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ENGLISH, L. T. P. (1999) The use of magnetic susceptibility and trace element geochemistry for the correlation of fine-grained siliciclastic sequences: a Late Llandovery example from northwest England. Geological Magazine, 136 (4) 423-436 doi:10.1017/s0016756899002587

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Reference TypeJournal (article/letter/editorial)
TitleThe use of magnetic susceptibility and trace element geochemistry for the correlation of fine-grained siliciclastic sequences: a Late Llandovery example from northwest England
JournalGeological Magazine
AuthorsENGLISH, L. T. P.Author
Year1999 (July)Volume136
Issue4
PublisherCambridge University Press (CUP)
DOIdoi:10.1017/s0016756899002587Search in ResearchGate
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Mindat Ref. ID258147Long-form Identifiermindat:1:5:258147:1
GUID0
Full ReferenceENGLISH, L. T. P. (1999) The use of magnetic susceptibility and trace element geochemistry for the correlation of fine-grained siliciclastic sequences: a Late Llandovery example from northwest England. Geological Magazine, 136 (4) 423-436 doi:10.1017/s0016756899002587
Plain TextENGLISH, L. T. P. (1999) The use of magnetic susceptibility and trace element geochemistry for the correlation of fine-grained siliciclastic sequences: a Late Llandovery example from northwest England. Geological Magazine, 136 (4) 423-436 doi:10.1017/s0016756899002587
In(1999, July) Geological Magazine Vol. 136 (4) Cambridge University Press (CUP)
Abstract/NotesHigh-resolution lithological and magnetic susceptibility logs were made of two sections of
the Upper Llandovery Browgill Formation in northwest England: Stockdale Beck, the type section of
the Browgill Formation, and Spengill. The Browgill Formation is composed of fine-grained deep
marine siliciclastics, which can be divided broadly into two facies: a homogeneous grey mudstone,
deposited under oxygenated bottom-water conditions, and subordinate beds of laminated, graptolite-bearing
black mudstone deposited under low bottom-water oxygen levels. The latter facies is often
partially or fully diagenetically altered to chlorite nodules, occasionally with manganese carbonate
nucleii. Magnetic susceptibility logs are shown to reflect variations in the illite–chlorite ratio of the
clay mineralogy. Chlorite is a paramagnetic mineral, so the bands of chlorite nodules produce magnetic
susceptibility highs. Correlation demonstrates that diagenetically altered beds of laminated black
mudstone are continuous between the two sections, now situated 32 km apart. This lateral continuity
would favour pelagic fallout in preference to gravity flow as a depositional model for both facies. A
correlated sequence within the turriculatus Biozone is 3.8 times thicker at Spengill than at Stockdale
Beck, probably reflecting variations in sediment accumulation rates. Correlation also identifies significant
non-sequences in both sections: at least 47% of the turriculatus Biozone (including maximus Sub-biozone)
is missing at Stockdale Beck and at least 77% of the crispus Biozone is missing at Spengill.
The identification of non-sequences may be of value for refining graptolite biostratigraphy.

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BEACOM, L. E., ANDERSON, T. B., HOLDSWORTH, R. E. (1999) Using basement-hosted clastic dykes as syn-rifting palaeostress indicators: an example from the basal Stoer Group, northwest Scotland. Geological Magazine, 136 (3) 301-310 doi:10.1017/s0016756899002605
WEST, DAVID P., COISH, RAYMOND A., TOMASCAK, PAUL B. (2004) Tectonic setting and regional correlation of Ordovician metavolcanic rocks of the Casco Bay Group, Maine: evidence from trace element and isotope geochemistry. Geological Magazine, 141 (2) 125-140 doi:10.1017/s0016756803008562
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RICHARDS, A. E., GIBBARD, P. L., PETTIT, M. E. (1999) The sedimentology and palaeoecology of the Westleton Member of the Norwich Crag Formation (Early Pleistocene) at Thorington, Suffolk, England. Geological Magazine, 136 (4) 453-464 doi:10.1017/s0016756899002782
GISBERT, GUILLEM, GIMENO, DOMINGO (2017) Ignimbrite correlation using whole-rock geochemistry: an example from the Sulcis (SW Sardinia, Italy) Geological Magazine, 154 (4) 740-756 doi:10.1017/s0016756816000327
MALIVA, R. G., DICKSON, J. A. D., SCHIAVON, N., FALLICK, A. E. (1999) Self-organization origin of wood-grained chert, Portland Limestone Formation (Upper Jurassic), southern England. Geological Magazine, 136 (4) 413-421 doi:10.1017/s0016756899002629
Peter Crimes, T. (1987) Trace fossils and correlation of late Precambrian and early Cambrian strata. Geological Magazine, 124 (2) 97-119 doi:10.1017/s0016756800015922
BATCHELOR, R. A., JEPPSSON, L. (1999) Wenlock metabentonites from Gotland, Sweden: geochemistry, sources and potential as chemostratigraphic markers. Geological Magazine, 136 (6) 661-669 doi:10.1017/s001675689900285x
LEHNERT, OLIVER, BERGSTRÖM, STIG M., BENEDETTO, J. L., VACCARI, N. EMILIO (1999) First record of Lower Silurian conodonts from South America: biostratigraphic and palaeobiogeographic implications of Llandovery conodonts in the Precordillera of Argentina. Geological Magazine, 136 (2) 119-131 doi:10.1017/s0016756899002290
FELITSYN, S. B., VIDAL, G., MOCZYDŁOWSKA, M. (1998) Trace elements and Sr and C isotopic signatures in late Neoproterozoic and earliest Cambrian sedimentary organic matter from siliciclastic successions in the East European Platform. Geological Magazine, 135 (4) 537-551 doi:10.1017/s0016756898001150
 
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