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Mount Tambora is still active and minor lava domes and flows have been extruded on the caldera floor during the 19th and 20th centuries. [1] The last eruption was recorded in 1967. However, it was a gentle eruption with a VEI of 0, which means it was non-explosive. [24] [26] Another very small eruption was reported in 2011. [27]
The main cause of the Year Without a Summer is generally held to be a volcanic winter created by the April 1815 eruption of Mount Tambora on Sumbawa. [7] [8] [9] The eruption had a volcanic explosivity index (VEI) ranking of 7, and ejected at least 37 km 3 (8.9 cu mi) of dense-rock equivalent material into the atmosphere. [10]
Mount Tambora is a volcano on the island of Sumbawa in present-day Indonesia, then part of the Dutch East Indies, [2] and its 1815 eruption was the most powerful volcanic eruption in recorded human history. This volcanic explosivity index (VEI) 7 eruption ejected 37–45 km 3 (8.9–10.8 cubic miles) of dense-rock equivalent (DRE) material into ...
The only semi-recent example was the 1815 eruption of Mount Tambora, which led to worldwide cooling and agricultural failures and caused 1816 to become known as the "year without a summer."
The most severe eruptions on Earth in historical times took place in Indonesia. In 1815, the giant eruption of Mount Tambora, a stratovolcano, became the largest known eruption in the world during historical times, and it had such a large effect on the climate that the following year, 1816, in Europe was known as the year without summer. 40 km 3 of ash were produced as a result of the eruption ...
On the latter stands Mount Tambora (8°14’41” S, 117°59’35” E), a large stratovolcano famous for its VEI 7 eruption in 1815, one of only a few eruptions of such magnitude in the last 2,000 years. The eruption obliterated most of Tambora's summit, reducing its height by about a third and leaving a six-kilometer-wide caldera. Regardless ...
The temperature changes were possibly greater than the effects of the 1815 eruption of Mount Tambora. [72] Mazama's climactic eruption produced stratospheric mass loadings of 97,000,000 to 247,000,000 short tons (88 to 224 Mt) of sulfuric acid, with an estimated minimum sulfate degassing of 102,400,000 short tons (92.9 Mt) during its eruption. [73]
JPMorgan has begun legal proceedings against customers who allegedly stole hundreds of thousands of dollars during a technical malfunction in the bank's ATM systems.. The so-called "infinite money ...