Dr David Ray

School of Geography, Earth and Environmental Sciences
Honorary Research Fellow

Contact details

Address
School of Geography, Earth and Environmental Sciences
University of Birmingham
Edgbaston
Birmingham
B15 2TT
UK

Biography

After completing a degree in Geology with Palaeontology (Imperial College, UK) David Ray undertook a PhD on the stratigraphy of the Wenlock limestones (Silurian) of the English Midlands and Welsh Borders (University of Cincinnati, USA). David has taught geology at both degree level and A-level and for the last decade has worked in the hydrocarbon exploration industry. David is a member of the Subcommission on Silurian Stratigraphy and the Stratigraphy Commission of the Geological Society of London. He is currently involved in several research projects aimed at improving the stratigraphic understanding of the Silurian of the UK and beyond.

Research

David’s research interests focus upon Silurian stratigraphy and the use of sequence stratigraphy, carbon isotopic excursions and volcanic ash horizons as a means of high-resolution correlation. These high-resolution correlations have then been used to investigate Silurian environmental events that impacted upon the atmosphere, biosphere and hydrosphere.

Publications

Fry, C. R., Ray, D. C., Wheeley, J. R., Boomer, I., Jarochowska, E. and Loydell, D. K. 2017. The Homerian carbon isotope excursion (Silurian) within graptolitic successions on the Midland Platform (Avalonia), UK: implications for regional and global comparisons and correlations. GFF 139 (4), 301–313.

Jarochowska, E., Ray, D. C., Röstel, P., Worton, G. and Munnecke, A. 2017. Harnessing stratigraphic bias at the section scale: Conodont diversity in the Homerian (Silurian) of the Midland Platform, England. Palaeontology 61, 57–76.

Ray, D. C. and Sides, I. 2017. Building a better eustatic model: determining Phanerozoic sea-level change. Neftex Exploration Insights, July, 6–12.

Blain, J. A., Ray, D. C. and Wheeley, J. R. 2016. Carbon isotope (δ13Ccarb) and facies variability at the Wenlock-Ludlow boundary (Silurian) of the Midland Platform, UK. Canadian Journal of Earth Sciences 53 (7), 1–6.

Hughes, H. E. and Ray, D. C. 2016. The carbon isotope and sequence stratigraphic record of the Sheinwoodian and lower Homerian stages (Silurian) of the Midland Platform, UK. Palaeogeography, Palaeoclimatology, Palaeoecology 445, 97–114.

Ray, D. C. and Yallup, C. 2016. Paleozoic Oceanic Anoxic Events – Critical Episodes in Earth History for Source Rock and Resource Play Development. Neftex Exploration Insights, February, 10–15.

Sides, I., Wilson J. and D. C. Ray. 2016. The Late Triassic–Early Jurassic of South Wales: climate change, paleogeographies and global events. Neftex Exploration Insights, October, 15–22.

Jarochowska, E., Munnecke, A., Frisch, K., Ray, D. C. and Castagner, A. 2015. Faunal and facies changes through the mid Homerian (late Wenlock, Silurian) positive carbon isotope excursion in Podolia, western Ukraine. Lethaia 49 (2), 170–198.

Paßler, J.-F., Jarochowska, E., Ray, D. C., Munnecke, A. and Worton, G. J. 2014. Aphanitic buildup from the onset of the Mulde Event (Homerian, middle Silurian) at Whitman’s Hill, Herefordshire, UK: ultrastructural insights into proposed microbial fabrics. Estonian Journal of Earth Sciences 63, 287–292.

Hughes, H. E. Ray, D. C. and Brett, C. E. 2014. δ13Ccarb data recording the early Sheinwoodian carbon isotope excursion on the Midland Platform, UK. GFF 136, 110–115.

Ray, D. C., Richards, T. D., Brett, C. E., Morton, A. C. and Brown, A. M. 2013. Late Wenlock sequence and bentonite stratigraphy in the Malvern, Suckley and Abberley Hills, England. Palaeogeography, Palaeoclimatology, Palaeoecology 389, 115–127.

Marshall, C., Thomas, A. T., Boomer, I., Ray, D. C. 2012. High resolution δ13C stratigraphy of the Homerian (Wenlock) of the English Midlands and Wenlock Edge.  Bulletin of Geosciences 87 (4), 669–679.

Cramer, B. D., Condon, D. J., Söderlund, U., Marshall, C., Worton, G. W., Thomas, A. T., Calner, M., Ray, D. C., Perrier, V., Boomer, I., Patchett, P. J. and Jeppsson, L. 2012. U-Pb (zircon) age constraints on the timing and duration of Wenlock (Silurian) paleocommunity collapse and recovery during the 'Big Crisis'. The Geological Society of America Bulletin 124 (11/12), 1841–1857.

Rosenbaum, M. and Ray D. 2011. Conference Report: Siluria Revisited, 10th to 15th July 2011. Proceedings of the Shropshire Geological Society 16, 60−62

Davies, J. R., Ray, D. C., Thomas, A. T., Loydell, D. K., Cherns, L., Cramer, B. D., Veevers, S. J., Worton, G. J., Marshall, C., Molyneux, S. G., Vandenbroucke, T. R. A., Verniers, J., Waters, R. A., Williams M. and Zalasiewicz, J. A. 2011. Siluria Revisited: A Field Guide. International Subcommission on Silurian Stratigraphy, Field Meeting 2011 (ed. D.C. Ray), 1 -170. ISBN 978-0-9569190-0-7.

Ray, D. C., Collings, A. V. J., Worton, G. J. and Jones G. 2011. Upper Wenlock bentonites from Wren’s Nest Hill, Dudley; comparisons with prominent bentonites along Wenlock Edge, Shropshire, England. Geological Magazine 148 (4), 670–681.

Ray, D. C. and Butcher, A. 2010. Sequence stratigraphy of the type Wenlock area (Silurian), England. Bollettino della Società Paleontologica Italiana 49 (1), 47–54.

Ray, D. C., Brett, C. E., Thomas, A. T. and Collins, A. V. J. 2010. Late Wenlock sequence stratigraphy in central England. Geological Magazine 147 (1), 123–144.

Ray, D. C. 2007. The correlation of Lower Wenlock Series (Silurian) bentonites from the Lower Hill Farm and Eastnor Park boreholes, Midland Platform, England. Proceedings of the Geologists’ Association 118 (2), 175–185.

Ray, D. C. and Thomas, A. T. 2007. Carbonate depositional environments, sequence stratigraphy and exceptional skeletal preservation in the Much Wenlock Limestone Formation (Silurian) of Dudley, England. Palaeontology 50 (1), 197–222.

Brett, C. E. and Ray, D. C. 2006. Sequence and event stratigraphy of Silurian strata of the Cincinnati Arch Region: Correlation with New York-Ontario Successions. Proceedings of the Royal Society of Victoria 117 (2), 175–198.