Nevado Firura
Description
Two domes form the Firura volcano, which has a low relief of 500 metres (1,600 ft) and grew on top of older ignimbrites. Lava flows and stratovolcanoes form a 10–12 kilometres (6.2–7.5 mi) long field. Aside from the main summit Firura, there also are Soncco Orcco (5,191 metres (17,031 ft)), Jahsaya (5,144 metres (16,877 ft)) and separating Firura from Solimana Antapuna (4,852 metres (15,919 ft)). The complex has generated basaltic or basaltic andesite lava flows that reach down into inhabited areas, as well as an ignimbrite resulting from the collapse of the ancient crater. A collapse of the crater was also responsible for the formation of a landslide dam in the Cotahuasi River valley. The date of the last volcanic activity is Pleistocene to Holocene, but it does not appear to be a significant hazard and is classified as a very low-risk volcano.
Much of the southern side of the volcano above 5,300 metres (17,400 ft) altitude is covered with perennial snow. A small glacier (>0.5 square kilometres (0.19 sq mi)) is found on the southern summit of Firura and reaches down to 5,255 metres (17,241 ft). This glacier appears to be located above the local equilibrium line altitude.
Firura has well preserved moraine systems. A major moraine system with a relief of 80–100 metres (260–330 ft) was left by the Last Glacial Maximum, although expansion of glaciers on the northern flank was constrained on a high plateau. The prevalent aridity of the climate impedes the degradation of these moraines.
References
- ^ Bromley, Gordon R.M.; Hall, Brenda L.; Rademaker, Kurt M.; Todd, Claire E.; Racovteanu, Adina E. (March 2011). "Late Pleistocene snowline fluctuations at Nevado Coropuna (15°S), southern Peruvian Andes". Journal of Quaternary Science. 26 (3): 305–317. doi:10.1002/jqs.1455. hdl:10379/14782.
- ^ Thouret, J.-C.; Wörner, G.; Gunnell, Y.; Singer, B.; Zhang, X.; Souriot, T. (November 2007). "Geochronologic and stratigraphic constraints on canyon incision and Miocene uplift of the Central Andes in Peru". Earth and Planetary Science Letters. 263 (3–4): 151–166. doi:10.1016/j.epsl.2007.07.023.
- ^ Rademaker, Kurt; Glascock, Michael D.; Reid, David A.; Zuñiga, Ermitaño; Bromley, Gordon R.M. (May 2022). "Comprehensive mapping and compositional analysis of the Alca obsidian source, Peru". Quaternary International. 619: 67. doi:10.1016/j.quaint.2021.11.029.
- ^ de Silva, SL; Francis, PW (March 1990). "Potentially active volcanoes of Peru-Observations using Landsat Thematic Mapper and Space Shuttle imagery". Bulletin of Volcanology. 52 (4): 286–301. doi:10.1007/BF00304100. S2CID 140559785.
- ^ Gómez, Juan Carlos; Siebe, Claus; Sánchez-Nuñez, Juan Manuel; Arce, José Luis; Macías, José Luis. "Caracterizacion geologica de los depositos de avala ncha de escombros en Chuquibamba y Cotahuasi, region Arequipa" (PDF). biblioserver.sernageomin (in Spanish). SERNAGEOMIN. Archived from the original (PDF) on 29 February 2016. Retrieved 29 February 2016.
- ^ "Nevados Firura". Global Volcanism Program. Smithsonian Institution. 29 February 2016.
- ^ Calderón, Julio Lara; Avalos, Juan Gómez; Nuñez, Juan Sánchez; Girón, Ricardo Saucedo (24 December 2017). "Avalanchas de escombros en el complejo volcánico Sillapaca: una herramienta para la gestión sostenible del territorio". Espacio y Desarrollo (30): 197. ISSN 1016-9148.
- ^ Taipe, E.; Cueva, K.; Apaza, F.; Miranda, R.; Masías, P.; Aguilar, R.; Manrique, N.; Valdivia, D. (2021). Actualización del ranking de riesgo relativo de los volcanes peruanos. Congreso Peruano de Geología, 20 (in Spanish). Lima: Sociedad Geológica del Perú. p. 649.