General information
The Master in Applied Oceanography builds on the core principles of oceanography in coastal and open sea domains, with a focus on operational oceanography and the versatile and broad spectrum of disciplines and offshoot applications related to it. The main target of the course is to match the human resource needs in the evolving marine sector at local, European and global scales, providing professionals with wide ranging skills to exploit the outcomes of marine research and technology in favour of the competitiveness of the industry and service sectors.
The Course shall extend over three semesters of full-time study or the equivalent in part-time study. The course programme features the following key elements:
- an overview of supporting sciences covering the essentials in physical, chemical, biological and geological oceanography, as well as other baseline topics such as satellite oceanography, marine GIS and spatial planning, etc.;
- the adoption of specialized methods and tools used in marine studies and assessments; and
- a focus on dedicated applications and services deriving from operational oceanography such as in relation to marine environmental management and monitoring, policy development and decision making, planning, marine research, marine security, and a range of other marine-related services.
| Compulsory Units | ECTS |
| Academic Reading, Writing and Speaking in English for Postgraduates | 5 |
| Scientific Baseline of Oceanography | 10 |
| Practical Baseline of Oceanography | 5 |
| Essentials of Operational Oceanography | 10 |
| Data Resources in Operational Oceanography | 10 |
| Oceanography Boot Camp - Field survey involving instrument deployment and laboratory data analysis | 5 |
| Ocean Governance | 5 |
| Application and Services in Operational Oceanography | 10 |
| Dissertation | 30 |
The course is intended to train postgraduate students and professionals on state-of-the-art methodologies and tools to measure, understand and predict the marine environment, and derive sustained benefits from the sea, to accomplish the human resource backbone to sustain a range of marine-related activities and economic endeavours.
The main expected benefits to students completing the Master of Science in Applied Oceanography successfully are:
Subject Knowledge and Understanding
- Comprehend the basic scientific concepts of oceanography in a holistic view embracing the physical, chemical, biological and geological aspects, and on how they relate to the underlying processes and functioning of the marine environment;
- Comprehend the concept and practice of operational oceanography for the systematic and long-term routine measurements of the seas and oceans and atmosphere, and the rapid interpretation and dissemination of information;
- Gain full understanding on ocean and coastal observing and forecasting systems in operational oceanography, technical and theoretical aspects related to metocean observations, operational monitoring platforms, state-of-the-art instrumentation and sensor technology, understanding their performance (including limitations and configurations) and understanding their basic functions and use to the benefit of specific applications;
- Demonstrate an understanding of the process of acquisition and the nature of the information in remote sensing for the comprehensive study of the sea and the applications to oceanographic studies;
- Acquire interests and informed opinions in a range of areas in applied mathematical methods relevant to oceanograohy;
- Understand the concepts and terminology for maritime spatial planning (MSP), especially within the European perspective, including benefits and relation to other existing management approaches, primarily integrated coastal zone management (ICZM) and ecosystem-based management (EBM);
- Acquire a grounding in Geographic Information Systems (GIS) as a tool for mapping and analysis of spatial data with special reference to the marine domain;
- Recognise and understand how specialized technologies in operational oceanography, especially computer-based modelling, are contributing to enhance applications in a wide range of marine activities through specific European experiences and examples.
Intellectual Development
- Acquire knowledge on the national, regional and international frameworks and programmes for coordinating and implementing efforts in operational oceanography with a focus on Europe;
- Learn, follow and apply common methods and practices to make best use of marine equipment to obtain high quality oceanographic data at the appropriate spatial and temporal scales and resolution;
- Acquire a practical background on the investigative techniques that are used to study the physical, biological, geological, and chemical parameters of the marine environment;
- Appreciate the scope of field studies through active participation in group projects and individual research efforts;
- Interpret concepts of advanced computer-based modeling and techniques in operational oceanography.
Key Transferable Skills
- Apply the fundamentals of ocean science to describe and explain processes pertaining to the marine environment in coastal and open sea domains, and the interactions between the atmosphere and the oceans;
- Understand scientific literature on related topics and have sufficient insight to follow and apprehend past and current research efforts, as well as critically evaluate the validity of existing literature on oceanography against accepted benchmarks and standards;
- Make judicious assessments on the response of the marine ecosystem to natural and anthropogenic forcings;
- Apply the scientific method in the design of studies and assessments, in establishing feasible sampling and surveying protocols, in the sound interpretation of data, and in deriving meaningful conclusions;
- Apply knowledge, understanding and problem solving abilities in new or unfamiliar contexts involving broader (or multidisciplinary) factors that link science to management issues and across legal and socio-economic aspects;
- Comprehend the scope of Environmental Impact Assessments, and the process of formulating and submitting such assessments on the basis of informed and multi-disciplinary inputs.
Career opportunities and access to further study: This course is tailor-made for participants aspiring to join several streams of expertise and jobs, amongst others: Management of coastal/marine resources; Policy-making and governance; Marine impact assessment and specialized analysis of environmental scenarios; Marine-related industries, services and economic activities; Marine-related operational activities such as in surveying, surveillance, search and rescue, marine transportation, etc.; Environmental monitoring; Research fields in oceanography; Numerical modeling of the marine environment; Data mining, management, quality control and archival; Marine observations and forecasting.
Content
The highlighted icons, represent the fields of education (in compliance with ISCED Classification) engaged during this course/programme.
Venue
Application
Click here to apply: http://www.um.edu.mt/__data/assets/pdf_file/0009/232200/octoberadmissioninfo.pdf
Cost:
<p><a href="http://www.um.edu.mt/finance/service/coursefees">Course fees</a></p> <ul> <li><strong>EU/EEA students:</strong> €400 annual enrolment fee + €2.000 bench fee -<strong> total fee: €2.400</strong></li> <li><strong>Non EU/EEA students</strong>: <strong>€13.400 </strong>tuition fee</li> </ul>
Prerequisites:
The Course shall be open to applicants in possession of a first cycle degree from this University in Science, Engineering, Architecture or Information Technology, or any other area deemed relevant by the Board. Knowledge of Mathematics and programming skills is strongly recommended.
In exceptional cases the Admissions Board, on the recommendation of the Board, may admit into the Course applicants not in possession of a Bachelor degree, provided that it is satisfied that such applicants are in possession of other academic qualifications and experience that together are deemed to be comparable to the qualifications listed above.
Application Procedure:
The Course shall be open to applicants in possession of a first cycle degree from this University in Science, Engineering, Architecture or Information Technology, or any other area deemed relevant by the Board.
In exceptional cases the Admissions Board, on the recommendation of the Board, may admit into the Course applicants not in possession of a Bachelor degree, provided that it is satisfied that such applicants are in possession of other academic qualifications and experience that together are deemed to be comparable to the qualifications listed in the above paragraph. The admission of applicants under this paragraph may be made conditional on the results of an interview conducted by a board appointed for the purpose.
Knowledge of Mathematics and programming skills is strongly recommended.
The interviewing board appointed by the Board of Studies shall be composed of at least three members.
The admission requirements are applicable for courses commencing in October 2016.
For more detailed information pertaining to admission and progression requirements please refer to the bye-laws for the course available here.
Qualification
Qualification: Master of Science
Credits:
The Master in Applied Oceanography builds on the core principles of oceanography in coastal and open sea domains, with a focus on operational oceanography and the versatile and broad spectrum of disciplines and offshoot applications related to it. The main target of the course is to match the human resource needs in the evolving marine sector at local, European and global scales, providing professionals with wide ranging skills to exploit the outcomes of marine research and technology in favour of the competitiveness of the industry and service sectors.
The Course shall extend over three semesters of full-time study or the equivalent in part-time study. The course programme features the following key elements:
- an overview of supporting sciences covering the essentials in physical, chemical, biological and geological oceanography, as well as other baseline topics such as satellite oceanography, marine GIS and spatial planning, etc.;
- the adoption of specialized methods and tools used in marine studies and assessments; and
- a focus on dedicated applications and services deriving from operational oceanography such as in relation to marine environmental management and monitoring, policy development and decision making, planning, marine research, marine security, and a range of other marine-related services.
| Compulsory Units | ECTS |
| Academic Reading, Writing and Speaking in English for Postgraduates | 5 |
| Scientific Baseline of Oceanography | 10 |
| Practical Baseline of Oceanography | 5 |
| Essentials of Operational Oceanography | 10 |
| Data Resources in Operational Oceanography | 10 |
| Oceanography Boot Camp - Field survey involving instrument deployment and laboratory data analysis | 5 |
| Ocean Governance | 5 |
| Application and Services in Operational Oceanography | 10 |
| Dissertation | 30 |
The Course shall be open to applicants in possession of a first cycle degree from this University in Science, Engineering, Architecture or Information Technology, or any other area deemed relevant by the Board.
In exceptional cases the Admissions Board, on the recommendation of the Board, may admit into the Course applicants not in possession of a Bachelor degree, provided that it is satisfied that such applicants are in possession of other academic qualifications and experience that together are deemed to be comparable to the qualifications listed in the above paragraph. The admission of applicants under this paragraph may be made conditional on the results of an interview conducted by a board appointed for the purpose.
Knowledge of Mathematics and programming skills is strongly recommended.
The interviewing board appointed by the Board of Studies shall be composed of at least three members.
The admission requirements are applicable for courses commencing in October 2016.
For more detailed information pertaining to admission and progression requirements please refer to the bye-laws for the course available here.
The course is intended to train postgraduate students and professionals on state-of-the-art methodologies and tools to measure, understand and predict the marine environment, and derive sustained benefits from the sea, to accomplish the human resource backbone to sustain a range of marine-related activities and economic endeavours.
The main expected benefits to students completing the Master of Science in Applied Oceanography successfully are:
Subject Knowledge and Understanding
- Comprehend the basic scientific concepts of oceanography in a holistic view embracing the physical, chemical, biological and geological aspects, and on how they relate to the underlying processes and functioning of the marine environment;
- Comprehend the concept and practice of operational oceanography for the systematic and long-term routine measurements of the seas and oceans and atmosphere, and the rapid interpretation and dissemination of information;
- Gain full understanding on ocean and coastal observing and forecasting systems in operational oceanography, technical and theoretical aspects related to metocean observations, operational monitoring platforms, state-of-the-art instrumentation and sensor technology, understanding their performance (including limitations and configurations) and understanding their basic functions and use to the benefit of specific applications;
- Demonstrate an understanding of the process of acquisition and the nature of the information in remote sensing for the comprehensive study of the sea and the applications to oceanographic studies;
- Acquire interests and informed opinions in a range of areas in applied mathematical methods relevant to oceanograohy;
- Understand the concepts and terminology for maritime spatial planning (MSP), especially within the European perspective, including benefits and relation to other existing management approaches, primarily integrated coastal zone management (ICZM) and ecosystem-based management (EBM);
- Acquire a grounding in Geographic Information Systems (GIS) as a tool for mapping and analysis of spatial data with special reference to the marine domain;
- Recognise and understand how specialized technologies in operational oceanography, especially computer-based modelling, are contributing to enhance applications in a wide range of marine activities through specific European experiences and examples.
Intellectual Development
- Acquire knowledge on the national, regional and international frameworks and programmes for coordinating and implementing efforts in operational oceanography with a focus on Europe;
- Learn, follow and apply common methods and practices to make best use of marine equipment to obtain high quality oceanographic data at the appropriate spatial and temporal scales and resolution;
- Acquire a practical background on the investigative techniques that are used to study the physical, biological, geological, and chemical parameters of the marine environment;
- Appreciate the scope of field studies through active participation in group projects and individual research efforts;
- Interpret concepts of advanced computer-based modeling and techniques in operational oceanography.
Key Transferable Skills
- Apply the fundamentals of ocean science to describe and explain processes pertaining to the marine environment in coastal and open sea domains, and the interactions between the atmosphere and the oceans;
- Understand scientific literature on related topics and have sufficient insight to follow and apprehend past and current research efforts, as well as critically evaluate the validity of existing literature on oceanography against accepted benchmarks and standards;
- Make judicious assessments on the response of the marine ecosystem to natural and anthropogenic forcings;
- Apply the scientific method in the design of studies and assessments, in establishing feasible sampling and surveying protocols, in the sound interpretation of data, and in deriving meaningful conclusions;
- Apply knowledge, understanding and problem solving abilities in new or unfamiliar contexts involving broader (or multidisciplinary) factors that link science to management issues and across legal and socio-economic aspects;
- Comprehend the scope of Environmental Impact Assessments, and the process of formulating and submitting such assessments on the basis of informed and multi-disciplinary inputs.
Career opportunities and access to further study: This course is tailor-made for participants aspiring to join several streams of expertise and jobs, amongst others: Management of coastal/marine resources; Policy-making and governance; Marine impact assessment and specialized analysis of environmental scenarios; Marine-related industries, services and economic activities; Marine-related operational activities such as in surveying, surveillance, search and rescue, marine transportation, etc.; Environmental monitoring; Research fields in oceanography; Numerical modeling of the marine environment; Data mining, management, quality control and archival; Marine observations and forecasting.
The Course shall be open to applicants in possession of a first cycle degree from this University in Science, Engineering, Architecture or Information Technology, or any other area deemed relevant by the Board. Knowledge of Mathematics and programming skills is strongly recommended.
In exceptional cases the Admissions Board, on the recommendation of the Board, may admit into the Course applicants not in possession of a Bachelor degree, provided that it is satisfied that such applicants are in possession of other academic qualifications and experience that together are deemed to be comparable to the qualifications listed above.
