SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W196204535> ?p ?o ?g. }

Showing items 1 to 100 of ±347 with 100 items per page.

W196204535 abstract "Collapse calderas are defined as the volcanic depression that result from the disruption of the geometry of the magma chamber roof due to down faulting during the course of an eruption. These structures have received considerable attention due to their link to Earths ore deposits and geothermal energy resources, but also because large pyroclastic eruptions and associated caldera collapse structures represent one of the most catastrophic geologic events that have occurred on the Earths surface in the Phanerozoic time and in the historical time.After several pioneering works, collapse calderas have been the subject of studies of diverse disciplines. However, some important aspects on caldera dynamics and structure remain poorly understood yet.First, we have revised important works concerning field data about collapse calderas and summarized the most relevant aspects and results. We have created a database to record existing information about collapse calderas: Collapse Caldera DataBase (CCDB). After an exhaustive analysis of the included information we have observed two types of collapse caldera: type-A and type-B.Experiments on caldera collapse modelling allow a qualitative study of the structural evolution of a caldera collapse process and suggest which of factors play a more relevant role. Analogue models have verified that caldera collapse formation is influenced by multiple aspects (e.g. regional tectonics). We have performed three types of semi-quantitative analyses of particular interest for volcanic hazard: the measurement of the erupted magma chamber volume fraction required to achieve each step of the collapse process, the estimation of the subsidence pattern and the study of the influence of the roof aspect ratio in the dimensions of the collapse parts at surface.This work includes also a summary of the most important aspects concerning mathematical models of collapse calderas. In base of a mathematical analysis of the pressure evolution inside the chamber during volcanic cycles, we have defined two collapse caldera end-members: under- and overpressure calderas. We have (1) reproduced numerically some of the analogue experiments set out in this work; (2) studied the influence of the selected geometrical setting (e.g. axial symmetric or three-dimensional) in the obtained results and subsequent interpretations and (3) demonstrated that results obtained with mathematical models not strictly related to collapse caldera processes are also applicable to the study of collapse mechanisms and controlling factors.Finally, we compare the different results obtained by the three distinct disciplines, in order to propose a genetic classification for collapse calderas and to describe the dynamic and structural evolution of the defined end-members. We distinguish between Cordilleran type and Composite volcano type calderas. Calderas related to the first group correspond to commonly rhyolitic or dacitic, large plate/piston or trap-door calderas formed from a sill-like overpressurized magma chamber in the presence of a regional extensive stress field and a large scale doming or underplating. These calderas tend to occur in areas of thick or thin continental crust and in evolved transitional thick crust. They are associated with C-type subduction zones and areas of continental rifting. Composite volcano type calderas occur at the culmination of a long eruptive cycle in composite volcanoes. They take place at the summit of a long-lived volcanic edifice, which has undergone various periods of magma chamber inflation and deflation and different eruptions. The caldera-forming eruption begins with overpressure inside the chamber that triggers, once overcome the tensile strength of the host rock, magma injection into the host rock and finally, an eruption. Calderas included in this group tend to be smaller and not too voluminous.Concluding, the combination of field studies with experimental and theoretical/mathematical and modelling allows us to identify and quantify the main factors controlling collapse calderas." @default.
W196204535 created "2016-06-24" @default.
W196204535 creator A5034966061 @default.
W196204535 date "2007-03-28" @default.
W196204535 modified "2023-09-28" @default.
W196204535 title "Dynamics and structural evolution of collapse calderas: A comparison between field evidence, analogue and mathematical models" @default.
W196204535 cites W1489853072 @default.
W196204535 cites W1502629830 @default.
W196204535 cites W1529426670 @default.
W196204535 cites W1558981414 @default.
W196204535 cites W1566466192 @default.
W196204535 cites W1597060145 @default.
W196204535 cites W1598861869 @default.
W196204535 cites W1646256822 @default.
W196204535 cites W176041350 @default.
W196204535 cites W1919534505 @default.
W196204535 cites W1922701939 @default.
W196204535 cites W1964279737 @default.
W196204535 cites W1964636654 @default.
W196204535 cites W1965303470 @default.
W196204535 cites W1966619099 @default.
W196204535 cites W1966775689 @default.
W196204535 cites W1966876329 @default.
W196204535 cites W1967304906 @default.
W196204535 cites W1967393548 @default.
W196204535 cites W1968875457 @default.
W196204535 cites W1968931822 @default.
W196204535 cites W1969406161 @default.
W196204535 cites W1969867157 @default.
W196204535 cites W1969916285 @default.
W196204535 cites W1972629758 @default.
W196204535 cites W1972828185 @default.
W196204535 cites W1973822041 @default.
W196204535 cites W1974291054 @default.
W196204535 cites W1974412895 @default.
W196204535 cites W1975784752 @default.
W196204535 cites W1975967158 @default.
W196204535 cites W1976867784 @default.
W196204535 cites W1977942186 @default.
W196204535 cites W1978131728 @default.
W196204535 cites W1978505296 @default.
W196204535 cites W1978923830 @default.
W196204535 cites W1979169710 @default.
W196204535 cites W1979397668 @default.
W196204535 cites W1980201701 @default.
W196204535 cites W1980859567 @default.
W196204535 cites W1981040249 @default.
W196204535 cites W1981253404 @default.
W196204535 cites W1981393972 @default.
W196204535 cites W1981803171 @default.
W196204535 cites W1982846260 @default.
W196204535 cites W1983954259 @default.
W196204535 cites W1984011058 @default.
W196204535 cites W1984768685 @default.
W196204535 cites W1984991388 @default.
W196204535 cites W1985496886 @default.
W196204535 cites W1985521758 @default.
W196204535 cites W1987867051 @default.
W196204535 cites W1989126389 @default.
W196204535 cites W1989189631 @default.
W196204535 cites W1989196278 @default.
W196204535 cites W1989395484 @default.
W196204535 cites W1990379203 @default.
W196204535 cites W1990690341 @default.
W196204535 cites W1990954231 @default.
W196204535 cites W1991410913 @default.
W196204535 cites W1992549768 @default.
W196204535 cites W1992801003 @default.
W196204535 cites W1993517014 @default.
W196204535 cites W1994188938 @default.
W196204535 cites W1995640473 @default.
W196204535 cites W1995706172 @default.
W196204535 cites W1995809323 @default.
W196204535 cites W1996128541 @default.
W196204535 cites W1996684010 @default.
W196204535 cites W1997836305 @default.
W196204535 cites W1997840576 @default.
W196204535 cites W1998304741 @default.
W196204535 cites W1998325096 @default.
W196204535 cites W1998727454 @default.
W196204535 cites W2000574213 @default.
W196204535 cites W2000602726 @default.
W196204535 cites W2001193467 @default.
W196204535 cites W2001548637 @default.
W196204535 cites W2001754765 @default.
W196204535 cites W2001978862 @default.
W196204535 cites W2003782168 @default.
W196204535 cites W2003812814 @default.
W196204535 cites W2005249807 @default.
W196204535 cites W2007243168 @default.
W196204535 cites W2008602349 @default.
W196204535 cites W2008623139 @default.
W196204535 cites W2011697612 @default.
W196204535 cites W2011746009 @default.
W196204535 cites W2012386939 @default.
W196204535 cites W2013635417 @default.
W196204535 cites W2013743723 @default.
W196204535 cites W2014024368 @default.
W196204535 cites W2014333968 @default.
W196204535 cites W2014386275 @default.