Trace fossils from arenig flysch sediments of eire and their bearing on the early colonisation of the deep seas |
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| Authors: | T. R Crimes J. F. Garcia Hidalgo D. G. Poire |
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| Affiliation: | 1. Department of Earth Sciences , University of Liverpool , Liverpool, L69 3BX, England;2. Departmento Estratigrafia, Instituto Geologia Economica, Facultad Ciencias Geologicas , Universidad Complutense , Madrid, 28040, Spain;3. Centro des Investigaciones Geologicas , CONICET , 6–644, La Plata, 1900, Argentina |
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| Abstract: | A sequence of Lower Ordovician (Arenig) turbidites in Co. Wexford, Eire, has yielded one of the earliest diverse ichnofaunas yet recorded from deep water sediments comprising: Chondrites, Glockerichnus, Gordia, Helminthopsis, Lorenzinia, Neonereites, Palaeophycus, Paleodictyon, Planolites, Sublorenzinia, Taenidium, Taphrhelminthopsis, Teichichnus and Tomaculum. This ichnofauna is critical in any analysis of the colonisation of the deep seas by trace fossil‐producing animals. A world‐wide review shows that the earliest trace fossils are mainly from Late Precambrian shelf sea environments, but many more evolved during very rapid diversification in the pre‐trilobite Lower Cambrian. There was little increase in diversity in shallow water after the Lower Cambrian but a progressive colonisation of the deep ocean took place and this accelerated during the Ordovician, when the main lineages of deep sea trace fossils were established there. Rosetted, patterned, meandering and simple spiral forms evolved in shallow water in the Upper Precambrian and pre‐trilobite Lower Cambrian and only later migrated into the deep sea, whereas complex, closely programmed, spiral traces may have evolved there. |
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| Keywords: | Arenig diversity Eire trace fossils |
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