Volcanic Activity in Oregon (past and present)

 

Oregon and the Pacific NW has experience all types of volcanic activity from very explosive to very effusive.  This activity extends from approximately 50 million years before present (mybp) to present.  Some of the volcanic areas in the state of Oregon are

 

        Area                                                                                             Silcic                  Basaltic

        John Day                                                                                      x

        Steens Mountain and Harney Basin                                               x                        x

        Newberry Volcano                                                                       x                        x

        Crater lake (Mount Mazama)                                                        x

        Cascade Mountains                                                                      x                        x

        Columbia River Basalts                                                                                           x

        Boring Lavas                                                                                                          x

        Juan De Fuca ridge                                                                                                 x

 

John Day Area

    Two main formations or groups of rocks make up this area.  John Day formation (~30 mybp) and

    the Clarno formation (~50mybp)

 

        Clarno Formation:  Related to subduction zone activity and is comprised of ash deposits,

        rhyolite and andesite.  Many of these deposits have been reworked by water and there has been

        many fossils found in this formation

 

        John Day Formation:  Represents a change in the subduction zone and the activity associated

        with that change.  Volcanic activity extends over ~18 million years and during this time a

        change in climate occurs that helps created different sediments and deposits

 

                  -Red Ash (lower deposit):  oxidized layer of ash with few fossils

                  -Green layer:  Clay rich deposit with lots of fossils

                  -Buff color (upper layer):  Ash layer that is rich is fossils

 

        Often in the John day formation, the ash was deposited by pyroclastic flows and this activity is

        associated the development of the Strawberry Mountains as well as Smith Rock

 

Columbia River Basalts (CRB's)

    These deposits represent flood basalts that erupted between 17-11 mybp. It's believed the basalt

    was erupted from fissure vents in E. OR and WA.  Finding the actual vents has been difficult due

    to later volcanic deposits covering them over.  There are many individual flows that make up the

    Columbia river basalts and they have been broken into four major groups.  On average a flow

    occurred every 35,000 years and each flow consisted of approximately 100 cubic miles of basalt. 

    Flow thickness is variable but several are ~200' thick. These deposits create many intercanyon

    flows and lots of GREAT jointing!

  

Steens Mountain:

    Part of the Basin and Range and dates to ~16 mybp

    Bi-modal volcanismà both rhyolite and basalt but NEVER AT THE SAME TIME

        -Basin and Range faulting creates extension and normal faults

        -Thinned crust lowers pressure on the mantle and creates magma

        -Magma in chamber evolves through assimilation and crystallization and evolved magma

        (rhyolite and andesite) occupies the top of the chamber and the lower chamber is occupied by

        new basalt that is intruding. They stay separate from each other due to density differences.

        -As eruption begins, the rhyolite erupts first as the original eruption then subsequent eruption

        are less evolvedà andesite, basaltic andesite and finally basalt

 

        REMEMBER:  the different types of magma are not erupted during the same event.  Different

        eruptions and different products

 

Harney Basin

    Collapsed caldera feature that occurred approximately 5mybp (very young feature).  Eruption

    created a very large ash deposit covering ~4300miles² 

 

Diamond Craters:

    Created by extension that formed the Basin and Range.  Extension of the crust caused it to thin

    which allowed magma to form.  This region began developing ~16mybp and the Basin and Range

    is still extending today.

 

Cascade Mountains

    The Cascade Mountains have been built through three distinct eruptive episodes over the past 20 million years.  The current mountains have only really existed for ~3 million years.

 

    The most recent Cascade event begun as basaltic volcanism and then evolved over time to     erupting andesite.  The early eruption of basalt for the current Cascades was created by a rift that developed approximately 5 million years ago.  The current Cascades are sitting in a grabben (think back to the discussion on the basin and range for the definition) which was created by this extension.  The shift to andesite began as magma was generated by the subduction zone and found its way to the surface.

 

    The different eruptive episodes listed below for the Cascades represent times when the subduction zone was shut down periodically or underwent a change in the angle of seduction.

 

    Cascade eruptive episodes:

        -Western Cascades (20-15mybp):  Erupted west of the current chain.  Andesites and dacites

            primarily with many of the deposits no longer visible due to later volcanism. Many ash  layers have            converted to clay creating a "slip" surface for landslides

        -Plio-cascades or Ancestral Cascades:  Developed ~7mybp and are buried under current

            Cascade mountains.  Remnants are found in the Gorge such as beacon rock and wind

            mountain

        -High Cascades: current Cascade chain.  Started developing ~3 million years ago and began

            eruption andesite ~ 1 million years ago. 

 

Currently:  South sister has a bulge on the East Flank that continues to grow.  Not noticeable to the unaided eye but can be seen using remote sensing (SAR) technology.  Rate of inflation ~4 cm/year

 

Newberry Volcano

    A very young shield volcano with the most recent eruption occurring ~1300 years ago.

    Bimodal volcanism with the majority of the basaltic volcanism now concentrated on the flanks of

    the shield and the summit eruption rhyolite and obsidian (this is the most recent eruption). 

 

Crater Lake (Mt. Mazama)

    Most recent eruption (extremely large) occurred ~7000 years ago.  Created a collapse of the

    central vent creating a caldera on the summit. Primarily rhyolite composition though a small

    cinder cone forms wizard island.  This was believed to be created by the same type of magma

    chamber layering that occurred in the Steens mountain region

 

Fort Rock, Big Hole, Hole in the Ground

    These three features are all phreatic eruption features created when a lake or ground water came

    in contact with magma.  These features date to approximately 15,000 years ago.  At this time a

    small ice age was on going and this area was very wet with many lakes.  Each of these locations

    have tuff rings created by the eruption.

 

Boring Lavas

    This episode of volcanism got its name from Boring OR which is the Eastern most edge of this

    series of volcanoes.  The Boring lavas consist of several cinder cones and shield volcanoes

    (Larch Mountain) which get younger with age as you move to the southwest.  The furthest south

    they extend is between Woodburn and Salem.  The time period for these eruptions was between

    1-4 mybp.