Your search keyword '"Raymond Patrick R. Maximo"' showing total 2 results

1. Carbon Dioxide in Taal Volcanic Lake: A Simple Gasometer for Volcano Monitoring

Author

Renato U. Solidum, Raymond Patrick R. Maximo, Katharine Maussen, Corentin Caudron, Raul Ryan R.R.R. Rebadulla, Ma. Antonia V. Bornas, Alain Bernard, Edgardo Villacorte, and Julien Robic

Subjects

volcanic lake, geography, SIMPLE (dark matter experiment), geography.geographical_feature_category, Taal volcano, Philippines, Geochemistry, Géochimie, carbon dioxide, volcanoes, chemistry.chemical_compound, Geophysics, chemistry, Volcano, Carbon dioxide, General Earth and Planetary Sciences, eruption forecasting, Volcanologie, Géologie, Geology

Abstract

We report here an increase in the amount of carbon dioxide in Taal lake during the year preceding the January 2020 eruption. Starting in February 2019, the CO2 emissions from the lake increased from background value (700 t day−1) to a flux close to 2,400 t day−1 at the time of the eruption. We show that the lake acts as a highly sensitive gasometer where CO2 (aq) reflects the balance between CO2 supplied to the lake (by hot springs) and CO2 lost by diffusion at air-water interface. The lake waters are extremely enriched in dissolved carbon dioxide with pCO2 values as high as 0.35 atm (350,000 ppmV) equivalent to a CO2(aq) of 9.32 mmol l−1. The residence time of CO2 in the lake is around 1 week which allows for fast detection of change in magma degassing and makes carbon dioxide a very promising tool for volcano monitoring., SCOPUS: le.j, info:eu-repo/semantics/published

Published

2020

2. Geochemical characterisation of Taal volcano-hydrothermal system and temporal evolution during continued phases of unrest (1991–2017)

Author

Alain Bernard, Edgardo Villacorte, Ma. Antonia Bornas, Katharine Maussen, Ryan R. Rebadulla, Raymond Patrick R. Maximo, and Vinciane Debaille

Subjects

event.disaster_type, Strontium, 010504 meteorology & atmospheric sciences, Trace element, Geochemistry, Géochimie, chemistry.chemical_element, Unrest, 010502 geochemistry & geophysics, 01 natural sciences, Hydrothermal circulation, Volcanic Gases, Geophysics, chemistry, Geochemistry and Petrology, Crater lake, Magma, event, Volcanologie, Dissolution, Geology, 0105 earth and related environmental sciences

Abstract

Taal volcano (Luzon Island, Philippines) has last erupted in 1977 but has known some periods of increased activity, characterised by seismic swarms, ground deformation, increased carbon dioxide flux and in some cases temperature anomalies and the opening of fissures. We studied major, trace element and sulphur and strontium isotopic composition of Taal lake waters and hot springs over a period of 25 years to investigate the geochemical evolution of Taal volcano's hydrothermal system and its response to volcanic unrest.Long-term evolution of Main Crater Lake (MCL) composition shows a slow but consistent decrease of acidity, SO4, Mg, Fe and Al concentrations and a trend from light to heavy sulphate, consistent with a general decrease of volcanic gases dissolving in the hydrothermal system. Na, K and Cl concentrations remain constant indicating a non-volcanic origin for these elements. Sulphate and strontium isotopic data suggest this neutral chloride-rich component represents input of geothermal water into Taal hydrothermal system. A significant deviation from the long-term baseline can be seen in two samples from 1995. That year, pH dropped from 2.6 to 2.2, F, Si and Fe concentrations increased and Na, K and Cl concentrations decreased. Sulphate was depleted in 34S and temperature was 4 °C above baseline level at the time of sampling. We attribute these changes to the shallow intrusion of a degassing magma body during the unrest in 1991–1994.More recent unrest periods have not caused significant changes in the geochemistry of Taal hydrothermal waters and are therefore unlikely to have been triggered by shallow magma intrusion. A more likely cause for these events is thus pressurisation of the hydrothermal reservoir by increasing degassing from a stagnant magma reservoir. Our study indicates that new magmatic intrusions that might lead to the next eruption of Taal volcano are expected to change the geochemistry of MCL in the same way as in 1994–1995, with the most notable effects being changes in temperature, pH, F and Si concentrations., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2018