PhD Studentship: Constraints on Palaeohydrology of Lower Strength Sedimentary Rocks (LSSR) using a Novel Analytical Toolkit
Lower Strength Sedimentary Rocks (LSSRs) are a high priority for characterisation for the UK’s development of potential geological disposal facilities (GDF). Determining a history of past fluid-flow can better inform us about current and potential future fluid migration and pathways that fluids will take, and as such forms a key part of the characterisation involved in the safety assessment and management of nuclear waste disposal. Fluid-flow events can leave fingerprints such as veins and cements, and these can be measured with a variety of analytical tools to quantify both the timing of fluid-flow and source of the fluids. These fluid-flow fingerprints form the subject of this PhD.
This PhD project will use state-of-the-art laboratories at the British Geological Survey (BGS, Keyworth) to apply both traditional and novel isotope geochemical methods to mineral veins and cements within several LSSR units. The key analytical objectives of this project are to: 1) develop geochronological tools to determine the timing of cement and vein formation of carbonates and sulphates, and 2) develop analytical tools to isotopically fingerprint fluid-sources of carbonate and sulphate mineralisation. The completion of both objectives will entail a combination of 1) fieldwork, petrography and fluid-inclusion measurements; 2) isotope measurements including carbon, oxygen, sulphur, strontium and uranium isotopes, measured with high spatial resolution using micro-milling or laser ablation- based methods; and 3) geochronology involving all or some of the following: U-Pb, U-Th, Rb-Sr and Lu-Hf dating of carbonates and sulphates. These methods will be applied to regions of LSSR units that will be chosen to cover both tectonically complex regions, such as in SW England within the Variscan foreland, as well as regions outside of the Variscan Front with less tectonic complexity, such as the East Midlands. The aim of sampling these regions, even if they are not suitable locations for a GDF, is to constrain how deformation events influence fluid migration, and to compare these with sedimentary units that have undergone a simpler history of burial and uplift.
The data generated during this PhD will provide a comprehensive history of past fluid-flow events that have affected fluid migration and permeability conditions of the specific target areas. This will better inform about the potential migration pathways ongoing and in the future. The development and proving of a novel and robust analytical toolkit will demonstrate the modern analytical capabilities that academic and industrial communities within the UK can apply to other societally relevant rock volumes to understand fluid-flow histories, such as those useful for sub-surface storage (e.g. CCS).
Funding: Nuclear Waste Services fully funded studentship for 4 years, stipend of £17,668 per year, full home fees paid and a research grant to cover analytical, fieldwork and other research costs.
Host Institutions and supervisors: Jointly supervised by Dr. Catriona Menzies (University of Durham, [email protected] ) and Dr Nick Roberts (BGS Keyworth, [email protected] ), PhD will be awarded from Durham University with the majority of laboratory work and training undertaken at BGS Keyworth.
Further details: www.durham.ac.uk/media/durham-university/departments-/earth-sciences/postgraduate/NWS-advert_final-(002).pdf
How to apply: studyatdurham.microsoftcrmportals.com/en-US
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