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Masters Degrees (Atmospheric Physics)

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Society urgently needs experts with a multidisciplinary education in atmospheric and Earth System sciences. Climate change and issues of air quality and extreme weather are matters of global concern, but which are inadequately understood from the scientific point of view. Read more
Society urgently needs experts with a multidisciplinary education in atmospheric and Earth System sciences. Climate change and issues of air quality and extreme weather are matters of global concern, but which are inadequately understood from the scientific point of view. Not only must further research be done, but industry and business also need environmental specialists with a strong background in natural sciences. As new regulations and European Union directives are adopted in practice, people with knowledge of recent scientific research are required.

Upon graduating from the Programme you will have competence in:
-Applying experimental, computational and statistical methods to obtain and analyse atmospheric and environmental data.
-Knowledge applicable to solving global challenges such as climate change, air pollution, deforestation and issues related to water resources and eutrophication.
-Making systematic and innovative use of investigation or experimentation to discover new knowledge.
-Reporting results in a clear and logical manner.

The University of Helsinki will introduce annual tuition fees to foreign-language Master’s programmes starting on August 1, 2017 or later. The fee ranges from 13 000-18 000 euros. Citizens of non-EU/EEA countries, who do not have a permanent residence status in the area, are liable to these fees. You can check this FAQ at the Studyinfo website whether or not you are required to pay tuition fees: https://studyinfo.fi/wp2/en/higher-education/higher-education-institutions-will-introduce-tuition-fees-in-autumn-2017/am-i-required-to-pay-tuition-fees/

Programme Contents

The six study lines are as follows:
Aerosol Physics
Aerosol particles are tiny liquid or solid particles floating in the air. Aerosol physics is essential for our understanding of air quality, climate change and production of nanomaterials. Aerosol scientists investigate a large variety of phenomena associated with atmospheric aerosol particles and related gas-to-particle conversion using constantly improving experimental, theoretical, model-based and data analysis methods. As a graduate of this line you will be an expert in the most recent theoretical concepts, measurement techniques and computational methods applied in aerosol research.

Geophysics of the Hydrosphere
Hydrospheric geophysics studies water in all of its forms using physical methods. It includes hydrology, cryology, and physical oceanography. Hydrology includes the study of surface waters such as lakes and rivers, global and local hydrological cycles as well as water resources and geohydrology, the study of groundwater. Cryology focuses on snow and ice phenomena including glacier mass balance and dynamics, sea ice physics, snow cover effects and ground frost. Physical oceanography covers saline water bodies, focusing on describing their dynamics, both large scale circulation and water masses, and local phenomena such as surface waves, upwelling, tides, and ocean acoustics. Scientists study the hydrosphere through field measurements, large and small scale modelling, and formulating mathematical descriptions of the processes.

Meteorology
Meteorology is the physics of the atmosphere. Its best-known application is weather forecasting, but meteorological knowledge is also essential for understanding, predicting and mitigating climate change. Meteorologists study atmospheric phenomena across a wide range of space and time scales using theory, model simulations and observations. The field of meteorology is a forerunner in computing: the development of chaos theory, for example, was triggered by the unexpected behaviour of a meteorological computer model. Meteorology in ATM-MP is further divided into dynamic meteorology and biometeorology. Dynamic meteorology is about large-scale atmospheric dynamics, modelling and observation techniques, whereas biometeorology focuses on interactions between the atmosphere and the underlying surface by combining observations and modelling to study the flows of greenhouse gases and energy with links to biogeochemical cycles, for example. As a graduate of the meteorology line, you will be an expert in atmospheric phenomena who can produce valuable new information and share your knowledge.

Biogeochemical Cycles
Biogeochemistry studies the processes involved in cycling of elements in terrestrial and aquatic ecosystems by integrating physics, meteorology, geophysics, chemistry, geology and biology. Besides natural ecosystems, it also studies systems altered by human activity such as forests under different management regimes, drained peatlands, lakes loaded by excess nutrients and urban environments. The most important elements and substances studied are carbon, nitrogen, sulphur, water and phosphorus, which are vital for ecosystem functioning and processes such as photosynthesis. Biogeochemistry often focuses on the interphases of scientific disciplines and by doing so, it also combines different research methods. It treats ecosystems as open entities which are closely connected to the atmosphere and lithosphere. You will thus get versatile training in environmental issues and research techniques. As a graduate of this line you will be an expert in the functioning of ecosystems and the interactions between ecosystems and the atmosphere/hydrosphere/lithosphere in the context of global change. You will have knowledge applicable for solving global challenges such as climate change, air pollution, deforestation and issues related to water resources and eutrophication.

Remote Sensing
Remote sensing allows the collection of information about the atmosphere, oceans and land surfaces. Various techniques are applied for monitoring the state and dynamics of the Earth system from the ground, aircraft or satellites. While Lidar and radar scan from the surface or mounted on aircraft, instruments on polar orbiting or geostationary satellites permit measurements worldwide. In atmospheric sciences remote sensing has found numerous applications such as observations of greenhouse and other trace gases, aerosols, water vapour, clouds and precipitation, as well as surface observations, for example of vegetation, fire activity, snow cover, sea ice and oceanic parameters such as phytoplankton. Synergistic satellite data analysis enables the study of important processes and feedback in the climate system. Remote sensing advances climate research, weather forecasting, air quality studies, aviation safety and the renewable energy industry. As a graduate of the remote sensing line you will have broad expertise in the operational principles of remote sensing instruments as well as methods of data collection, analysis and interpretation.

Atmospheric Chemistry and Analysis
Atmospheric chemistry studies the composition and reactions of the molecules that make up the atmosphere, including atmospheric trace constituents and their role in chemical, geological and biological processes, including human influence. The low concentrations and high reactivity of these trace molecules place stringent requirements on the measurement and modelling methods used to study them. Analytical chemistry is the science of obtaining, processing, and communicating information about the composition and structure of matter and plays an essential role in the development of science. Environmental analysis consists of the most recent procedures for sampling, sample preparation and sample analysis and learning how to choose the best analytical methods for different environmental samples. Physical atmospheric chemistry studies focus on the reaction types and reaction mechanisms occurring in the atmosphere, with emphasis on reaction kinetics, thermodynamics and modelling methods. As a graduate of this line you will have understanding of the chemical processes of the atmosphere and the latest environmental analytical methods, so you will have vital skills for environmental research.

Programme Structure

The basic degree in the Programme is the Master of Science (MSc). The scope of the degree is 120 credits (ECTS). As a prerequisite you will need to have a relevant Bachelor’s degree. The possible major subjects are Physics, Meteorology, Geophysics, Chemistry, and Forest Ecology. The programme is designed to be completed in two years. Studies in ATM-MP consist of various courses and project work: lecture courses, seminars, laboratory work and intensive courses.

Your first year of studies will consist mainly of lecture courses. During the second year, you must also participate in the seminar course and give a presentation yourself. There is also a project course, which may contain laboratory work, data analysis, or theoretical or model studies. You will have to prepare a short, written report of the project. There are also several summer and winter schools as well as field courses for students in the Programme. Many of the courses take place at the Hyytiälä Forestry Field Station in Southern Finland. The intensive courses typically last 5–12 days and include a concise daily programme with lectures, exercises and group work.

Career Prospects

There is a global need for experts with multidisciplinary education in atmospheric and environmental issues. Governmental environmental agencies need people who are able to interpret new scientific results as a basis for future legislation. Industry, transportation and businesses need to be able to adapt to new regulations.

As a Master of Science graduating from the Programme you will have a strong background of working with environmental issues. You will have the ability to find innovative solutions to complex problems in the field of environmental sciences, climate change and weather forecasting. Graduates of the Programme have found employment in Meteorological Institutes and Environmental Administration in Finland and other countries, companies manufacturing instrumentation for atmospheric and environmental measurements and analysis, and consultancy companies. The Master's degree in ATM-MP also gives you a good background if you intend to proceed to doctoral level studies.

Internationalization

The Programme offers an international study environment with more than 30% of the students and teaching staff coming from abroad.

The ATM-MP is part of a Nordic Nordplus network in Atmosphere-Biosphere Studies, which gives you good opportunities to take courses currently in fourteen Nordic and Baltic universities. There are also several Erasmus agreements with European universities. The PanEurasian Experiment (PEEX) project provides you with opportunities to carry out part of your studies especially in China and Russia.

Research Focus

All the units teaching in the Programme belong to the National Centre of Excellence (FCoE) in Atmospheric Science – From Molecular and Biological processes to the Global Climate (ATM), which is a multidisciplinary team of the Departments of Physics, Forest Sciences and Chemistry at the University of Helsinki, the Department of Applied Physics at the University of Eastern Finland (Kuopio) and the Finnish Meteorological Institute.

The main objective of FCoE ATM is to quantify the feedbacks between the atmosphere and biosphere in a changing climate. The main focus of the research is on investigating the following topics:
1. Understanding the climatic feedbacks and forcing mechanisms related to aerosols, clouds, precipitation and biogeochemical cycles.
2. Developing, refining and utilising the newest measurement and modelling techniques, from quantum chemistry to observations and models of global earth systems.
3. Creating a comprehensive understanding of the role of atmospheric clusters and aerosol particles in regional and global biogeochemical cycles of water, carbon, sulphur, nitrogen and their linkages to atmospheric chemistry.
4. Integrating the results in the context of understanding regional and global Earth systems.

In addition to the research focus of FCoE, current research in hydrospheric geophysics at Helsinki University has an emphasis on cryology, with a focus on the effect of aerosols on Indian glaciers, the impact of climate change on the Arctic environment, the dynamics of the Austfonna ice cap in Svalbard, and the winter season in the coastal zone of the Baltic Sea.

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This Masters will prepare you in the physical sciences and mathematics for a research career in climate, atmospheric or environmental sciences. Read more

Overview

This Masters will prepare you in the physical sciences and mathematics for a research career in climate, atmospheric or environmental sciences. It ideally bridges the gap between undergraduate studies in physical/natural sciences and engineering, and study for a PhD. Alternatively, if you decide to leave academia, the highly transferable skills gained from this course could lead to a research role in industry or government.

Gain a broad overview of physical problems in climate and atmospheric science, together with a sound physical understanding of natural processes. Alongside this, develop highly transferable skills to conduct research in these subjects with a strong emphasis on quantitative data analysis and physical and numerical modelling.

Course highlights:

• Interact with academics who are at the forefront of major global issues. Leeds is a leading centre of excellence across both the physical science of the climate and atmosphere science, and the resultant socio-economic impacts and processes...
- Institute for Climate and Atmospheric Science (ICAS) is the UK’s most diverse academic institute for atmospheric research.
- National Centre for Atmospheric Science (NCAS), one of six research centres funded by the Natural Environment Research Council (NERC), providing its core atmospheric research.
- Priestley International Centre for Climate Change (PICC) a world-leading centre for policy-relevant, solution-driven climate research
- Centre for Polar Observation and Modelling (CPOM) is a research centre that studies processes in the Earth's polar latitudes that may affect the Earth's albedo, polar atmosphere and ocean circulation, and global sea level.
• Continue on to a PhD, or move into a research role in industry or government. Highly numerate graduates with training in independent research are widely sought after.
• Develop your research skills – you will be regarded as a researcher in the School and expected to work closely with ICAS staff as well as presenting at the annual ICAS Science Conference along with academics and doctoral researchers.

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This programme aims to train students to become researchers with a solid grounding and focuses on the fundamental physical processes that make up the Earth's climate system. Read more

Climate Physics

This programme aims to train students to become researchers with a solid grounding and focuses on the fundamental physical processes that make up the Earth's climate system.

Utrecht University offers a stimulating academic environment in which undergraduates actively participate in exciting projects and ongoing research. The teaching staff are all leading experts in components of the climate system from the Institute for Marine and Atmospheric research Utrecht (IMAU). Besides lectures, field excursions and computer and laboratory experiments, participating in a sea-going scientific expedition may also be part of your programme.

The Faculty of Science in Utrecht is the largest of its kind in the Netherlands, with the IMAU as one of the very few research institutes in the world that addresses all components of the climate system - atmosphere, oceans, cryosphere and biosphere - and their interactions. The Climate Physics programme is closely integrated with te PhD programme of the Buys Ballot Research School (BBOS) which is led by IMAU. This relationship results in a stimulating, challenging, friendly environment in which students and staff often know eachother personally.

This programme aims to train students to become researchers with a solid grounding and focuses on the fundamental physical processes that make up the Earth's climate system.

Utrecht University offers a stimulating academic environment in which undergraduates actively participate in exciting projects and ongoing research. The teaching staff are all leading experts in components of the climate system from the Institute for Marine and Atmospheric research Utrecht (IMAU). Besides lectures, field excursions and computer and laboratory experiments, participating in a sea-going scientific expedition may also be part of your programme.

The Faculty of Science in Utrecht is the largest of its kind in the Netherlands, with the IMAU as one of the very few research institutes in the world that addresses all components of the climate system - atmosphere, oceans, cryosphere and biosphere - and their interactions. The Climate Physics programme is closely integrated with te PhD programme of the Buys Ballot Research School (BBOS) which is led by IMAU. This relationship results in a stimulating, challenging, friendly environment in which students and staff often know eachother personally.

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We engage in fundamental research in atmospheric science, both independently and in cooperation with federal and provincial laboratories and other research groups around the world. Read more

General Information

We engage in fundamental research in atmospheric science, both independently and in cooperation with federal and provincial laboratories and other research groups around the world. The emphasis of the research is on studies of processes and developing physical understanding of the atmosphere. The research commonly involves field or laboratory measurement and observation; data analysis and interpretation; and numerical model construction, modification and validation.

Quick Facts

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

Program Description

Programs leading to the M.Sc. and Ph.D. degrees are offered under the joint sponsorship of the Department Earth, Ocean and Atmospheric Sciences and the Department of Geography. There are also several biometeorology professors from the Faculty of Land and Food Systems who can also supervise Atmospheric Science students.

Theoretical knowledge is an important part of this program and a wide range of courses are available. Courses can also be taken from outside of this list.

The M.Sc. thesis based program consists of twelve credits of thesis, 18 credits of course work and a thesis defence. Average time to completion is two years. However, this is very much dependent on the student so completion may take longer.

The Co-op M.Sc. consists of ATSC 597, ATSC 598, six credits of ATSC 548 and 24 credits of additional coursework. Co-op M.Sc. students must also have identified in advance an employer who will pay a salary during the Co-op work terms, and must satisfy eligibility requirements set by the UBC Co-op Program. Students normally complete this degree within two years.

Finally there is also a course-based M.Sc. option. This consists of three credits of a major essay and 27 credits of additional coursework. Most fulltime students will complete within one year.

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Weather and climate are integral parts of the Earth system. The monitoring of meteorological variables, together with the knowledge and modelling of underlying processes, are key to understanding our interaction with the natural environment. Read more
Weather and climate are integral parts of the Earth system. The monitoring of meteorological variables, together with the knowledge and modelling of underlying processes, are key to understanding our interaction with the natural environment.

This programme provides comprehensive training in understanding, modelling and prediction of atmospheric processes; as well as the collection, management, supply and application of atmospheric data for the needs of a variety of public and private sectors. The course also demonstrates how these create opportunities or pose problems for the successful operation of natural and human systems. Our aim is that upon graduation you will be able to compete for careers in Meteorology and Climatology.

This well-established programme was developed in response to industry and research institution requirements for applied meteorologists and climatologists. This demand continues, partially due to the growing attention of the society to climate change, its mitigation and adaptation to it.

Skills gained

The programme aims to:

- Provide training in theoretical and applied aspects of atmospheric physics and dynamics, quantitative modelling techniques, -weather forecasting, climate prediction and observation of atmospheric processes
- Equip you with the skills of quantitative and statistical analysis with regards to atmospheric data processing and management
- Enable you to apply theoretical concepts and analytical techniques to the resolution of environmental and socio-economic problems that have an atmospheric origin
- Develop your independent research ability
- Convert participants with non-environmental backgrounds to applied meteorologists and climatologists
- Develop your communication skills using traditional and IT-based media

About the School of Geography, Earth and Environmental Sciences

The School of Geography, Earth and Environmental Sciences has a renowned history for international excellence in research and teaching.
Our postgraduate programmes are shaped by research that addresses global grand challenges across the fields of geography, planning, earth sciences, environmental science, occupational health and safety, and environmental and public health. With policy- and practice-focused teaching, all our programmes have high employability outcomes.
We offer excellent facilities for postgraduate study including extensive map and archive facilities, earth imaging laboratory, stable-isotope laboratory (SILLA), environmental library, fully digital drawing office, and state-of-the-art laboratories for environmental chemistry, sedimentology, ecology, groundwater and palaeobiology. Our diverse range of programmes will provide you with a thorough understanding of the discipline, high-quality training and skills development, and access to our expert staff and extensive facilities.
Our graduates go on to forge careers in areas that matter – from environmental consultancies and the hydrocarbon industries, to urban planning, policy roles in NGOs and government regulatory services – and make a real contribution to global challenges. Many graduates also go on to study for PhDs.

Funding and Scholarships

There are many ways to finance your postgraduate study at the University of Birmingham. To see what funding and scholarships are available, please visit: http://www.birmingham.ac.uk/postgraduate/funding

Open Days

Explore postgraduate study at Birmingham at our on-campus open days.
Register to attend at: http://www.birmingham.ac.uk/postgraduate/visit

Virtual Open Days

If you can’t make it to one of our on-campus open days, our virtual open days run regularly throughout the year. For more information, please visit: http://www.pg.bham.ac.uk

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About the course. -Join a world-class Department with internationally leading research. -Study at one of only four universities to be part of. Read more
About the course:
-Join a world-class Department with internationally leading research
-Study at one of only four universities to be part of
the Met Office Academic Partnership
-Work on a research project with one of over 30 industrial partners
-Gain hands-on experience through our field course, atmospheric observatory and professional forecaster training delivered by the Met Office

WHAT WILL YOU STUDY?

Sample modules:
-Atmospheric physics
-Operational forecasting systems and applications
-Hazardous weather
-Measurements and instrumentation
-Experiencing the weather field course

Please note that all modules are subject to change.

WHAT CAREER CAN YOU HAVE?

As one of our graduates, you will be well placed to pursue a scientific career in weather forecasting and meteorological research.
In recent years, our students have been recruited by the Met Office, MeteoGroup, FUGRO Geos, Arup, AIR and RMS. Others pursue careers associated with diverse aspects of environmental measurement, risk management and policy development.

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About the course. -Study at one of only four universities to have a Met Office Academic Partnership. -Join a Department with internationally leading research on weather and climate. Read more
About the course:
-Study at one of only four universities to have a Met Office Academic Partnership
-Join a Department with internationally leading research on weather and climate
-Take management modules at the triple-accredited Henley Business School
-Benefit from significant contact time with world-leading researchers during your dissertation project

WHAT WILL YOU STUDY?

Sample modules:
-Atmospheric physics
-Tropical weather systems
-Managing people and organisations
-Environmental data exploration and visualisation
-Remote sensing

Please note that all modules are subject to change.

WHAT CAREER CAN YOU HAVE?

As one of our graduates, you will be well placed to pursue a scientific career in weather forecasting and meteorological research.
In recent years, our students have been recruited by the Met Office, MeteoGroup, FUGRO Geos, Arup, AIR and RMS. Others pursue careers associated with diverse aspects of environmental measurement, risk management and policy development.

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About the course. -Study at one of only four universities to have a Met Office Academic Partnership. -Join a Department with internationally leading research on weather and climate. Read more
About the course:
-Study at one of only four universities to have a Met Office Academic Partnership
-Join a Department with internationally leading research on weather and climate
-Apply your skills to the problems of climate change and extreme weather
-Learn how to run and develop numerical models of the atmosphere and climate systems

WHAT WILL YOU STUDY?

Sample modules:
-Atmospheric physics
-Fluid dynamics
-Numerical modelling of the atmosphere and oceans
-Mid-latitude weather systems
-Global circulation of the atmosphere and oceans

Please note that all modules are subject to change.

WHAT CAREER CAN YOU HAVE?

As one of our graduates, you will be well placed to pursue a scientific career in weather forecasting and meteorological research.
In recent years, our students have been recruited by the Met Office, MeteoGroup, FUGRO Geos, Arup, AIR and RMS. Others pursue careers associated with diverse aspects of environmental measurement, risk management and policy development.

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The Department of Physics offers graduate programs leading to the Master of Science and Doctor of Philosophy degrees. The department carries out research in experimental and theoretical physics in the following fields. Read more
The Department of Physics offers graduate programs leading to the Master of Science and Doctor of Philosophy degrees. The department carries out research in experimental and theoretical physics in the following fields: atmospheric physics, geophysics, quantum optics, condensed matter physics, subatomic physics and astrophysics, and biological physics. The department has close ties with the Canadian Institute for Theoretical Astrophysics (CITA). This association enables our students to work and consult with leading theorists who are appointed to, or who are visiting, CITA.

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Our department offers programs in both physics and astronomy leading to MSc and PhD degrees. We have a vibrant core faculty of 30 researchers covering the areas of astronomy, condensed matter physics, medical physics, atmospheric physics and planetary science. Read more
Our department offers programs in both physics and astronomy leading to MSc and PhD degrees. We have a vibrant core faculty of 30 researchers covering the areas of astronomy, condensed matter physics, medical physics, atmospheric physics and planetary science.

Visit the website: http://grad.uwo.ca/prospective_students/programs/program_NEW.cfm?p=13

Fields of Research

• Astrophysics
• Condensed Matter
• Medical Physics
• Planetary Physics

How to apply

For information on how to apply, please see: http://grad.uwo.ca/prospective_students/applying/index.html

Financing your studies

As one of Canada's leading research institutions, we place great importance on helping you finance your education. It is crucial that you devote your full energy to the successful completion of your studies, so we want to ensure that stable funding is available to you.
For information please see: http://grad.uwo.ca/current_students/student_finances/index.html

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Our department offers programs in both physics and astronomy leading to MSc and PhD degrees. We have a vibrant core faculty of 30 researchers covering the areas of astronomy, condensed matter physics, medical physics, atmospheric physics and planetary science. Read more
Our department offers programs in both physics and astronomy leading to MSc and PhD degrees. We have a vibrant core faculty of 30 researchers covering the areas of astronomy, condensed matter physics, medical physics, atmospheric physics and planetary science.

Visit the website: http://grad.uwo.ca/prospective_students/programs/program_NEW.cfm?p=122

How to apply

For information on how to apply, please see: http://grad.uwo.ca/prospective_students/applying/index.html

Fields of Research

• Astrophysics
• Condensed Matter
• Medical Physics
• Planetary Physics

Financing your studies

As one of Canada's leading research institutions, we place great importance on helping you finance your education. It is crucial that you devote your full energy to the successful completion of your studies, so we want to ensure that stable funding is available to you.
For information please see: http://grad.uwo.ca/current_students/student_finances/index.html

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The MSc Climate Change. Read more
The MSc Climate Change: Environment, Science and Policy programme (please see separate description for the MA programme) enables those with degrees in geography, physical sciences, engineering, computer science, etc., to focus on specific issues relating to climate and other environmental change in the Earth system, in particular on anthropogenic influences on the terrestrial, hydrological and atmospheric environments.

Key benefits

- To expose students to current understanding of the processes and nature of environmental changes occurring in Earth’s terrestrial, hydrological and atmospheric environments, to understand the linkages and causes of these forcings, and to allow them to place this knowledge within the context of our understanding of both natural variability and Earth’s history of environmental changes over the period of human societies and before.

- To expose students to the methods used to examine the potential future consequences of current environmental changes, and the potential for future significant perturbations to the Earth environment, including changes to the carbon cycle, climate, to the planet’s hydrological regimes and to its land use and land cover.

- To enable students to evaluate environmental change research critically and with regard to the strengths and weaknesses and potential societal implications of the science.

- To allow students to develop research skills in the undertaking and presentation of environmental research, and to develop specialist skills in one or more of the research tools used to investigate such issues.

- To provide an understanding of the scientific evidence needed for policy makers and society to respond to the problems associated with global and regional environmental changes happening to the Earth system, and to understand the nature of the uncertainties involved in future predictions.

- To promote initiative and the exercise of independent critical judgement in identifying, analysing and providing answers to research questions at an advanced level.

- To develop relevant transferable skills embedded in the learning and assessment schemes in the programme.

Visit the website: http://www.kcl.ac.uk/study/postgraduate/taught-courses/climate-change-environment-science-and-policy-msc.aspx

Course detail

- Description -

This programme provides a focus on specific issues relating to climate and other environmental change in the Earth system, and in particular on anthropogenic influences on the terrestrial, hydrological and atmospheric environments, and their biological, physical and societal consequences. The course exposes you to:

(i) current understanding of the processes and nature of environmental changes occurring in Earth’s terrestrial, hydrological and atmospheric environments, to understand the linkages and causes of these forcings, and to allow them to place this knowledge within the context of our understanding of both natural variability and Earth’s history of environmental changes over the period of human societies and before; and

(ii) the methods used to examine the potential future consequences of current environmental changes, and the potential for future significant perturbations to the Earth environment, including changes to the carbon cycle, climate, to the planet’s hydrological regimes and to its land use and land cover.

Students following the programme can opt for either the Policy Pathway or the Science Pathway.

Part-time students: As part of your two-year schedule, plan to take the compulsory modules Methods for Environmental Research and Global Environmental Change 1 in your first year and Dissertation in your second year.

- Course format and assessment -

Compulsory taught modules are assessed by coursework-based methods (essays, presentations, practical writeups, online quizzes). Optional modules are assessed by coursework and occasionally by examination. The three-month written research dissertation is core and is based upon work conducted overseas or in the UK.

Career prospects

This MSc is designed to prepare you for a career in environmental change research, consultancy and/or policy development. It provides interdisciplinary research training for those going onto a PhD in environmental and/or Earth system science within King's or elsewhere, and students entering the job market immediately after graduation are expected to be highly marketable in three main areas: local and national governmental and non-governmental agencies (eg Environment Agency, County Councils, Nature Conservancies); environmental consultancies and businesses (eg environmental informatics providers; environmental businesses - including carbon trading; insurance; waste management and energy industries), and policy development organisations (eg such government departments as Defra). The Seminars in Environmental Research, Management and Policy module offers you the chance to hear and meet practitioners in many of these key areas.

How to apply: http://www.kcl.ac.uk/study/postgraduate/apply/taught-courses.aspx

About Postgraduate Study at King’s College London:

To study for a postgraduate degree at King’s College London is to study at the city’s most central university and at one of the top 20 universities worldwide (2015/16 QS World Rankings). Graduates will benefit from close connections with the UK’s professional, political, legal, commercial, scientific and cultural life, while the excellent reputation of our MA and MRes programmes ensures our postgraduate alumni are highly sought after by some of the world’s most prestigious employers. We provide graduates with skills that are highly valued in business, government, academia and the professions.

Scholarships & Funding:

All current PGT offer-holders and new PGT applicants are welcome to apply for the scholarships. For more information and to learn how to apply visit: http://www.kcl.ac.uk/study/pg/funding/sources

Free language tuition with the Modern Language Centre:

If you are studying for any postgraduate taught degree at King’s you can take a module from a choice of over 25 languages without any additional cost. Visit: http://www.kcl.ac.uk/mlc

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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

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The MSc program in Integrated climate system Sciences (ICSS) offers courses in all fields of climate system sciences. At present, the program allows the specialization in one of following three tracks. Read more

Why study Integrated Climate System Sciences in Hamburg?

The MSc program in Integrated climate system Sciences (ICSS) offers courses in all fields of climate system sciences. At present, the program allows the specialization in one of following three tracks:

• physics of the climate system;
• biogeochemistry of the climate system;
• climate related economics and social sciences.

All courses are held in English. Class size is limited to 20 students. Our research oriented study program has been accredited by ASIIN in 2010.

Six good reasons to apply at SICSS

• Be part of the Cluster of Excellence CliSAP at KlimaCampus Hamburg and study all aspects of the climate system.
• Benefit from a structured study program.
• Take the advantage of having the choice to give your study program either an "in-depth" or an "interdisciplinary" focus.
• Have access to an exciting environment conducive to science and education, and use the extraordinary resources at the KlimaCampus.
• Make use of our support program and prepare yourself for your chosen career field.
• Feel at home in an international atmosphere and enjoy living in Hamburg.

Curriculum for Integrated Climate System Sciences

Your curriculum for the two-year ICSS master`s program is subdivided into four semesters with mandatory courses, elective courses for specialization and the preparation of your master’s thesis. The curriculum starts from a firm basis in climate physics (and in particular climate modeling) but adds the equally important aspects of global and regional biogeochemical cycling and puts all this into a broader context, including economic as well as societal implications. SICSS courses comprise a wide range of atmospheric, hydrospheric, cryospheric, pedospheric and biospheric sciences, as well as introductions and specializations into economics, social geography, media sciences and conflict research to shed light on climate system science from different perspectives.

You will start your studies with mandatory courses in research skills, as well as natural and social science foundation courses in climate system sciences.
The main goal of the second semester is to broaden your knowledge across the climate science disciplines. You will choose courses from at least two of the three possible program tracks.
The third semester features the Climate Study Project, which includes an integrated seminar and a scientific writing course to prepare you for the master thesis. You will find your personal supervisor and work closely together with a CliSAP research group.
The fourth and final semester is reserved for the master’s thesis.

Please find more information on the curriculum on our website: http://www.clisap.de/grad-school/msc-program/your-curriculum/.

Your future career

Become a climate expert! Depending on your personal interests, you will be well prepared and equipped for an international career in both applied and fundamental research, as well as for positions in government or business.

After graduation our students successfully work as:
• researchers in the fields of natural, social and economic sciences, while maintaining a strong focus on the climate system and its past, present and future changes.
• consultants in the public service and private business sectors, and in non-governmental organizations.
• experts in national and international organizations working in the field of development cooperation.

Start your studies

The SICSS Office is your main contact for information and will support you with a comprehensive and practical “welcome service” by assisting with enrollment, visa application, health insurance, registration with local authorities, opening of a bank account and support in finding accommodations.

As an incoming master’s student you will receive support from a personal buddy. This personal buddy is one of the MSc ICSS students and will accompany you from the start of your travel and study planning to your arrival and during your first days in Hamburg. SICSS also offers an Orientation Week for all new first semester students, including information on your study program and excursions to climate-related institutions and sites.

Tuition fees and other costs

There are no tuition fees at the Universität Hamburg and foreign students who are enrolled do not pay tuition. However, there are other fees. The semester fee at the Universität Hamburg is currently 305 Euros. Upon receipt of the semester fee the university will issue your semester documents, including a pass for the public transport system in Hamburg. Upon your request, the SICSS Office will provide information about living expenses in Hamburg and Germany.

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Are you interested in working on solutions for these and other environmental issues? The Wageningen University Master Earth & Environment was born from the necessity of helping the next generations of scientists find solutions for the issues confronting the way we look after our planet, now and in the future. Read more

MSc Earth and Environment

Are you interested in working on solutions for these and other environmental issues? The Wageningen University Master Earth & Environment was born from the necessity of helping the next generations of scientists find solutions for the issues confronting the way we look after our planet, now and in the future. Within the programme you can specialise in Hydrology and Water Resources, Meteorology and Air Quality, Biology and Chemistry of Soil and Water or Soil Geography and Earth Surface Dynamics.

Programme summary

Planet Earth is a complex, interactive and fascinating system. Protected by a thin layer of atmosphere, it provides all the essentials needed to sustain life and support living organisms. Natural processes and human needs often clash, leading to a wide range of environmental issues. Water scarcity and quality, soil degradation , food supply , loss of biodiversity, vulnerability to severe weather, and climate change are just a few examples of key issues that need to be addressed urgently.

As a Wageningen University geoscientist, you study Planet Earth and its ability to sustain life. Using tools from physics, chemistry, biology and mathematics, you build a quantitative understanding of the composition, structures and processes of the Earth and its atmosphere; as well as its resources and the influence of human activity. Thus, you have an important role to play in improving natural resource management and in removing obstacles to sustainable development.

Your study of the Earth system largely focuses on gaining an understanding of the interdependent physical, chemical and biological processes, and developing models that describe these processes on relevant scales. You develop scenarios that describe expected local, regional and/or global changes and the time scale on which they will occur. The Wageningen MEE focuses on the Earth’s ‘Critical Zone’ -including the atmospheric boundary layer, where flows of energy and matter determine the conditions for sustaining life; hence its name: Earth and Environment.

Specialisations

• Hydrology and Water Resources
The focus of this specialisation is to study the effects of climate change and other influences on the water balance of catchments to support optimal land management when dealing with hydrological extremes.

• Meteorology and Air Quality
Would you like to contribute to further understanding of atmospheric processes and their relevance for weather and climate? In this specialisation you learn about physical-chemical processes, the composition of the atmosphere and the exchange between the atmosphere and earth's surface and meteorology.

• Biology and Chemistry of Soil and Water
This specialisation allows you to develop an in-depth understanding of chemical and biological processes and their interactions in soils and natural waters, and their role in the functioning of terrestrial and aquatic ecosystems in a world that faces increasing anthropogenic pressures. You learn how these insights can contribute to develop effective strategies for the preservation and restoration of soil and water quality, biodiversity, and the functioning of natural ecosystems and the services they provide.

• Soil Geography and Earth Surface Dynamics
This specialisation allows you to explore the spatial and temporal processes that are active in soils, landscapes and the wider earth system. It uses an integrative approach that combines biophysical and human elements to gain insight in past, present and future system dynamics.

The combination of specific discipline training and the Earth System approach prepares you for working on the scientific and societal questions of the future. You can also choose from a selection of elective courses, and we also offer a special variant in preparation for a PhD.

Your future career

The MSc Earth and Environment programme offers our graduate scientists excellent opportunities to develop their career in research or as a science professional at universities, research institutes and consultancies. Our graduates can be found all over the world, working as meteorologists, hydrologists, water quality scientists or soil scientists, to name but a few disciplines.

Are you interested in working on solutions for these and other environmental issues? The master programme was born from the necessity of helping the next generations of scientists find solutions for the issues confronting the way we look after our planet, now and in the future.

Alumnus Nick Gorski.
NIck Gorski came from Canada to Wageningen because of the excellent reputation the Netherlands has in the field of water. He conducted two thesis research projects during his time here. The first dealt with the fluxes of sediment-bound contaminants in a river basin in southwestern Turkey. The second involved the development of a new modelling methodology for heterogeneous flow and solute transport in unsaturated soils. “I had the opportunity to take classes, do field work and research in other countries. It was an excellent way to put theory into practice.” After graduating Nick went on to work for the KWR Watercycle Research Institute in Nieuwegein, the Netherlands.

Related programmes:
MSc Biology
MSc Climate Studies
MSc Environmental Sciences
MSc International Land and Water Management
MSc Plant Sciences.

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