Pyroclastic Rocks: Explosive Volcanism

Mount St Helens

Pyroclasts

By TypeJuvenile fragments – samples of quenched glassy/devitrified magma, Crystals – phenocrysts from the magmaLithic fragments – clasts of pre-existing rock, from the walls of the conduit.

By Sizeblocks or bombs (>64 mm), lapilli (64-2mm)ash (>2mm).

Juvenile Pyroclasts

Breadcrust bomb

Juvenile Pyroclasts

Acid/intermediate/mixed - Pumice Basic/alkaline - Scoria

Often rounded by abrasion in vent

Juvenile Pyroclasts

Achneliths (glassy droplets) – (Pele’s Tears)Achneliths and scoria can “fuse” when emplaced hot to form splatter. This forms cones and ramparts.

Juvenile Pyroclasts

Juvenile Shards In a vitric tuff/ash

Juvenile Pyroclasts

Juvenile Shards

Juvenile Pyroclasts

Accretionary lapilli

Kileaua lapilli layer

Phreatomagmatic – water vapour causes grains to accrete into concentric layers.

Types of Pyroclastic Eruption

Hydrovolcanic

Eruption types are based on height of the column and the degree of fragmentation

Hawaiian Activity

Dominated by basaltic lava fountains and flows. Typical of

shield volcanoes and fissures

Types of Pyroclastic Eruption

Hydrovolcanic

Eruption types are based on height of the column and the degree of fragmentation

Strombolian Activity

Strombolian eruptions are characterized by the intermittent explosion or fountaining of basaltic lava from a single vent or

crater. Eruptions are often rhythmic explosions.

Stromboli

Strombolian Activity

Explosions caused by slugs of gas reaching the surface.

Scoria Cones

Sunset Crater, Arizona

Splatter layers with reconstituted flow

Cones can be monogeneticor polygenetic

Scoria Cones

Splatter layers with reconstituted flow

Cones can be monogeneticor polygenetic

Types of Pyroclastic Eruption

Hydrovolcanic

Eruption types are based on height of the column and the degree of fragmentation

Plinian Eruptions

Plinian (sub to ultra) eruptions result in the formation of a sustained eruption column which may exceed 50 km in height.

They are typical of intermediate and acidic magmas.

Sakurajima, 1985

Plinian Eruptions

Sakurajima, 1985

Magma droplets heat the surrounding gas. The gas + magma mixture becomes less dense than the surrounding air and rises.

Pyroclastic Deposits

Pyroclastic Deposits: Air Fall (Tephra)

Ballistic ejecta

Air Fall

Pyroclastic air fall deposits (tephra) are poorly sorted (except at large distances i.e. distal deposits)

Pyroclastic Deposits: Air Fall (Tephra)

Ballistic ejecta

Air Fall

Thickness and grainsize of air fall decrease away from vent.

Agglomerate close to vent, through lapilli to ash.

Pyroclastic Deposits: Air Fall (Tephra)

Ballistic ejecta

Air Fall

Bomb sags in bedded ash/lapilli.

Pyroclastic Deposits: Air Fall (Tephra)

Ballistic ejecta

Air Fall

Stratification due to pulsing of an eruption observed closer to the vent

Reverse grading occurs due to increasing vent diameter due to erosion

Increase in lithics

Pyroclastic Deposits: Air Fall (Tephra)

Airfall gets finer-grained away from the vent

Pyroclastic Deposits: Air Fall (Tephra)

Vent gets larger due to erosion of the walls

Velocity and Mass Flux increases

Pyroclastic Deposits: Air Fall (Tephra)

Vent gets larger due to erosion of the walls

Velocity and Mass Flux increases

Pyroclastic Deposits: Air Fall (Tephra)

Walls collapse to block vent

Finer-grained material settles out of plume

Pyroclastic Deposits: Air Fall (Tephra)

Blockage is removed

Closer to vent lithic fragments are concentrated

Pyroclastic Deposits: Air Fall (Tephra)

In more distal units layers may represent individual discrete eruptions.

Pyroclastic Deposits: Air Fall (Tephra)

Some air fall ashes can be emplaced hot and become welded (these resemble ignimbrites)

Pyroclastic Flows

• Pyroclastic flows are gravity-driven surface flows of debris which travel as a high particle density solid-gas dispersion. • They can be thought of as a slurry with gas instead of liquid water.

Pyroclastic Flows

• Emplaced hot (not usually molten).

• Restricted to topographic lows.

Pyroclastic Flows

• Emplaced hot (not usually molten).

• Restricted to topographic lows.

pumice

lithics

Pumice flows = ignimbrites

Pyroclastic Flows

ground surge

Pyroclastic Flows: Evidence for Heating

Fossil fumaroleCarbonised wood

Welded Pyroclastic Flows

Dark fiamme make up the eutaxitic texture

Pyroclastic Flows

Pyroclastic Flows

Vent erosion causes increase in mass of plume

Pyroclastic flows often found at the top of the sequence prior to eruption of lavas

Pyroclastic Deposits: Air Fall (Tephra)

Density of plume = Density of atmosphere

Pyroclastic Deposits: Air Fall (Tephra)

Density of plume = Density of atmosphere

Density of plume increases with vent widening

Pyroclastic Deposits: Air Fall (Tephra)

Density of plume = Density of atmosphere

Density of part of plume becomes greater than atmosphere

Pyroclastic Deposits: Air Fall (Tephra)

Density of plume = Density of atmosphere

Dense plume fragment falls under gravity

Pyroclastic Deposits: Air Fall (Tephra)

Density of plume = Density of atmosphere

Fragment becomes pyroclastic flow

Pyroclastic Flows

Sudden release of pressure on magma causes explosive loss of volatiles

Collapse of lava dome often produces welded ignimbrites

Pyroclastic Flows

Crater Lake, Oregon

Pyroclastic Flows

Pyroclastic Flows

Caldera collapse associated with large volume pyroclastic flows.

Pyroclastic Flows

Pyroclastic Flows

Caldera produced ignimbrites are extensive (e.g. Santorini 1470 BC, Taupo 186 AD)

Pyroclastic Surges

Base surge

Low particle density particle/gas suspension flows

Pyroclastic Surges

Base surge

Climbing dune forms

Pyroclastic Surges

Base surge

Climbing dune forms

Cross bedding

Epiclastic Deposits

Poorly consolidated volcaniclastic deposits are rapidly reworked by runoff to form epiclastics.

Flood plain

Epiclastic Deposits

Volcaniclastic deposits are often reworked to become epiclastic sediments.

Lahar Deposits

Mt St Helens, 2003Lahar deposits caused by melting of ice and snow in 1981 eruption.

Pyroclastic Rocks

Pyroclastic Rocks

Crystal Fragments

Vitric shards