Pyroclastic rock

Tephra may become lithified to a pyroclastic rock by cementation or chemical reactions as the result of the passage of hot gases (fumarolic alteration) or groundwater (e.g. hydrothermal alteration and diagenesis) and burial, or, if it is emplaced at temperatures so hot that the soft glassy pyroclasts stick together at point contacts, and deform: this is known as welding.

During Plinian eruptions, pumice and ash are formed when foaming silicic magma is fragmented in the volcanic conduit, because of rapid shear driven by decompression and the growth of microscopic bubbles.

As they travel, pyroclastic density currents deposit particles on the ground, and they entrain cold atmospheric air, which is then heated and thermally expands.

[12] These phoenix plumes typically deposit thin ashfall layers that may contain little pellets of aggregated fine ash.

[13] Hawaiian eruptions such as those at Kīlauea produce an upward-directed jet of hot droplets and clots of magma suspended in gas; this is called a lava fountain[14] or 'fire-fountain'.

USGS scientist examines pumice blocks at the edge of a pyroclastic flow from Mount St. Helens
Rocks from the Bishop Tuff , uncompressed with pumice on left; compressed with fiamme on right.
Flight through a μCT -image stack of a lapillus of the volcano Katla in Iceland . Find spot: Beach near Vik at the end of road 215. Acquisition done using "CT Alpha" by "Procon X-Ray GmbH", Garbsen, Germany. Resolution 11,2μm/ Voxel , width approx. 24 mm.
3D-Rendering of the above image stack, in parts transparent. Heavy particles in red.