Professor Adrian Hartley
Professor of Sedimentology
Chair in Sedimentology and Stratigraphy
- All aspects of clastic sedimentology and sequence stratigraphy. A particular interest is the application of geomorphology to the rock record in continental environments.
- Evolution of the Central Andes: using stratigraphic, sedimentological and structural data to reconstruct the timing and cause of climate change and uplift in the Central Andes.
- Stratigraphic development of clastic sedimentary successions in Large Igneous Provinces.
- Application of all aspects of clastic sedimentology applied to subsurface resources.
Triassic JIP Phase 2 & 3. A joint indstry project funded by BP, JX Nippon, Total, CNOOC & Neptune Energy looking at the provenance, sedimentology and biostratigraphy of the Triaasic succession in the Central North Sea. The aim is to better predict reservoir distribution and quality in these improtant reservoir units.
Fluvial System Research Group. A Joint Industry Project currently funded by BG, Chevron, ConocoPhillips and Total. The project links with Albuquerque and Royal Holloway and aims to develop a predictive model of distributive fluvial systems (DFS) and associated environments based on remote sensing imagery and outcrop studies. Research is focussed on outcrop based studies in various parts of the world and involves building 3D models of different aspects of distributive fluvial systems, "ground-truthed" using datasets derived from remotely sensed imagery and modern day systems.
Gary Weissmann & Louis Scuderi, University of New Mexico, Albuquerque.
Amanda Owen, University of Glasgow
Anne Mather, University of Plymouth
Laura Evenstar, University of Brighton
Level 3 GL3525 Torridon/Gairloch Fieldtrip Course Coordinator
Level 4 GL4023 Mapping Project
Level 5 Integrated Petroleum Geoscience MSc sedimentology, Utah Fieldtrip, Pyrenees fieldtrip.
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Stratigraphic forward modelling of distributive fluvial systems based on the Huesca System, Ebro Basin, Northern SpainBasin Research, vol. 33, no. 6, pp. 3137-3158Contributions to Journals: Articles
Coarse-grained meandering distributive fluvial system of the Basal Cedar mountain formation, U.S.A.Journal of Sedimentary Research, vol. 91, no. 11, pp. 1188-1205Contributions to Journals: Articles
Geology and Petroleum Prospectivity of the Sea of Hebrides Basin and Minch Basin, Offshore Northwest ScotlandPetroleum Geoscience, vol. 27, no. 4, petgeo2021-003Contributions to Journals: Articles
Evolution of foreland basin fluvial systems in the mid-Cretaceous of Utah, USA (upper Cedar Mountain and Naturita formations)Sedimentology, vol. 68, no. 5, pp. 2097-2124Contributions to Journals: Articles
Determining sediment provenance history in a Gondwanan erg: Botucatu formation, Northern Parana Basin, BrazilSedimentary Geology, vol. 417, 105883Contributions to Journals: Articles
The effects of basaltic lava flows on the petrophysical properties and diagenesis of interbedded aeolian sandstones: an example from the Cretaceous Parana Basin, BrazilPetroleum Geoscience, vol. 27, no. 2, petgeo2020-036Contributions to Journals: Articles
Emplacement of the Little Minch Sill Complex, Sea of Hebrides Basin, NW ScotlandJournal of the Geological Society , vol. 178, no. 3, jgs2020-177Contributions to Journals: Articles
Sedimentology and provenance of the Lower Old Red Sandstone Grampian outliers: implications for Caledonian orogenic basin development and the northward extension of the Midland Valley BasinJournal of the Geological Society , vol. 178, no. 2, jgs2020-141Contributions to Journals: Articles
Quantifying Downstream, Vertical and Lateral Variation in Fluvial Deposits: Implications From the Huesca Distributive Fluvial SystemFrontiers in Earth Science, vol. 8, 564017Contributions to Journals: Articles
Stratigraphic palynology of the Middle–Late Triassic successions of the Central North SeaPetroleum Geoscience, vol. 27, no. 1, petgeo2019-128Contributions to Journals: Articles