Study plan for the Master's degree Biodiversität/Biodiversity 1st Semester Biodiv-M-1 Basic Biodiversity Biodiv-M- Methods of Biodiversity research Biodiv-M-3 Biodiversity in research and practice Biodiv-M-4 Scientific writing and Courses 10 Introduction to Phylogeny und Diversity Introduction to Phylogeny und Diversity he Basics of Evolution und Ecology he Basics of Evolution und Ecology 7 Methods of Biodiversity research Methods of Biodiversity research 6 Lecture series Biodiversity Obligatory s Elective s ype of X Lecture (L) 3 X Seminar (S) Category Admission requirements Examinations relevant for grading Basics Oral exam 1 Basics X lecture Basics 3 X Seminar Basics X lecture Basics Written exam 1 5 X Übung (Ü) Basics X lecture Elective Courses for BA students OptionalbereichOP tb)/ Ergänzungsbereich (EB) Science Slam 4 X Seminar Elective Courses for BA students 7 Scientific writing X lecture Elective Courses Scientific writing 3 X Seminar Elective Courses Data X Seminar Elective Courses Courses Obligatory Elective (WP) ype of Category erm paper and Poster 1 Admissionrequirement s Examinations relevant for grading Number of examinations Number of examinations
nd Semester Biodiv-M-5 Basic module Phylogeny, Systematics, axonomy Biodiv-M-6 Phylogeny, Systematics, axonomy Biodiv-M-7 Basic module Functional Diversity and Diversity of Natural Systems Biodiv-M-8 Functional Diversity and Diversity of Natural Systems 3rd Semester Biodiv-M-9 Internship (heory and Practice of Scientific Work, Research Internships Abroad) 4th Semester Biodiv-M-10 Master project 9 Courses WP 5 (elective s 5) 6 Courses WP 6 (elective s 6) 9 Courses WP 7 (elective s 7) 6 Courses WP 8 (elective s 8) 9 X L & S or 6 X L & S or 9 X L & S or 6 X L & S or 7 Internship 7 X Interns hip (I) Specialisation s 1 & 3 Internet colloquium 3 X S Elective Courses Optionalbereich/ Ergänzungsberei ch s 1 & 8 Master thesis 8 X Specialisation s 1-9 Master colloquium Specialisation s 1-9 * If the Science Slam takes place at another location, the examination will take place there. and oral exam and oral exam minutes 1 1 1 Master thesis 1 Oral exam 1
Elective s in the nd semester All modules of the second semester are assigned to the elective area. he module Biodiversity M-5 (basic module) and the module Biodiversity M-6 (supplementary module) can be selected from the specialisation area "Phylogeny, Systematics and axonomy". In this case each module can be a basic or a supplementary module. o complete a basic module, an oral exam must be passed in addition to the actual exam. his oral examination has a learning expenditure of 90 hours, therefore it is credited with 3 credit points. he specialisation area "Phylogeny, Systematics and axonomy" includes the following elective modules: Application of Next Generation Sequencing (NGS) Diversity of Fungi Diversity of Plants Ecology, Evolution and Biodiversity of Invertebrates I Ecology, Evolution and Biodiversity of Invertebrates II Population Genetics and Phylogeny I Population Genetics and Phylogeny II he module Biodiversity M-7 (basic module) and the module Biodiversity M-8 (add-on module) can be selected from the specialisation area "Functional Diversity and Diversity of Natural Systems". In this case each module can be a basic or a supplementary module. In order to complete a basic module, an oral exam must be passed in addition to the actual exam. his oral examination has a learning expenditure of 90 hours, therefore it is credited with 3 credit points. he specialisation area "Functional Diversity and Diversity includes the following elective modules: Parasitology Freshwater Ecology (Limnology) errestrial Ecology Comparative Sensory Ecology and Ethoendocrinology Flora and vegetation of Central Europe Behavioral Physiology Behavioral Ecology and Socio Ecology of coral reefs I Ecology of coral reefs / Sinai, Egypt In addition, modules from the cross-sectional area can also be accredited as complementary modules in the specialisation areas "Functional Diversity and Diversity and "Phylogeny, Systematics, axonomy" he cross-sectional area includes the following elective modules: Mathematical models in Biodiversity communicate he learning objectives, contents, admission requirements and respective examination modalities are described in the module handbook in the respective current version.
Description of the study and educational objectives of the individual modules Higher study objectives Qualification objectives in terms of learning outcomes Biodiv-M-1 Basic Biodiversity systematically present complex connections between different organisational levels of biodiversity Biodiv-M- Methods of Biodiversity research Biodiv-M-3 Biodiversity in Research and Practice systematically present complex connections between different organisational levels of biodiversity
Biodiv-M-4 Scientific writing and systematically present complex connections between different organisational levels of biodiversity Biodiv-M-5 Basic module Phylogeny, Systematics, axonomy Biodiv-M-6 Phylogeny, Systematics, axonomy independently apply modern methods and work techniques of in laboratory and
Biodiv-M-7 Basic module Functional Diversity and Diversity of Natural Systems Biodiv-M-8 Functional Diversity and Diversity of Natural Systems Ability to systematically present complex biological connections and classify into the context of existing research results and independently apply modern methods and work techniques of in laboratory and independently apply modern methods and work techniques of in laboratory and independently apply modern methods and work techniques of in laboratory and
Biodiv-M-9 Internship (heory and Practice of Scientific Work, Research Internships Abroad) Biodiv-M-10 Master project independently apply modern methods and work techniques of in laboratory and independently carry out research projects with appropriate methods and work techniques analyse results, critically and objectively interpret outcomes, place results in a scientific and social context independently apply modern methods and work techniques of in laboratory and independently carry out research projects with appropriate methods and work techniques analyse results, critically and objectively interpret outcomes, place results in a scientific and social context