• University of Edinburgh Featured Masters Courses
  • Swansea University Featured Masters Courses
  • University of York Featured Masters Courses
  • Xi’an Jiaotong-Liverpool University Featured Masters Courses
  • Regent’s University London Featured Masters Courses
  • Imperial College London Featured Masters Courses
  • Leeds Beckett University Featured Masters Courses
De Montfort University Featured Masters Courses
University of St Andrews Featured Masters Courses
Cardiff University Featured Masters Courses
Institute for Advanced Architecture of Catalonia Featured Masters Courses
University of Birmingham Featured Masters Courses
"plankton"×
0 miles

Masters Degrees (Plankton)

  • "plankton" ×
  • clear all
Showing 1 to 5 of 5
Order by 
Research in biotechnology at Newcastle spans the Faculty of Medical Sciences (FMS) and the Faculty of Science, Agriculture and Engineering (SAgE). Read more

Course overview

Research in biotechnology at Newcastle spans the Faculty of Medical Sciences (FMS) and the Faculty of Science, Agriculture and Engineering (SAgE). We invite proposals for MPhil and PhD projects in biotechnology across the fields of medical sciences, biological, agricultural and environmental sciences, and marine science and technology.

We offer MPhil and PhD supervision in the following research areas:

Medical sciences

In medical sciences our research focuses on translational medicine, from drug discovery and development to effective product commercialisation and process optimisation. Our key areas are: the development of drugs for the treatment of cancer and psychiatric disorders; novel antibiotic innovation; design and development of integrated electrochemical and bio-microelectromechanical (bio-MEMS) sensors for application to point-of-care diagnosis of disease processes and sensor technologies for real-time, high content intracellular analysis using polymer-based nanosensor systems.

Biological, agricultural and environmental sciences

In biological, agricultural and environmental sciences our research focuses on: the search and discovery of commercially significant natural products; the production of crops with novel traits; the fundamental role played by micro-organisms in the turnover of pollutants and the production of high value novel compounds, including pharmaceuticals and pesticides.

Marine science and technology

Our work has led to pioneering advancements in developing novel antibiotics and omega-3 oils from plankton. We also explore the industrial applications of marine organisms such as the development of environmentally friendly antifouling coatings.

Training and skills

As a research student you will receive a tailored package of academic and support elements to ensure you maximise your research and future career. The academic information is in the programme profile and you will be supported by our Faculty of Medical Sciences Graduate School.

For further information see http://www.ncl.ac.uk/postgraduate/courses/degrees/biotechnology-mphil-phd/#training&skills

How to apply

For course application information see http://www.ncl.ac.uk/postgraduate/courses/degrees/biotechnology-mphil-phd/#howtoapply

Read less
Take advantage of one of our 100 Master’s Scholarships or College of Science Postgraduate Scholarships to study Biosciences at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Read more
Take advantage of one of our 100 Master’s Scholarships or College of Science Postgraduate Scholarships to study Biosciences at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Postgraduate loans are also available to English and Welsh domiciled students. For more information on fees and funding please visit our website.

This MRes in Biosciences programme will provide you with research training in one or more of our Research Pathways and you will benefit from training in our Specialist Research Facilities. Research staff will share their expertise and assist you in developing the skills necessary to do independent research, leading to a dissertation written as a scientific paper.

All research students in Biosciences undertake taught modules followed by a major research project under the guidance of academic staff in one or more of our Research Pathways, and benefitting from training in our specialist research facilities.

The MRes Biosciences is a one-year programme. All research students undertake taught modules followed by a major research project under the guidance of academic staff in one or more of our Research Pathways , and benefiting from training in our Specialist Research Facilities.

Biosciences at Swansea has a good relationship with a wide range of external partners, including SMEs, Government Agencies, Local Government, UK and overseas research institutes and universities.

Research Pathways

1) Behavioural and Movement Ecology
Studying adaptations, and the selective pressures in the social and ecological environment that bring them about. We specialise in the movement ecology of individuals and collectives and can provide specialist research training to understand the role of the environment in structuring the properties of animal movement and behaviour.

2) Evolutionary and Molecular Biology
Understanding the diversity of life from a molecular perspective. We use the latest genetic and genomics techniques to address key questions in ecology, behaviour and conservation from an evolutionary perspective in a range of non-model organisms, from fungi to plants and animals.

3) Marine Biology, Fisheries and Aquaculture
From developing new techniques in fish husbandry and rearing of commercially important aquaculture species, to research in food and fuel security, low carbon technologies, biogeochemical cycles and climate change. Specialist research training can be provided on a diverse range of temperate to tropical aquatic organisms, from microplankton to invertebrates to fish, inhabiting marine to freshwater environments.

4) Mathematical and Statistical Ecology
Research that complements the full range of our academic expertise, from theoretical investigations of ecosystem complexity, stoichiometric ecology, pattern formation and animal movement, to practical agricultural applications and the operation of micro-algal biotechnology.

5) Population and Community Ecology
Combining experimental and theoretical approaches to develop our understanding of how species interactions with their environment (including other species) generate the spatial-temporal biodiversity patterns we observe in nature. Study systems include plankton ecosystems, coastal ecosystem functioning, disease control, conservation, and the impact of spatial-temporal environmental variation on community dynamics.

6) Whole Organism Biology
Our staff comprises world-leading experts on a range of organisms studied around the world, and welcome students who want to develop projects around such species.

7) Wildlife Diseases and Pest Control
Research focused on developing natural agents and solutions for the control of wildlife diseases and invertebrate pests that impact on food security and human and animal health. Research training provided in disease detection methods, disease management, and the socioeconomic benefits of pest control.

Facilities

As a student on the MRes Biosciences programme, you will benefit from a range of facilities such as:

Our excellent facilities include a unique built Animal Movement Visualisation Suite (£1.35m), incorporating an electronic wall linked to a computer-tesla cluster for high-speed processing and visualisation of complex accelerometry and magnetometry data derived from animals. Coupled with this facility is the Electronics Lab with capacity for research, development and realisation of animal tags with new capacities (sensors, energy-harvesting systems, miniaturization, 3-D printing of housings etc.); a custom-designed 18m on coastal research vessel; a recent investment of £4.2m on a new suite of state-of-the art Science laboratories; and the £2m unique Centre for Sustainable Aquatic Research (CSAR) with a 750 m2 controlled environment building, with programmable recirculating aquatic systems, unique within the UK’s higher-education sector. These are tailored for research on a diverse range of organisms, ranging from temperate to tropical and marine to freshwater. Coupled with this are nutrient and biochemical analytical capabilities.

Theoretical/mathematical research uses advanced university computing facilities that includes high-end graphics workstations, high-speed network links and the Blue Ice supercomputer located at the Mike Barnsley Centre for Climatic Change Research.

Several dedicated Bioscience labs housed within our grade 2 listed Wallace Building recently benefitted from a £4.2 million renovation programme, providing world-class research facilities that includes a specialist molecular ecology lab and a dedicated arthropod facility.

Research

We are 7th in the UK and top in Wales for research excellence (REF 2014)

93.8% of our research outputs were regarded as world-leading or internationally excellent and Swansea Biosciences had the highest percentage of publications judged ‘world-leading’ in the sector. This is a great achievement for the Department, for the College of Science and indeed for Swansea University.

Read less
Oceanographers investigate both fundamental and applied problems relating to the physics, mathematics, biology, chemistry, and geology of the sea, often working across traditional academic disciplines. Read more

Program Overview

Oceanographers investigate both fundamental and applied problems relating to the physics, mathematics, biology, chemistry, and geology of the sea, often working across traditional academic disciplines. Research carried out both independently and in collaboration with federal government laboratories occurs in many different oceanographic regimes, including coastal BC fjords, the inland sea of the Strait of Georgia, open ocean regions of the Subarctic Pacific, and many other locations, including the Arctic and Antarctic Oceans. The types of problems that can be studied include fundamental questions about the flow of stratified fluids at scales ranging from tens of meters to thousands of kilometers, applied research in estuaries, coastal, and deep-ocean processes, general ocean circulation and climate change issues, marine chemistry, geochemistry, and biogeochemistry, natural product chemistry, marine viruses, fisheries oceanography, plankton ecology and physiology, and primary production of the sea. The Department is well equipped to carry out research in the field (using either its own boat or larger vessels in the oceanographic fleet), at the laboratory bench, and in the numerical heart of a computer. Most problems involve aspects of all three.

Students in Oceanography may select courses, depending on their interest, from the following areas of specialization:
- biological oceanography
- marine chemistry and geochemistry
- physical oceanography and atmospheric sciences

Students are encouraged to broaden their knowledge by taking courses outside their area of specialization. Courses related to Oceanography are also offered in the Departments of Botany, Chemistry, Civil Engineering, Geography, Physics and Astronomy, and Zoology.

Oceanography students normally begin their studies in September but may sometimes arrange to start their thesis/dissertation work in the summer before their first Winter Session. A student wishing to do graduate work in Oceanography should first discuss the proposed program with appropriate faculty in the Department of Earth, Ocean and Atmospheric Sciences.

Quick Facts

- Degree: Master of Science
- Specialization: Oceanography
- Subject: Science
- Mode of delivery: On campus
- Program components: Coursework + Options
- Faculty: Faculty of Science

Read less
How does increasing temperatures affect whales and seals? How does the hole in the ozone layer affect plankton? How is biodiversity changing in the Wadden Sea?. Read more
How does increasing temperatures affect whales and seals? How does the hole in the ozone layer affect plankton? How is biodiversity changing in the Wadden Sea?

How are the oceans responding to climate change? In answering such questions, the two-year Master's degree programme in Marine Biology focuses on life in our planet's seas and oceans. Whether you are interested in biological oceanography, conservation of marine mammals, or coastal marine ecology, there are plenty of opportunities: you can design your own study programme to fit your personal preferences. In 2015, we start the renewed Marine Biology Master program in Groningen.

The modernized program is open for all students with a bachelor in biology. It includes a number of newly developed master courses which are jointly taught by several research groups in Marine Biology at the University of Groningen, and in close co-operation with the Royal Netherlands Institute for Sea Research (Texel, Yerseke). The programme is strongly research oriented. You will conduct research under the supervision of experienced scientists.

Why in Groningen?

- Wadden Sea nearby: unique in the world (on UNESCO World Heritage list)
- Research projects on the level of cells, organisms, populations in seas and oceans
- In cooperation with Dutch national research institutes on marine life

Job perspectives

- About one third of the graduates continue in academic research with the pursuit of their PhD degree in The Netherlands or abroad.
- About one third of the graduates continue in various kinds of research and management related to fisheries and coastal zone management.
- About one third of the graduates work in the public sector, for example in journalism, teaching or communication.

Job examples

- PhD research position
- Research and Management related to marine biology
- Work in the public sector

Read less
Habitat loss, global climate change, water and air pollution, ozone depletion, species invasions, loss of biodiversity, and the accumulation of toxic wastes are among the many environmental dilemmas our society faces. Read more

Program overview

Habitat loss, global climate change, water and air pollution, ozone depletion, species invasions, loss of biodiversity, and the accumulation of toxic wastes are among the many environmental dilemmas our society faces. These complex problems pit environmental limits against economic development, diverse cultures, ethics, values, and social stability and therefore require an understanding of science, policy, society, history, and economics. Environmental scientists must use integrated and holistic approaches to understand and find sustainable solutions to these problems. Graduates of the environmental science program are well prepared for a variety of environmental careers including consulting, research, policy, and outreach, or further graduate work towards a doctoral degree.

Plan of study

Built on the concept that environmental issues are inherently interdisciplinary, the program is offered in collaboration with the College of Liberal Arts. The curriculum provides students with a deep understanding of the science behind our environmental problems, the complex set of circumstances that impact environmental issues, and how environmental decisions and policies must attempt to find a balance between environmental conservation, human well-being, and economic development. Students augment their hands-on classroom work with in-depth experiential learning through an individual thesis or project that provides students with the chance to work on real-world environmental problems under the guidance of skilled environmental scientists. The program includes a core curriculum and electives chosen to reflect the student’s background and career goals. A minimum of 34 semester credit hours beyond the bachelor’s degree is required. All students must propose, conduct, and report on an original research thesis or project.

Curriculum

Course sequence differs according to thesis/project option, see website for a particular option's modules
http://www.rit.edu/programs/environmental-science-ms

Other admission requirements

-Submit official transcripts (in English) from all previously completed undergraduate and graduate course work.
-Have a minimum GPA of 3.0 (overall and in science/math).
-Submit a statement outlining the candidate's research/project interests, career goals, and suitability to the program.
-Submit three letters of recommendation, and complete a graduate application.
-International applicants whose native language is not English must submit scores from the Test of English as a Foreign Language (TOEFL). A minimum score of 600 (paper-based) is required. International English Language Testing System (IELTS) scores are accepted in place of the TOEFL exam. Minimum scores will vary; however, the absolute minimum score required for unconditional acceptance is 7.0. For additional information about the IELTS, please visit http://www.ielts.org.
-The Graduate Record Examination (GRE) is recommended but not required for applicants with an undergraduate degree from a US institution.The GRE is required for International applicants.
-Students are strongly encouraged to contact program faculty before applying to discuss thesis topics and research projects. Students will be matched with a potential thesis advisor at the time of admission.

Additional information

Facilities and equipment:
The program provides a wide range of research opportunities. Many faculty members are engaged in field-based projects and the college boasts excellent laboratory facilities that support field research, including wet laboratories and computer facilities (traditional and geographic information systems). For a list of past and present projects, and faculty research interests, please visit the program website.

Monitoring, mapping, and field equipment:
ArcGIS and IDRISI GIS software, ENVS and ERDAS Remote Sensing software, Garmin and Trimble GPS receivers, soil sampling and analysis equipment, water sampling devices, multisonde water quality probes and dissolved oxygen meters, SCT meter, ponar dredges, Li-Cor light meter, plankton samplers, macroinvertebrate nets/samplers, and a library of field reference texts.

Other equipment:
Fluorimeter, Raman Spectrometer, UV-Vis-IR, GC-MS, ICP, atomic absorption, polarimeter, centrifuge, electrochemical equipment, gas chromatographs, HPLC, viscometer, ESR (built in-house), confocal microscope, infrared carbon dioxide analyzer, Unisense microelectrode system, Lachat autoanalyzer, incubators, capillary electrophoresis, DSCs, DMA, NMR, drying oven, Wiley mill.

Read less

  • 1
Show 10 15 30 per page


Share this page:

Cookie Policy    X