Hostname: page-component-7479d7b7d-q6k6v Total loading time: 0 Render date: 2024-07-11T20:23:53.331Z Has data issue: false hasContentIssue false
  • English
  • Français

An iridium anomaly in the Ludlow Bone Bed from the Upper Silurian, England

Published online by Cambridge University Press:  01 May 2009

B. Schmitz
B. Schmitz
Affiliation:
Department of Marine Geology, Box 7064, University of Göteborg, S-402 32 Gateborg, Sweden
Get access Rights & Permissions [Opens in a new window]

Abstract

The Ludlow Bone Bed in the Upper Silurian of the Welsh Borderland shows an anomalously high concentration of iridium (0.49 ppb) compared with background (0.040 ppb Ir). Considering the overall major and trace element pattern and the mineralogy of the bone bed, it appears that the bulk of their has precipitated from sea water and is not primarily related to an asteroid impact event. A secondary relation of the Ir to such an event, however, cannot be excluded. The profound sedimentological similarity (skeletal sands and hummocky cross-stratification) between the Ir-carrying ‘storm deposit’ at the Cretaceous–Tertiary boundary at Brazos River, Texas, and the LBB and overlying sediments may indicate such a relation.

Type
Rapid Communications
Information
Geological Magazine , Volume 129 , Issue 3 , May 1992 , pp. 359 - 362
Copyright
Copyright © Cambridge University Press 1992

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Alvarez, L. W., Alvarez, W., Asaro, F. & Michel, H. V. 1980. Extraterrestrial cause for the Cretaceous-Tertiary extinction. Science 208, 1095–108.CrossRefGoogle ScholarPubMed
Antia, D. D. J. 1979. Bone-beds: A review of their classifi cation, occurrence, genesis, diagenesis, geochemistry, palaeoecology, weathering, and microbiotas. Mercian Geologist 7, 93174.Google Scholar
Antia, D. D. J. 1980. Sedimentology of the type section of the upper Silurian Ludlow–Downton Series boundary at Ludlow, Salop, England. Mercian Geologist 7, 291321.Google Scholar
Antia, D. D. J. & Whitaker, J. H. McD. 1978. A scanning electron microscope study of the genesis of the upper Silurian Ludlow Bone Bed. In Scanning Electron Microscopy in the study of sediments (ed. Whalley, W. B.), pp. 119–36. Geo Abstracts, Norwich.Google Scholar
Asaro, F., Alvarez, L. W., Alvarez, W. & Michel, H. V. 1982. Geochemical anomalies near the Eocene/Oligo cene and Permian/Triassic boundaries. Geological Society of America Special Paper 190, 517–28.CrossRefGoogle Scholar
Bassett, M. O., Lawson, J. D. & White, D. E. 1982. The Downton Series as the fourth Series of the Silurian System. Lethaia 15, 124.Google Scholar
Dyer, B. D., Lyalikova, N. N., Murray, D., Doyle, M., Kolesov, G. M. & Krumbein, W. E. 1989. Role of microorganisms in the formation of iridium anomalies. Geology 17, 1036–39.2.3.CO;2>CrossRefGoogle Scholar
Hansen, T., Farrand, R. B., Montgomery, H. A., Bill-Man, H. O. & Blechschmidt, G. 1987. Sedimentology and extinction patterns across the Cretaceous-Tertiary boundary interval in east Texas. Cretaceous Research 8, 229–52.Google Scholar
Olmez, J., Finnegan, D. L. & Zoller, 1986. Iridium emissions from Kilauea Volcano. Journal of Geophysical Research 91, 653–63.CrossRefGoogle Scholar
Orth, C. J., Quintana, L. R., Gilmore, J. S., Barrick, J. F., Haywa, J. N. & Spesshardt, S. A. 1988. Pt-metal anomalies in the lower Mississippian of southern Oklahoma. Geology 16, 627–30.Google Scholar
Orth, C. J., Attrep, M. Jr., & Quintana, L. R. 1990. Iridium abundance patterns across bio-event horizons in the fossil record. Geological Society of America Special Paper 247, 4559.Google Scholar
Playford, P. E., McLaren, D. J., Orth, C. J., Gilmore, J. S. & Goodfellow, W. D. 1984, Iridium anomaly in the Upper Devonian of the Canning Basin, Western Australia. Science 226, 437–9.CrossRefGoogle ScholarPubMed
Rocchia, R., Boclet, D., Bonté, P., Castellarin, A. & Jéhanno, C. 1986. An iridium anomaly in the Middle–Lower Jurassic of the Venetian Region, Northern Italy. Journal of Geophysical Research 91 (no. B13), E25962.Google Scholar
Schmitz, B. 1987. Barium, equatorial high productivity, and the northward wandering of the Indian continent. Paleoceanography 2, 6377.Google Scholar
Schmitz, B. 1988. Origin of microlayering in worldwide distributed Ir-rich marine Cretaceous/Tertiary boundary clays. Geology 16, 1068–72.2.3.CO;2>CrossRefGoogle Scholar
Schmitz, B., Andersson, P. & Dahl, J. 1988. Iridium, sulfur isotopes and rare earth elements in the Cret aceous-Tertiary boundary clay at Stevns Klint, Denmark. Geochimica et Cosmochimica Acta 52, 229–36.CrossRefGoogle Scholar
Schmitz, B., Asaro, F., Michel, H. V., Thierstein, H. R. & Huber, B. T. 1991 a. Element stratigraphy across the Cretaceous/Tertiary boundary in Hole 738C. Proceedings of the Ocean Drilling Program, Scientific Results 119, 719–30.Google Scholar
Schmitz, B., Aberg, G., Werdelin, L., Forey, P. & Bendix-Almgreen, S. E. 1991 b. 87Sr/86Sr, Na, F, Sr, and La in skeletal fish debris as a measure of the paleosalinity of fossil-fish habitats. Geological Society of American Bulletin 103, 786–94.Google Scholar
Siveter, D. J., Owens, R. M. & Thomas, A. T. 1989. Silurian field excursions. a geotra verse across Wales and the Welsh borderland. National Museum of Wales, Geological Series No. 10, Cardiff, 133 pp.Google Scholar
Smith, R. D. A. & Ainsworth, R. B. 1989. Hummocky cross-stratification in the Downtonian of the Welsh borderland. Journal of the Geological Society, London 146, 897900.Google Scholar
Stamp, L. D. 1923. The base of the Devonian with special reference to the Welsh Borderland. Geological Magazine 6, 276336, 367–72, 385–410.Google Scholar
Wallace, M. W., Gostin, V. A. & Keays, R. R. 1990. The Acraman impact ejecta and host shales: Evidence for low-temperature mobilization of iridium and other platinoids. Geology 18, 132–35.Google Scholar
Wallace, M. W., Keays, R. R. & Gostin, V. A. 1991. Stromatolitic iron oxides: Evidence that sea-level changes can cause sedimentary iridium anomalies. Geology 19, 551–4.Google Scholar
Wang, K., Orth, C. J., Attrep, M. Jr., Chatterton, B. D. E., Hou, H. & Geldsetzer, H. H. J. 1991. Geochemical evidence for a catastrophic biotic event at the Frasnian/Famennian boundary in south China. Geology 19, 776–9.2.3.CO;2>CrossRefGoogle Scholar