Misti is a geologically young volcano that developed in four stages (commonly labelled Misti 1–4); a pre-Misti volcano may have formed the southwestern debris avalanche. Older volcanic structures lie mainly in the western sector of Misti. On average, sub-
Plinian eruptions take place every 2,000–4,000 years, while ash fallout occurs every 500–1,500 years and large
ignimbrite-producing eruptions every 10,000–20,000 years. Rock formations showing the
stratigraphy of Misti are found mainly in the ravines on the southern side and the Rio Chili gorge; only a few eruptions have been thoroughly investigated.
Seismic tomography has identified solidified buried magma bodies from the early stages of volcanism. Long andesitic lava flows and ignimbrites, which reach a thickness of more than , form the oldest part of the volcano. They have an age of 833,000 years, but it is not clear whether the ignimbrites and lava flows should be considered part of "Misti 1" or of a pre-Misti volcano. Sometimes, they are considered the first stage of Misti activity, with all the subsequent activity making up the second stage. After the collapse that formed the south-southwestern debris avalanche deposit, the present stratovolcano began to grow 112,000 years ago. During the following 42,000 years, lava flows and lava domes built a mountain with an elevation of in the southern and eastern sectors of present-day Misti. During the subsequent 20,000 years, repeated collapses of lava domes deposited blocks, fallout deposits and
scoria on the southern side of Misti and on Chachani to the northwest. Between 50,000 and 40,000 years ago, the summit of Misti collapsed one or more times above elevation, forming a x caldera. Intense
pyroclastic eruptions yielded ignimbrites with volumes of , which cover an area of on the southern side of Misti. This activity brought "Misti 2" to an end; lava domes built "Misti 3" to an elevation of , almost entirely erasing the caldera. Between 36,000 and 20,000 years ago, collapses of lava domes produced numerous
block-and-ash flows of dacitic to andesitic composition, which reach thicknesses of several tens of metres on the southern side of Misti. The activity between 50,000 and 20,000 years ago has been christened "Cayma stage", and several eruption deposits from this time have been named: • The 44,900–38,700 or 34,000–33,000 year old "Fibroso I", also known as "Cogollo". • The 43,200–38,300 year old "Anchi". • The 38,500–32,400 year old "Sacarosa", "Sacaroso" or "Sacaroide". This eruption produced two layers of
pumice from a high
eruption column. The total volume of tephra is about , equivalent to a
volcanic explosivity index of 4 or 5. It was a two-stage event, with a change of magma dynamics or intensity occurring during the eruption. • The 37,100–30,500 year old "Conchito" or "Fibroso II". • The 30,300–28,800 year old "Chuma". Several additional eruptions took place between the "Conchito" and "Chuma" events. • The 15,000-years-old "Autopista". This eruption produced three layers composed mostly of pumice with smaller quantities of
lithics. During its eruption about of volcanic ash fell west of the volcano. The "Autopista" eruption with a volcanic explosivity index of 4 produced about of tephra; a similar eruption today would cover parts of Arequipa with of pumice. The "Autopista" deposit is the best preserved of the late Pleistocene tephra layers. • Deposits of eruptions after "Autopista" have been named according to two schemes: One spans the Pleistocene and Holocene and lists "Blanco", "La Zebra", "Espuma gris", "Espuma iridiscente" and "Rosado", the other includes tephra layers up to the eruption 2,000 years ago and lists "Ponche Iridescente", "Ponche Gris", "Sandwich Inferior", "Sandwich Superior", "Sancayo", "La Rosada", "Apo" and "Misquirichi". Sometimes a "Duende" is identified between "Apo" and "Misquirichi". These naming schemes have been developed on deposits of the southwestern flank; other schemes have been formulated for deposits on the other flanks. Eruptions 43,000 and 14,000 years ago
dammed the Rio Socabaya and Rio Chili, forming temporary lakes south and north of the volcano that were later affected by earthquakes. Between 24,000 and 12,000 years ago, ice fields formed on Chachani and Misti during the last glacial maximum; tephra fell on ice and was reworked by meltwater. Several eruptions 34,000–31,000, 13,700 and 11,300 years ago produced
pyroclastic surges that extended away from the volcano; a wide caldera formed at an elevation of .
Holocene More than 10 eruptions took place during the last 11,000 years, with only brief pauses in activity. The activity between 21,000 and 2,000 years ago is known as the "Pacheco" stage. Holocene activity filled the younger caldera with scoria and lava flows, forming the "Misti 4" volcanic structure with the nested summit craters. Tephra forms thick deposits around the volcano, and pyroclastic surges reached distances of many kilometres more than 6,400 and 5,200 years ago. The 9,000‑ and 8,500‑year‑old eruptions produced the "Sándwich" deposits. These deposits extend for more than on Misti’s southwestern flank and produced ash fall as far as the Pacific Ocean and Lake Titicaca.
Radiocarbon dating has identified eruptions 8,140, 6,390, 5,200, 4,750, 3,800 and 2,050 years ago; the 3,800 eruption deposited fallout on
Nevado Mismi more than northwest of Misti. The
Global Volcanism Program lists eruptions in 310
BCE ± 100 years, 2230 BCE ± 200 years, 3510 BCE ± 150 years, 4020 BCE ± 200 years, 5390 BCE ± 75 years and 7190 BCE ± 150 years.
Eruption 2,000 years ago and later activity , which resembled the Misti eruption 2,000 years ago in terms of size|alt=Columns of smoke-like exhalations rise above a mountain|upright=1.3 The last major
explosive eruption took place about 2,000 years ago in one or multiple events. The best-constrained date range is 2,060–1,920 years
before present; some estimates around 2,300 BP are considered too old. It produced about of rock and probably lasted a few hours. The event had a volcanic explosivity index of 4 or 5. The eruption was probably triggered when fresh andesitic magma entered a pre-existent rhyolitic body. Magma rose through the volcano and expelled rocks that were awash of the hydrothermal system, causing initial
phreatic eruptions.
Tephra rained down around the mountain, with pumice falling from the volcano. Owing to magma mixing, the pumice deposits have an appearance resembling chocolate and vanilla swirls. Eventually, the conduit fully cleared and a high eruption column rose above the volcano.
Pyroclastic flows emanated from the column and descended the southern flanks of the volcano, possibly through the gap in the crater rim. During the course of the eruption, collapses of the crater and conduit walls caused a temporary decline in the intensity of the column. The eruption column periodically collapsed and reformed, until the eruption ended with
phreatomagmatic explosions. Mudflows descended the mountain, although their importance relative to the pyroclastic flows is contentious. The water source for the mudflows is unclear. The eruption occurred during the
neoglacial (about 2,500–1,000 years ago), when Misti may have supported seasonal snow or ice; its melting would have given rise to mudflows. Rainfall generated further mudflows after the eruption. The outer summit crater probably formed during this eruption. Tephra layers in the Sallalli and (in this case with less certainty) Mucurca
peat bogs close to Sabancaya, and (tentatively) in an
ice core in the
Antarctic Plateau in
Antarctica, are attributed to this eruption. The 2,000 years eruption is the only Plinian eruption during the Holocene at Misti. After the eruption 2,000 years ago, activity was limited to small
Vulcanian eruptions, mudflows and tephra fallout, including scoria and volcanic ash. Dating has yielded ages of 330, 340, 520, 620, 1035 and 1,300 years before present for several such events. Pyroclastic flows and ash falls were emplaced 1,290 ± 100 and 620 ± 50 years ago. Mudflows—not all associated with eruptions—took place 1,035 ± 45, 520 ± 25, 340 ± 40 and 330 ± 60 years ago and left thick deposits.
Historical activity and seismicity The last eruption took place in AD 1440–1470 and produced about of ash. It was probably a prolonged eruption that lasted for months or years, depositing ash in the Peruvian
Laguna Salinas and possibly as far as
Siple Dome and
Law Dome in Antarctica. It is the oldest eruption of a South American volcano for which historical records exist. The eruption was severe enough that Mama Ana Huarque Coya, the wife of the
Inca emperor Pachacutec, came to
Chiguata to provide assistance. There is no evidence that an Inca settlement was destroyed by this eruption, but the local population fled and the Inca had to resettle the area. Along with other volcanic eruptions around that time and the beginning
Spörer solar minimum, the AD 1440–1470 eruption of Misti may have affected global climate conditions. In 1600, the volcano was covered by ash from Huaynaputina. Most sources state that there is no clear evidence of eruptions after the arrival of the
Spaniards, while the Global Volcanism Program reports a last eruption in 1985 and
INGEMMET says it is the third-most active volcano of Peru. Mudflows descended the southern valleys until the 17th century. The mountain is sometimes reported to be "smoking" at its summit, including
water vapour clouds. Phreatic eruptions may have taken place in 1577, 2 May 1677, 9 July 1784, 28 July 1787 and 10 October 1787. Questionable eruptions are recorded in 1542, 1599, 1826, 1830, 1831, 1869, and 1870. They probably constitute fumarolic activity and often happened after heavy precipitation; the water would have infiltrated the mountain and evaporated from the volcanic heat. There is no record of the structure of the summit craters changing in historical records, implying that the craters and volcanic plug were emplaced in prehistoric times. Comparisons between 1967 photos of the volcanic plug and more recent images show no changes. The volcano is seismically active, with long-period earthquakes, tremors, "tornillos" and
volcano tectonic earthquakes recorded. The
hypocentres, the actual sites of the earthquakes, are found within the volcanic structure of Misti and cluster on the northwest flank of the volcano. The seismic activity appears to be linked to Misti's hydrothermal system.
Seismic swarms were recorded in August 2012 and in May and June 2014. No deformation of the volcano is evident in satellite images. Clouds rising from the mountain are sometimes mistaken for renewed activity. == Hazards ==