Marine Geosciences in Bremen
postgraduate program Master of Science Marine Geosciences Introduction October 13, 2017, University of Bremen Dr. Ulrike Wolf-Brozio
Study plan of the first year M.Sc. Marine Geosciences - Study plan 1st year (60 CP) Winter semester Summer semester Core Subject A (9 CP) selected module of C1 - C6 Core Subject A (6 CP) consecutive module of C7 - C12 Core Subject B (9 CP) selected module of C1 - C6 compulsory elective modules C1 Climate Change I: Fundamentals C2 Marine Environmental Archives: Methods C3 Biogeochemical Processes: Concepts C4 Marine Resources and Geotechnology I C5 Sedimentary Structures and Processes: Shelves and Passive Margins C6 Formation and Evolution of the Ocean Crust Core Subject B (6 CP) consecutive module of C7 - C12 Core Subject C (6 CP) consecutive module of C7 - C12 C7 Climate Change II: Models and Data C8 Marine Environmental Archives: Project C9 Biogeochemical Processes: Projects C10 Marine Resources and Geotechnology II C11 Sedimentary Structures and Processes: Active Margins C12 Convergent Margin and Intra-Plate Processes Core Subject C (9 CP) selected module of C1 - C6 Marine Field and Lab Practice (12 CP) Marine, coastal and marine-terrestrial field and/or laboratory exercises Master Conference (3 CP) Current geoscientific topics mandatory modules
Marine Geosciences: first year mandatory modules Master conference (3 CP): The aim of the module is to organize a student geosciences conference over two days. Marine field and lab practice (12 CP): A broad and open spectrum of field - and offshore marine courses is offered. Advanced training on how to analyse and interpret marine environmental archives and paleoceanographic and paleoclimatic records.
Marine Geosciences: compulsory elective modules in the first year Core subjects: Take three out of six core subjects offered. Each with a winter- (9 CP) and a summer term module (6 CP). Alternatives: If you are fluent in German one core subject can be taken from the postgraduate program MSc Geowissenschaften If you are well qualified in physics you can choose courses from the postgraduate program Environmental Physics (PEP) in the amount of 15 CP Please visit PEP-Environmental Physics New: the postgraduate program Physical Geography, Environmental History offers up to 8 places for students in Marine Geosciences / Geowissenschaften for some modules Msc-physical-geographyenvironmental-history Biogeochemical Processes Climate Change Marine Environmental Archives Marine Resources and Geotechnology Physics and Petrology of the Ocean Crust Sedimentary Structures and Processes
Syllabus CORE SUBJECTS, modules and courses BIOGEOCHEMISTRY Biogeochemical Processes: Concepts & Projects Biogeochemistry I Biogeochemistry II CLIMATE CHANGE Climate Change: Fundamentals & Models and Data The Role of High Latitudes Oceans in Climate Change Earth System Modelling Abrupt Climate Changes Modelling Past and Future Climate Changes
Syllabus CORE SUBJECTS, modules and courses MARINE ENVIRONMENTAL ARCHIVES Marine Environmental Archives: Methods & Projects Marine Ecosystems as Environmental Indicators Stable Isotopes and Trace Elements in Paleoenvironmental Research Environmental Magnetism Terrigenous Signals Marine Environmental Archives Project Stratigraphic Methods MARINE RESOURCES AND GEOTECHNOLOGY Marine Resources and Geotechnology I & II Gas Hydrates: Formation, Detection and Relevance Continental Margin Resources Applied Petroleum Geology Advanced Methods in Marine Geophysical Exploration Marine Geotechnology
Syllabus CORE SUBJECTS, modules and courses PHYSICS AND PETROLOGY OF THE OCEAN CRUST Formation and Evolution of the Ocean Crust & Convergent Margin and Intra-Plate Processes The Geophysics of Mid-Ocean Ridges and Abyssal Plains Microscopy of Rocks from the Ocean Basins Magmatic & Hydrothermal Processes at Mid-Ocean Ridges Geophysics of Active and Passive Continental Margins Mass and Energy Transfers Coupled to Plate Tectonics Geochemical Tracers in Petrogenetic and Geodynamic Studies SEDIMENTARY STRUCTURES AND PROCESSES Sedimentary Structures and Processes: Shelves and Passive Margins & Active Margins Sedimentary Structures and Processes: Passive Continental Margins Seismic and Acoustic Imaging of Sedimentary Structures Sedimentology and Ecology of Shelves Modelling of Sedimentation Processes and Tectonics Sedimentary Structures and Processes: Active Continental Margins
CP und SWS Workload core subjects: Winter: 9 CP and 5 hpw in 14 weeks of teaching = 270 h workload with 70 h lecture time within Summer: 6 CP and 5 hpw, but only10 weeks of teaching = 180 h workload with 50 h lecture time within rest: excursions, geoscientific project (3rd sem.)
Time frame core subjects Self-dependent learning only 5 h/module and week teaching lessons (morning or afternoon sessions) Not necessarily weekly scheduled courses Time for practical experience More flexible course management Your study performance Self-learning time > teaching hours Homework, more reading and learning Leaving presentation-dominated styles of teaching To more self-dependent and active learning
Marine Geosciences: second year overview 2nd year (60 CP) Summer sem. Winter sem. Geoscientific Project (15 CP) Initiation and management of a self-designed geoscientific project Master Thesis (30 CP) Geoscientific Research Seminar (15 CP) Development of a research concept for own master thesis (state of the art, scientific goals, methods and schedule) Geoscientific research project with thesis and colloquium
The 2nd year geoscientific project can either be a marine survey, a geomedia project, an internship or an external/ international research project in marine geosciences. The research seminar is about the development and presentation of research projects and prepares the students for their master thesis. The fourth semester is dedicated to thesis work. A colloquium completes the course.
Marine Geosciences time table Wintersemester MSc Marine Geosciences Time Monday Tuesday Wednesday Thursday Friday 8-9 9-10 10-11 11-12 12-13 05-MAR- 1-C4 Mar. Res. Geotec. Bach Bohrmann Fleckenstein Heuer Hinrichs Kasten Kopf Spieß Room no. 0340 05-MAR- 1-C3 Biogeochem. Elvert Hinrichs Holtappels Kasten Mackensen Wegener Room no. 3020 05-MAR- 1-C1 Climate Change Paul Schulz Stein Room no. 1490 13-14 14-15 15-16 16-17 17-18 18-19 05-MAR- 1-C6 Phys. & Petrology Bach Klügel Perez Gussinyé Spieß Room no. 3020 05-MAR- 1-C2 Mar.Env.Arch. Bickert v. Dobeneck Mulitza Schefuß Zabel Room no. 3010 05-MAR- 1-C5 Sedimentology C.Fischer Henrich Rendle-Bühring Schwenk Spieß Room no. 3010 Modules: 5 hpw each, 15 resp. 18 hpw for a student depending on conference dates Please note: self organized learning should be more than double hpw
Marine Geosciences philosophy The interdisciplinary character of marine geosciences is reflected in a topic-oriented course structure. The program strongly emphasizes the understanding and modelling of processes and dynamics in natural systems.
We wish you a good start