Growth and thermal maturation of the Toba magma reservoir
The Toba volcanic system in Indonesia has produced two of the largest eruptions (>2,000 km(3) dense-rock equivalent DRE] each) on Earth since the Quaternary. U-Pb crystallization ages of zircon span a period of similar to 600 ky before each eruptive event, and in the run-up to each eruption, the...
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2021
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my.um.eprints.344462022-05-25T02:41:51Z http://eprints.um.edu.my/34446/ Growth and thermal maturation of the Toba magma reservoir Liu, Ping-Ping Caricchi, Luca Chung, Sun-Lin Li, Xian-Hua Li, Qiu-Li Zhou, Mei-Fu Lai, Yu-Ming Ghani, Azman A. Sihotang, Theodora Sheldrake, Tom E. Simpson, Guy Q Science (General) T Technology (General) The Toba volcanic system in Indonesia has produced two of the largest eruptions (>2,000 km(3) dense-rock equivalent DRE] each) on Earth since the Quaternary. U-Pb crystallization ages of zircon span a period of similar to 600 ky before each eruptive event, and in the run-up to each eruption, the mean and variance of the zircons' U content decrease. To quantify the process of accumulation of eruptible magma underneath the Toba caldera, we integrated these observations with thermal and geochemical modeling. We show that caldera-forming eruptions at Toba are the result of progressive thermal maturation of the upper crustal magma reservoir, which grows and chemically homogenizes, by sustained magma influx at average volumetric rates between 0.008 and 0.01 km(3)/y over the past 2.2 My. Protracted thermal pulses related to magma-recharge events prime the system for eruption without necessarily requiring an increased magma-recharge rate before the two supereruptions. If the rate of magma input was maintained since the last supereruption of Toba at 75 ka, eruptible magma is currently accumulating at a minimum rate of similar to 4.2 km(3) per millennium, and the current estimate of the total volume of potentially eruptible magma available today is a minimum of similar to 315 km(3). Our approach to evaluate magma flux and the rate of eruptible magma accumulation is applicable to other volcanic systems capable of producing supereruptions and thereby could help in assessing the potential of active volcanic systems to feed supereruptions. Natl Acad Sciences 2021-11-09 Article PeerReviewed Liu, Ping-Ping and Caricchi, Luca and Chung, Sun-Lin and Li, Xian-Hua and Li, Qiu-Li and Zhou, Mei-Fu and Lai, Yu-Ming and Ghani, Azman A. and Sihotang, Theodora and Sheldrake, Tom E. and Simpson, Guy (2021) Growth and thermal maturation of the Toba magma reservoir. Proceedings of the National Academy of Sciences of the United States of America, 118 (45). ISSN 0027-8424, DOI https://doi.org/10.1073/pnas.2101695118 <https://doi.org/10.1073/pnas.2101695118>. 10.1073/pnas.2101695118 |
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Q Science (General) T Technology (General) Liu, Ping-Ping Caricchi, Luca Chung, Sun-Lin Li, Xian-Hua Li, Qiu-Li Zhou, Mei-Fu Lai, Yu-Ming Ghani, Azman A. Sihotang, Theodora Sheldrake, Tom E. Simpson, Guy Growth and thermal maturation of the Toba magma reservoir |
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The Toba volcanic system in Indonesia has produced two of the largest eruptions (>2,000 km(3) dense-rock equivalent DRE] each) on Earth since the Quaternary. U-Pb crystallization ages of zircon span a period of similar to 600 ky before each eruptive event, and in the run-up to each eruption, the mean and variance of the zircons' U content decrease. To quantify the process of accumulation of eruptible magma underneath the Toba caldera, we integrated these observations with thermal and geochemical modeling. We show that caldera-forming eruptions at Toba are the result of progressive thermal maturation of the upper crustal magma reservoir, which grows and chemically homogenizes, by sustained magma influx at average volumetric rates between 0.008 and 0.01 km(3)/y over the past 2.2 My. Protracted thermal pulses related to magma-recharge events prime the system for eruption without necessarily requiring an increased magma-recharge rate before the two supereruptions. If the rate of magma input was maintained since the last supereruption of Toba at 75 ka, eruptible magma is currently accumulating at a minimum rate of similar to 4.2 km(3) per millennium, and the current estimate of the total volume of potentially eruptible magma available today is a minimum of similar to 315 km(3). Our approach to evaluate magma flux and the rate of eruptible magma accumulation is applicable to other volcanic systems capable of producing supereruptions and thereby could help in assessing the potential of active volcanic systems to feed supereruptions. |
| format |
Article |
| author |
Liu, Ping-Ping Caricchi, Luca Chung, Sun-Lin Li, Xian-Hua Li, Qiu-Li Zhou, Mei-Fu Lai, Yu-Ming Ghani, Azman A. Sihotang, Theodora Sheldrake, Tom E. Simpson, Guy |
| author_facet |
Liu, Ping-Ping Caricchi, Luca Chung, Sun-Lin Li, Xian-Hua Li, Qiu-Li Zhou, Mei-Fu Lai, Yu-Ming Ghani, Azman A. Sihotang, Theodora Sheldrake, Tom E. Simpson, Guy |
| author_sort |
Liu, Ping-Ping |
| title |
Growth and thermal maturation of the Toba magma reservoir |
| title_short |
Growth and thermal maturation of the Toba magma reservoir |
| title_full |
Growth and thermal maturation of the Toba magma reservoir |
| title_fullStr |
Growth and thermal maturation of the Toba magma reservoir |
| title_full_unstemmed |
Growth and thermal maturation of the Toba magma reservoir |
| title_sort |
growth and thermal maturation of the toba magma reservoir |
| publisher |
Natl Acad Sciences |
| publishDate |
2021 |
| url |
http://eprints.um.edu.my/34446/ |
| _version_ |
1735409607396818944 |
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13.160551 |