Qualification Type: | PhD |
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Location: | Devon, Plymouth |
Funding for: | UK Students, EU Students, International Students |
Funding amount: | The studentship is supported for 3.5 years and includes Home rate tuition fees plus a stipend of £19,237 per annum 2024-25 rate (2025-26 rate TBC) |
Hours: | Full Time |
Placed On: | 31st October 2024 |
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Closes: | 8th January 2025 |
Second Supervisor (External Lead): Dr Glen Wheeler
Lead Supervisor (DoS): Dr George Littlejohn
Third Supervisor: Professor Helen Findlay
Applications are invited for a 3.5 year PhD studentship with Marine Research Plymouth – a collaborative partnership between the University of Plymouth, the Plymouth Marine Laboratory and the Marine Biological Association. The studentship is due to start on 1st October 2025.
This project is one of three topics available for the studentship. We anticipate supporting one position, which will be allocated to the best combination of candidate and project as they emerge from interviews across the pool of available topics.
Project Description
The development of ocean carbon dioxide removal (oCDR) technologies, aimed at helping oceans sequester atmospheric carbon dioxide to prevent excessive warming of our planet, have attracted substantial interest recently. Ocean alkalinity enhancement (OAE) is one such example, where the addition of finely ground mineral rocks to seawater represents an acceleration of natural weathering processes and causes carbon dioxide to be drawn down.
oCDR holds much promise for helping us achieve carbon budgets, but their impact on marine ecosystems remains poorly understood. Mineral additions cause localised hotspots of low carbon dioxide, which are temporary, but impact on the photosynthesis and growth of marine phytoplankton that support the entire marine food web. A better understanding of how oCDR influences different phytoplankton types is needed to assess the wider impact of these technologies on marine ecosystems.
The project will examine the impact of OAE on marine phytoplankton, testing the resilience of various species to episodes of low carbon dioxide. Identifying these groups will help us understand how, when and where oCDR technologies can be deployed. The student will have the opportunity to learn multiple experimental techniques, including the design and application of OAE approaches. Further techniques will include phytoplankton physiology, field sampling and advanced microscopy. Full training will be provided. The student will also be able to work with a range of international collaborators examining OAE.
Eligibility
Applicants should have a first or upper second class honours degree in an appropriate subject or a relevant Masters qualification. The project is suitable for candidates with experience in Marine Biology or Biological Sciences who have a strong interesting in marine ecosystems and their response to environmental change.
Non-native English speakers must have an IELTS Academic score of 6.5 or above (with no less than 5.5 in any element) or equivalent.
The studentship is supported for 3.5 years and includes full home tuition fees plus a stipend at the 2025/26 rate (to be confirmed; compare the 2024/25 UKRI rate of £19,237 per annum). The last 6 months of the four-year registration period is a self-funded ‘writing-up’ period. The studentship will only fully fund those applicants who are eligible for home fees with relevant qualifications. Applicants normally required to cover international fees will have to cover the difference between the home and the international tuition fee rates.
To apply for this position please visit click on the Apply button above.
Please follow the Application Guidance and clearly state the name of the studentship that you are applying for on top of your personal statement.
The closing date for applications is 12 noon on Wednesday 8th January 2025.
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