ISSN:
1573-0794
Source:
Springer Online Journal Archives 1860-2000
Topics:
Geosciences
,
Physics
Notes:
Abstract Models of the emplacement of lateral dikes from magma chambers under constant (buffered) driving pressure conditions and declining (unbuffered) driving pressure conditions indicate that the two pressure scenarios lead to distinctly different styles of dike emplacement. In the unbuffered case, the lengths and widths of laterally emplaced dikes will be severely limited and the dike lengths will be highly dependent on chamber size; this dependence suggests that average dike length can be used to infer the dimensions of the source magma reservoir. Probable examples on Earth of the unbuffered case are flanking rift zones on shield volcanoes such as the Hawaiian Kilauea East Rift Zone, in which the dikes of average widths of less than a meter extend for several km from the central part of the edifice. In contrast, emplacement of lateral dikes in the constant driving pressure (buffered) case can produce dikes which have sizes and widths which are very large, and are independent of chamber size. For relatively shallow magma chambers, buffered emplacement is expected to produce graben of relatively fixed length which are associated with eruptive fissures and long, large volume lava flows. A decline in magma supply rate and loss of pressure buffering during the later stages of such eruptions may give rise to caldera formation/collapse events. Deeper dikes are not likely to erupt but will produce surface graben of variable length. Therefore, edifices or dike swarms which show an extremely wide variation in fracture or dike lengths are likely to have been formed in buffered conditions. On Earth, the characteristics of many mafic-dike swarms suggest that they were emplaced in buffered conditions (e.g., the Mackenzie dike swarm in Canada and some dikes within the Scottish Tertiary). On Venus, the distinctive radial fractures and graben surrounding circular to oval features and edifices on many size scales and extending for hundreds to over a thousand km are candidates for dike emplacement in buffered conditions.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00572247
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