Geological and geotechnical characterization of the debris avalanche and pyroclastic deposits of Cotopaxi Volcano (Ecuador). A contribute to instability-related hazard studies

Autor: Vezzoli, L., Apuani, T., Corazzato, C., Uttini, A.

Publikováno v: In Journal of Volcanology and Geothermal Research 15 February 2017 332:51-70

Tephrochronology of the astronomically-tuned KC01B deep-sea core, Ionian Sea: insights into the explosive activity of the Central Mediterranean area during the last 200 ka

Autor: Insinga, D.D., Tamburrino, S., Lirer, F., Vezzoli, L., Barra, M., De Lange, G.J., Tiepolo, M., Vallefuoco, M., Mazzola, S., Sprovieri, M.

Publikováno v: In Quaternary Science Reviews 1 February 2014 85:63-84

EARTH PIGMENTS OF MONTE AMIATA VOLCANO, TUSCANY 16 ARTIST'S IRON-BASED NATURAL EARTH PIGMENTS OF TUSCANY (MONTE AMIATA VOLCANO, ITALY)

Autor: Vezzoli L.[1, Principe C.[1]

Publikováno v: Earth sciences history 41 (2022): 16–36. doi:10.17704/1944-6187-41.1.16
info:cnr-pdr/source/autori:Vezzoli L.[1,2], Principe C.[1]/titolo:EARTH PIGMENTS OF MONTE AMIATA VOLCANO, TUSCANY 16 ARTIST'S IRON-BASED NATURAL EARTH PIGMENTS OF TUSCANY (MONTE AMIATA VOLCANO, ITALY)/doi:10.17704%2F1944-6187-41.1.16/rivista:Earth sciences history/anno:2022/pagina_da:16/pagina_a:36/intervallo_pagine:16–36/volume:41

Among the artist's iron-based natural earth pigments, the so-called terra di Siena (raw sienna), terra di Siena bruciata (burnt sienna) and terra d'ombra (umber) have been among the yellow-brown and reddish-brown earth pigments most widely used by It

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=cnr_________::7698c1a25b97c070241da8b044e9253c

Magmatic Sulfides from the Rincón-Portezuelo de las Ánimas Volcanic Complex, Northwest Argentina: Insights on Magma Fertility and Comparison with Mineralized Volcanic Systems

Autor: Gioncada, A., Fulignati, P., Vezzoli, L., Omarini, R., Bosh, D., Bruguier, O., Mazzuoli, R., Lopez-Azarevich, V.

The composition and fate of magmatic sulfides are some of the most critical factors invoked to play a role in the chalcophile metal fertility of arc magmas. Examination of magmatic sulfide accessory minerals in nonmineralized volcanic systems may hel

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::419b18e671b911b6ad67571e4cb2db00
https://doi.org/10.5382/sp24.07

Monte Amiata volcano (Tuscany, Italy) in the history of volcanology: 2--its role in the definition of 'ignimbrite' concepts and in the development of the 'rheoignimbrite' model of Alfred Rittmann

Autor: Principe C.[1, Vezzoli L.[1]

Publikováno v: Rendiconti lincei. Scienze fisiche e naturali 31 (2020): 539–561. doi:10.1007/s12210-020-00932-8
info:cnr-pdr/source/autori:Principe C.[1,2], Vezzoli L.[1]/titolo:Monte Amiata volcano (Tuscany, Italy) in the history of volcanology: 2--its role in the definition of "ignimbrite" concepts and in the development of the "rheoignimbrite" model of Alfred Rittmann/doi:10.1007%2Fs12210-020-00932-8/rivista:Rendiconti lincei. Scienze fisiche e naturali/anno:2020/pagina_da:539/pagina_a:561/intervallo_pagine:539–561/volume:31

The explosive eruptions that occurred between nineteenth and twentieth centuries produced a fundamental cultural impact on the development of Volcanology. Pyroclastic products and ignimbrites features start to be at the base of an international debat

Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::3f81701ceb1f2ebc6497d47354926bab