San Martin Tuxtla

From Wikipedia the free encyclopedia

San Martin Tuxtla
Highest point
Elevation1,650 m (5,410 ft)
Coordinates18°34′0″N 95°12′0″W / 18.56667°N 95.20000°W / 18.56667; -95.20000
Geography
San Martin Tuxtla is located in Mexico
San Martin Tuxtla
San Martin Tuxtla
Geology
Mountain typeShield Volcano
Last eruption1794 to 1796

The isolated San Martin Tuxtla volcano is a shield volcano which rises above the Gulf of Mexico. It has had eruptions in historical times. It occurs in the Tuxtla volcanic field in Veracruz, Mexico. Lavas from San Martin vary between basanite and alkali basalt.[1] Locally the volcano is also known as Tiltépetl (Black Mountain in the Nahuatl language).

Morphology

[edit]

San Martin forms a broad shield volcano, it rises to a height of 1680 m and is capped by a 1 km wide summit crater which is 150 m in depth. The crater contains two pyroclastic cones that were the source of the large 1793 eruption. The flanks of the volcano are dotted with 250 pyroclastic cones and maars, some of which have been active in historical times. The volcano is currently densely forested.[2]

Eruptions

[edit]

1664 eruption: A large VEI 3 eruption occurred from the southeast flank. This led to an evacuation.[3]

1793 eruption: A large VEI 4 eruption came from two pyroclastic cones in the summit, it produced widespread ashfall and lava flows that ran down the northeast flank.[3]

1794-1796 eruption: A small VEI 2 eruption that continued for two years started in May, 1794.[3]

References

[edit]
  1. ^ Nelson, Stephen A. and Gonzalez-Caver, Erika; Geology and K-Ar dating of the Tuxtla Volcanic Field, Veracruz, Mexico, Bulletin of Volcanology, Volume 55, Issue 1-2, pp. 85-96
  2. ^ "San Martín". Global Volcanism Program. Smithsonian Institution. Retrieved 2021-06-27.
  3. ^ a b c "San Martín: Eruptive history". Global Volcanism Program. Smithsonian Institution. Retrieved 2021-06-27.
  • Kobs Nawotniak, S. E., J, Espindola and L. Godinez, Spatio-temporal evolution of the Tuxtla Volcanic Field, Journal of Volcanology and Geothermal Research, Volume 197, Issues 1–4, 30 November 2010, Pages 188–208 Abstract
  • Volcanolive
[edit]