Publication Date:
2023-01-17
Description:
A noticeable increase in volcanic outgassing occurred at Vulcano, Italy, in 2021. Although the volcano has not achieved critical conditions to produce an eruption, the soil CO2 emissions have prevented access into some zones of the island, due to the volcanic risk known as the gas hazard. Specialised instruments such as fluxmeters and spectrophotometers were used to measure the soil CO2 flux and the carbon isotopes of CO2 during four soil gas surveys. To understand why the volcanic system evolved towards a period of unrest, we modelled our measurements using mass balance calculations. We find that the CO2 increase, almost ten times its baseline, was most likely due to the instability of a magmatic body within the mantle to crustal boundary known as the Moho discontinuity. Because of this magmatic instability, the volcanic CO2 emissions resumed in some zones of the island where volcanic activity had been dormant for decades. The resumption of volcanic degassing in a short period had not been recorded before at Vulcano, and it is important to understand its cause because future changes in magmatic activity might produce larger CO2 emissions that will have the added risk of gas hazards as well as that of an explosion.
Description:
The La Fossa volcano on the Island of Vulcano, Italy, showed signs of more energetic fumarolic–solfataric activity during 2021. Several increases in volcanic gas emissions and seismicity, namely “crisis”, punctuated the passive degassing at Vulcano that had ensued after the last 1888–1890 vulcanian eruption. Most of the gases (i.e., up to 90%) were emitted at the crater cone while the diffuse degassing of CO2 at Vulcano Porto accounted for more than 10% of the volcanic emissions. Two anomalous degassing zones at the base of the volcanic cone (i.e., Palizzi and Faraglione) showed notable changes in the gas output during the volcanic crisis. In these zones, increases of soil CO2 flux (φCO2) had several practical implications other than of volcanological interest, owing to the risk related to people’s exposure to volcanic gas emissions. The results of this study reveal variations of the average φCO2 from 74 g m-2 d-1 during September 2021 to 370 g m-2 d-1 in November 2021, which were 27% and 538% higher than the statistical background since 1988 (φCO2 ≈ 58 g m-2 d-1), respectively. These observations helped in volcanic surveillance at Vulcano. The soil CO2 partitioning determined using both φCO2 and carbon isotope measurements, helped track changes in the volcanic CO2 output from 9.97 · 104 kg d-1 to 101.15 · 104 kg d-1. Estimates for volcanic CO2 suggest that the instability of a magmatic body caused a transition from background fumarolic–solfataric activity toward an unrest event after September 2021.
Description:
Published
Description:
e2022JB024516
Description:
6V. Pericolosità vulcanica e contributi alla stima del rischio
Description:
6A. Geochimica per l'ambiente e geologia medica
Description:
6SR VULCANI – Servizi e ricerca per la società
Description:
1IT. Reti di monitoraggio e sorveglianza
Description:
JCR Journal
Keywords:
Diffuse degassing
;
Soil CO2 flux
;
Carbon isotopes
;
Volcanic unrest
;
Volcanic degassing
;
Gas Hazard
;
Vulcano, isole Eolie
;
Vulcano
;
Geochemistry
;
Natural hazard
;
04.08. Volcanology
Repository Name:
Istituto Nazionale di Geofisica e Vulcanologia (INGV)
Type:
article
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