High-resolution chemostratigraphy of Quaternary distal turbidites: a case study of new methods for the analysis and correlation of barren sequences

doi:10.1144/GSL.SP.1995.089.01.07

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Geological Society, London, Special Publications

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Geological Society, London, Special Publications; 1995; v. 89; p. 107-143;
DOI: 10.1144/GSL.SP.1995.089.01.07
© 1995 Geological Society of London

High-resolution chemostratigraphy of Quaternary distal turbidites: a case study of new methods for the analysis and correlation of barren sequences

Timothy J. Pearce¹ & Ian Jarvis²

¹ Chemostrat Consultants, 20 Maer-yr-Eglwys, Llansantffraid-ym-Mechain, Powys, SY22 6BE, UK
² School of Geological Sciences, Kingston University, Penrhyn Road, Kingston upon Thames, Surrey, KT2 1EE, UK

The late Quaternary distal turbidites of the NE Atlantic MadeiraAbyssal Plain (MAP), represent one of the most intensely studiedsequences in the modern deep ocean. More than 160 sediment coreshave been recovered from the 68 x 10³km² of the plain, and existinglitho- and biostratigraphies, when integrated with oxygen stable-isotopedata for other areas of the NE Atlantic, provide a tight spatialand temporal framework. We have used the MAP as a test-bed toassess the applications of inorganic geochemistry as a sedimentologicaland stratigraphic tool. Data for 22 major and trace elementswere obtained in over 500 samples taken from representativecores. Chemostratigraphic sequences are highly uniform acrossthe plain, and several turbidites have unique geochemical signatures,providing a means of establishing bed-by-bed correlations overdistances of > 500 km. Cluster and principal component analysisconfirm the statistical validity of empirically derived correlationsand groupings. Vertical and lateral geochemical trends withinbeds document the sedimentological evolution of flows, and maybe used to establish palaeotransport pathways. Four compositionalgroups are interpreted as representing derivations from differentsource areas: (1) the margins of the NW Africa off Morocco;(2) off Western Sahara; (3) the Canary Islands; (4) the Cruiser-GreatMeteor East seamount chains. The study amply demonstrates theviability of chemostratigraphy for the correlation and analysisof sedimentary sequences, providing a stratigraphic resolutionand reliability which matches or exceeds that obtainable byother techniques.

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