The Volcanic Geology of the Mid-arc Island of Dominica, Lesser Antilles
Author | : Alan L. Smith |
Publisher | : |
Total Pages | : 249 |
Release | : 2013 |
ISBN-10 | : OCLC:861754007 |
ISBN-13 | : |
Rating | : 4/5 (07 Downloads) |
Download or read book The Volcanic Geology of the Mid-arc Island of Dominica, Lesser Antilles written by Alan L. Smith and published by . This book was released on 2013 with total page 249 pages. Available in PDF, EPUB and Kindle. Book excerpt: The geology of the island of Dominica, at the center of the Lesser Antilles island arc, has been subdivided into four stratigraphic divisions: Division 1 (upper Miocene) is dominated by mafic volcanism; Division 2 (upper Pliocene-lower Pleistocene) is characterized by the development of two large stratovolcanoes over a 2 million year period; Division 3 (lower to upper Pleistocene) represents a period of island-wide quiescence except at the north and south of the island where two new centers developed on the flanks of the older stratovolcanoes; and Division 4 (upper Pleistocene-Holocene) characterized by the formation of numerous Peléan centers throughout the island. Three of these centers also produced large-volume pumiceous deposits that resulted in the formation of two calderas (Morne Trois Pitons and Wotten Waven). During Division 1 and 2 time, basaltic magmas produced by partial melting of the mantle with only minor sediment input ponded at the crust-mantle boundary, where subsequent rise and fractionation generated distinct basic and intermediate suites. During Division 3 time, the mid-crustal magma chambers beneath the Division 2 stratovolcanoes became barriers to the rise of these basic magmas, thus generating the quiescent period. However, the continued rise of magma beneath Dominica resulted in the intrusion of numerous sills into the lower crust, eventually producing a "hot zone." Ultimately, intermediate magmas produced in this "hot zone" caused the renewed volcanism during Division 4 time that produced numerous centers dominated almost exclusively by andesites and dacites of such similar compositions that the different centers cannot be geochemically distinguished from each other. The amalgamation of individual magma chambers beneath these different centers appears to have produced a mid-crustal batholith, which resulted in the uplift of the island, the formation of a central half-graben, and the current island-wide distribution of volcanic-related phenomena.