Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10553/111877
Título: Analysis of volcanic thermohaline fluctuations of tagoro submarine volcano (El Hierro Island, canary islands, Spain)
Autores/as: Olivé Abelló, Anna
Vinha, Beatriz
Machín, Francisco 
Zerbetto, Francesco
Bakalis, Evangelos
Fraile Nuez, Eugenio 
Clasificación UNESCO: 251007 Oceanografía física
Palabras clave: Generalised Moments Method
Stochastic Processes
Tagoro Submarine Volcano
Time Series
Volcanic Activity
Fecha de publicación: 2021
Proyectos: VULCANO-II (CTM2014-51837-R)
VULCANA-I (IEO-2015-2017)
Publicación seriada: Geosciences (Switzerland) 
Resumen: Temperature and conductivity fluctuations caused by the hydrothermal emissions released during the degasification stage of the Tagoro submarine volcano (Canary Islands, Spain) have been analysed as a robust proxy for characterising and forecasting the activity of the system. A total of 21 conductivity-temperature-depth time series were gathered on a regular high-resolution grid over the main crater of Tagoro volcano. Temperature and conductivity time series, as manifestations of stochastic events, were investigated in terms of variance and analysed by the Generalised Moments Method (GMM). GMM provides the statistical moments, the structure functions of a process whose shape is an indicator of the underlying stochastic mechanisms and the state of activity of the submarine volcano. Our findings confirm an active hydrothermal process in the submarine volcano with a sub-normal behaviour resulting from anti-persistent fluctuations in time. Its hydrothermal emissions are classified as multifractal processes whose structure functions present a crossover between two time scales. In the shorter time scale, findings point to the multiplicative action of two random processes, hydrothermal vents, which carries those fluctuations driving the circulation over the crater, and the overlying aquatic environment. Given that both temperature and conductivity fluctuations are nonstationary, Tagoro submarine volcano can be characterised as an open system exchanging energy to its surroundings.
URI: http://hdl.handle.net/10553/111877
ISSN: 2076-3263
DOI: 10.3390/geosciences11090374
Fuente: Geosciences (Switzerland) [EISSN 2076-3263], v. 11 (9), 374, (Septiembre 2021)
Colección:Artículos
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