The Science of Sustainability

Geological Outings Around the Bay: The Moraga Formation

  • share this article
  • Facebook
  • Email

A pillar of Moraga Formation lava sets off the view across Strawberry Canyon and the Bay from Grizzly Peak Boulevard in northernmost Oakland. All photos by Andrew Alden.

The Berkeley Hills are not just a great vantage point above the central Bay Area—they're also a textbook for geology students. And one of the main chapters in that textbook is our local lava, the Moraga Formation. Dating from 9 to 10 million years ago, this distinctive set of rocks can be visited in many places. Let's have a look at five localities.

Everywhere it occurs, the Moraga is a strong volcanic rock that underlies hills. But it was laid down on flat ground in late Miocene time, erupting from two or three vents near a range of high hills to its west, where the Bay lies today. The outcrops of the Moraga Formation lie on the map in the outline of a firebird flying northwest. Here's what I mean. Click the image for a 1000-pixel version.

The Moraga Formation is brown on this geologic map, derived from USGS Misc. Field Studies Map 2342. Localities 1 through 5 are shown in this article.

This view from the southeast shows the high hills above Berkeley, Grizzly Peak on the left and Vollmer Peak on the right. Both consist of lava flows (Vollmer is made of the slightly younger Bald Peak Basalt). Locality 1 is near Grizzly Peak on Grizzly Peak Boulevard.

The foreground with the winding road is Sibley Volcanic Regional Preserve (locality 3); behind it is the hidden canyon of Route 24 (locality 2).

Grizzly Peak Boulevard is reached from the west on Claremont Avenue and from the east on Fish Ranch Road; head north and you're immediately in the Moraga Formation. Stop early and often to inspect the rocks. You'll note that everything is strongly tilted, like nearly all rocks of the East Bay hills.

The Moraga Formation consists of lava flows, sedimentary rocks that were laid down between eruptions, and occasional beds of tuff—rock composed of volcanic ash. Rocks like this hand specimen show former gas bubbles, or vesicles. These are a sign that the lava was near the ground surface, allowing water vapor and carbon dioxide to come out of solution and propel eruptions. The Moraga formation is noteworthy for the amount of vesiculated lava it has.

Just south of the trailhead to Grizzly Peak, a rampart of lava stands up on the west side of the road. Enjoy the view.

To the north, the Moraga Formation underlies most of Tilden Park all the way up to Inspiration Point. But let's turn around and really see it. This photo is a view south showing the next two localities, the Route 24 cut and behind it Sibley Volcanic Preserve.

Take Fish Ranch Road down to Route 24 and head east; make a u-turn at the Wilder Road exit and pull off on the Fish Ranch Road exit heading west. You may observe signs forbidding pedestrians. This is what you'll see across the highway. (Of course, when traffic is backed up from the Caldecott Tunnel you can admire these at leisure from your car.) The Moraga Formation consists of two packages, each consisting of five large lava flows, with a section of mostly sedimentary rocks between them. This is the lower set of flows; up is to the left.

If you turn your attention northward, you may see the basal contact of the Moraga Formation, where the first lava flows came down upon the coarse conglomerate beds of the Orinda Formation. The lavas are of basalt and andesite composition and are quite dark, but they may also be red where they flowed into water or over wet ground.

Locality 3 is Sibley Volcanic Regional Preserve, which you reach by going back up Fish Ranch Road and taking Grizzly Peak Boulevard the other direction. Sibley deserves its own separate article, so I will be brief today.

Besides rocks, Sibley has a lot of wonderful habitat and is interesting at all times of year for its plant and animal life. There are also several labyrinths to discover. And the views are fine in all directions. The only disadvantage is that the parking lot fills up on nice weekends.

But Sibley's great value to geologists is that it exposes a cross section of a volcano's guts, from its feeder dikes coming up through the underlying Orinda and Claremont formations to the remains of the central vent and a short-lived crater lake. These are things you won't see without a lot of legwork and educated eyes, but a history of quarry operations here has unveiled excellent exposures of features that even duffers can spot. One is the presence of amygdules, or mineral-filled vesicles. You'll find these throughout the Moraga, but they are most visible at Sibley. Collect them only with your camera, please.

The southern exposures of the Moraga are smaller and less well known, but you will surely have them to yourself. At locality 4, the dark lava crops out in a deep cleft along Valley View Drive.

Geologists have mapped the structure at this location as an anticline or arch, meaning that the whole volcanic section has been folded like a bedsheet being pushed up. The northern part of the Moraga, in contrast, is a syncline or downfold. All three previous localities are on the west side of that syncline, and its axis or center is at the Wilder Road exit on Route 24.

Locality 5 is where Canyon Road cuts across a narrow ridge of Moraga lava. The roadway itself is very narrow, and I can't recommend it. Nor are the rocks exposed there especially revealing.

But if you drive a little farther and park at the Valle Vista Staging Area, it's easy to walk back along the old railroad bed, which has been turned into the Lafayette/Moraga Regional Trail. This is a much more peaceful way to see the rocks, which also include conglomerate of the Orinda Formation.

Up on the slope are the remains of several old quarries, probably borrow pits for the railroad and road builders. Investigate them carefully, if at all, and watch for rattlesnakes—not that I know they occur here, but doing so is good practice. The Moraga here is dark and cryptic, but I did find a small outcrop of the red variety and—behold—some of the same vesiculated lava we saw at locality 1.

Related

Explore: , , ,

Category: Geology

  • share this article
  • Facebook
  • Email
Andrew Alden

About the Author ()

Andrew Alden earned his geology degree at the University of New Hampshire and moved back to the Bay Area to work at the U.S. Geological Survey for six years. He has written on geology for About.com since its founding in 1997. In 2007, he started the Oakland Geology blog, which won recognition as "Best of the East Bay" from the East Bay Express in 2010. In writing about geology in the Bay Area and surroundings, he hopes to share some of the useful and pleasurable insights that geologists give us—not just facts about the deep past, but an attitude that might be called the deep present. Read his previous contributions to QUEST, a project dedicated to exploring the Science of Sustainability.
  • Dumdubya

    Wonderful and informative.