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04 PhD Degree-Fully Funded at University of Plymouth, England

PhD Degree-Fully Funded at University of Plymouth, England
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University of Plymouth, England invites online Application for number of  Fully Funded PhD Degree at various Departments. We are providing a list of Fully Funded PhD Programs available at University of Plymouth, England.

Eligible candidate may Apply as soon as possible.

 

(01) PhD Degree – Fully Funded

PhD position summary/title: Understanding the response of marine ecosystems to ocean-based carbon dioxide removal

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.

 

Deadline : Monday 6 January 2025

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(02) PhD Degree – Fully Funded

PhD position summary/title: Sea to Sky: leveraging AUVs and satellites to determine floating wind impacts on Celtic Sea key ecosystem drivers

The rapid expansion of floating offshore wind (FLOW) infrastructure into deeper, seasonally stratified shelf seas like the Celtic Sea could have profound consequences for ocean dynamics, such as stratification and mixing, through impacts on ocean fronts, and hence for key ecosystem drivers like phyto- and zooplankton, forage fish, and ultimately, top predators and fisheries. Ocean fronts form at the interface of tidally well-mixed and seasonally stratified waters, providing biological hotspots. Despite their recognized importance, frontal habitats remain poorly studied and FLOW impacts are virtually unknown, highlighting the imperative for innovative monitoring approaches.
This project will utilise autonomous underwater vehicles (AUVs), equipped with novel sensors, and high-resolution satellite remote sensing to understand FLOW interactions with ocean dynamics in the Celtic Sea. NERC’s Autosub Long-Range 1500 AUV will collect data on shelf-sea dynamics (stratification, currents, turbulence), biogeochemistry (oxygen, nutrients), phyto- and zooplankton diversity and abundance, and forage fish distribution. These measurements will be compared with satellite data on thermal and ocean colour fronts, providing insights into their location, timing, structure and persistence in relation to FLOW.
This project can be tailored to the student’s interests, focusing on either physical oceanographic or lower trophic ecological dynamics. Training includes processing of satellite remote sensing data for front detection and the extraction of physical and/or biological data from multi-week AUV missions. Key skills gained include interpreting and linking multiple AUV-derived data streams, such as: turbulence, mixing and stratification; plankton imaging and classification; fisheries acoustics; and biogeochemistry. These skills will prepare the student for a career in marine science or environmental monitoring.

Deadline : Monday 6 January 2025

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(03) PhD Degree – Fully Funded

PhD position summary/title: AI-driven biodiversity insight: enhancing underwater ecosystem monitoring through advanced computer vision

The health of our oceans is critical to the planet’s overall environmental stability, yet marine biodiversity is under increasing threat from climate change, overfishing, and pollution. Traditional methods of monitoring underwater ecosystems are often limited by the challenges of the marine environment, such as difficult access and poor visibility. There is an urgent need for innovative approaches that can provide accurate, real-time biodiversity data. This project seeks to harness Artificial Intelligence (AI) and advanced computer vision to transform underwater monitoring. Automating species identification and behaviour analysis will improve the quality and efficiency of biodiversity assessments, supporting the conservation and sustainable management of marine resources.
The candidate will engage in groundbreaking research at the crossroads of AI, computer vision, and marine biology, working in state-of-the-art facilities at all three Marine Research Plymouth institutions. The student will develop and refine AI models to detect, classify, and analyse marine species from underwater imagery and video. This work will involve processing data from various sources, including remotely operated vehicles (ROVs), autonomous underwater vehicles (AUVs), and fixed underwater cameras. The candidate will have opportunities for fieldwork to validate the models on diverse marine environments.
This project offers extensive training in AI, machine learning, and computer vision, with a focus on their application in marine biology. The student will gain proficiency in programming languages like Python and will work with AI frameworks such as TensorFlow or PyTorch. Additionally, the candidate will learn advanced techniques in marine data collection and analysis, providing comprehensive skills set that span both computational and ecological domains. The project also includes opportunities for collaboration with international research teams and attendance at leading conferences in both fields of AI and marine science.

Deadline : Monday 6 January 2025

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(04) PhD Degree – Fully Funded

PhD position summary/title: Identification of lung cancer patients at higher risk for brain metastasis using microfluidics

Up to 55% of the patients with advanced non-small cell lung cancer (NSCLC) develop brain metastases with a median survival of 2–3 and 4–6 months in untreated and treated patients, respectively. Due to the location of metastatic lesions, surgical resection is limited, and chemotherapy is quite ineffective due to the blood brain barrier. It is thus crucial to identify patients at higher risk for brain metastasis at an early stage. Brain metastasis has been ascribed to the presence of subsets of circulating tumour cells (CTCs) that transmigrate through the blood brain barrier and thrive in the brain. No definitive signature genes for brain metastasis have been identified in CTCs from NSCLC due to the lack of validated markers or strategies to isolate these cells. In this project, we will deploy a microfluidics-based cell sorting platform to isolate CTCs from a cohort of NSCLC patients with brain metastasis. Isolated CTCs will be subjected to comprehensive gene expression profiling to identify the signature genes of brain metastasis. Consequently, we will develop a cutting-edge microfluidics-based cell profiling platform to analyse the proteins encoded by the signature genes in CTCs collected from NSCLC patients and subsequently identify patients at higher risk for brain metastasis.

Deadline : 31 October 2024.

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About University of Plymouth, England –Official Website

The University of Plymouth is a public research university based predominantly in Plymouth, England, where the main campus is located, but the university has campuses and affiliated colleges across South West England. With 18,410 students, it is the 57th largest in the United Kingdom by total number of students (including the Open University).

 

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