **14 feet of horizontal movement**. The sidewalk at left, once level with the street on the right, sank violently as the ground tore apart, reshaping downtown Anchorage in moments. USGS photo, Anchorage district, Cook Inlet region, Alaska, 1964.

The 1964 Good Friday Earthquake, magnitude 9.2, was a completely different type of event:

Type: Megathrust (the Pacific Plate thrusting upward beneath the North American Plate)
Magnitude: 9.2, second-largest earthquake ever recorded on Earth
Rupture length: ~500–800 miles
Vertical land movement: Up to 38 feet of uplift/subsidence
Slip: Up to 60 feet on the fault
Tsunami: Devastating, both locally and across the Pacific

Megathrust quakes only occur on the shallow interface of the subduction zone, the place where plates lock, accumulate strain, and then release it catastrophically.

By contrast, today’s M6.0 happened deeper inside the descending Pacific Plate, not on the megathrust interface.

📚 Sidebar: What Is a Graben? (1964 Anchorage Example)

A graben is a geological term for a block of the Earth’s crust that drops downward between two parallel faults.

In simpler terms:

Picture the ground splitting along two long cracks.
The middle block sinks, while the sides stay higher.
That sunken block is the graben.

Why it happens:

Tension in the crust pulls the ground apart. As the bounding faults shift, the central block falls relative to the surrounding terrain.

In the 1964 Anchorage Fourth Avenue collapse:

During the 1964 Good Friday megathrust earthquake:

The ground along Fourth Avenue was stretched and pulled apart.
The central block (the graben) dropped about 11 feet.
The surrounding ground remained higher, producing the now-iconic image of the street torn open and slanted, with buildings perched at dramatic angles.

This graben collapse remains one of the most visible and widely studied examples of ground deformation from a major earthquake in U.S. history.

🔍 Side-by-Side: Why Today’s 6.0 Is NOT Like 1964, But Still Matters

1. Different Fault, Different Physics

1964: A shallow megathrust rupture, capable of 9.0+ magnitudes and massive tsunamis.
Today: A deep intraslab quake, typically magnitudes 5–7, with shaking but usually limited damage.

2. No Tsunami Potential Today

Megathrust = tsunami generator.
Intraslab = NO vertical seafloor displacement → no tsunami threat.

3. But Both Are Part of the Same System

Even though the two quake types behave differently, they both originate from the same subduction process:

The Pacific Plate is continually descending beneath Alaska.
Stress builds not only at the megathrust but within the plate itself.
Alaska therefore produces both catastrophic megathrust events and frequent mid-6 magnitude intraslab quakes.

4. Today’s Quake Tells Us Alaska Is Still Very Much “On”

Seismic quiet is not something Alaskans get for long.
A 6.0 like today is a reminder of active tectonic loading, the region is doing exactly what a major subduction zone does:

Release small and moderate quakes often
Occasionally produce strong crustal events
Rarely (but inevitably) deliver a megathrust giant like 1964

Today’s quake does not mean a megathrust is imminent. Science cannot forecast timing.
But it does confirm:
➡️ The subduction zone is active
➡️ Strain continues to accumulate
➡️ Alaska remains one of the world’s top seismic hotspots

🔮 What This Means for Alaska’s Future

Based on seismic science and hazard research:

• Expect continued mid-M5 to mid-M6 intraslab quakes

These are routine and will keep rattling Southcentral Alaska for decades.

• Expect occasional strong crustal faults to rupture

Crustal faults crossing Anchorage, Eagle River, and parts of Mat-Su have produced damaging quakes historically.

**• A future megathrust earthquake is inevitable, but timing is unknowable**

Subduction ensures Alaska will have another 8–9+ earthquake at some point.
The question is when, not if.

• Preparedness, not prediction, is the scientific recommendation

The Alaska Earthquake Center and USGS emphasize:

Strengthening older buildings
Ensuring utilities and pipelines have seismic protection
Keeping emergency supplies updated
Reporting damage and felt reports to improve seismic models

📌 Bottom Line for the Shakesgiving Special

Today’s M6.0 was deep, widespread, and vigorous, but geologically normal.
It belongs to the “everyday big” category Alaska experiences regularly.

The 1964 Good Friday megathrust quake remains the benchmark for catastrophic seismic hazard. A totally different beast.

However, both events are connected by the same tectonic machinery that ensures Alaska will always be one of the most earthquake-active regions on Earth.