280075 VU MA-ERD Functional Morphology (PI) (2022W)
Continuous assessment of course work
Labels
ON-SITE
Registration/Deregistration
Note: The time of your registration within the registration period has no effect on the allocation of places (no first come, first served).
- Registration is open from Mo 05.09.2022 00:00 to We 28.09.2022 23:59
- Registration is open from Mo 03.10.2022 00:00 to We 12.10.2022 23:59
- Deregistration possible until Su 16.10.2022 23:59
Details
max. 20 participants
Language: German, English
Lecturers
Classes (iCal) - next class is marked with N
06.10.2022: A. General introduction. B. Biomechanik (Seminar room 'Geochemie', 2C193 1.OG UZA II)
13.10.2022: Palaeobotany (C. Hofmann)
20.10.2022: Palaeobotany (C. Hofmann)
27.10.2022: Palaeobotany (C. Hofmann)
03.11.2022: Palaeobotany (C. Hofmann)
10.11.2022: Invertebrates (R. Nawrot)
17.11.2022: Invertebrates (R. Nawrot)
24.11.2022: Invertebrates (R. Nawrot)
01.12.2022: Invertebrates (R. Nawrot)
08.12.2022: Holiday
15.12.2022: Invertebrates (R. Nawrot)
12.01.2023: Vertebrates (J. Kriwet): Seminar room 'Geochemie', 2C193 1.OG UZA II
19.01.2023: Vertebrates (J. Kriwet): Seminar room 'Geochemie', 2C193 1.OG UZA II
26.01.2023: Vertebrates (J. Kriwet): Seminar room 'Geochemie', 2C193 1.OG UZA II
- Thursday 06.10. 13:00 - 17:00 Seminarraum Geochemie 2C193 1.OG UZA II
-
Thursday
13.10.
13:00 - 17:00
Mikroskopiepraktikum Geowissenschaften 2A205 2.OG UZA II
Seminarraum Geochemie 2C193 1.OG UZA II -
Thursday
20.10.
13:00 - 17:00
Mikroskopiepraktikum Geowissenschaften 2A205 2.OG UZA II
Seminarraum Geochemie 2C193 1.OG UZA II -
Thursday
27.10.
13:00 - 17:00
Mikroskopiepraktikum Geowissenschaften 2A205 2.OG UZA II
Seminarraum Geochemie 2C193 1.OG UZA II -
Thursday
03.11.
13:00 - 17:00
Mikroskopiepraktikum Geowissenschaften 2A205 2.OG UZA II
Seminarraum Geochemie 2C193 1.OG UZA II -
Thursday
10.11.
13:00 - 17:00
Mikroskopiepraktikum Geowissenschaften 2A205 2.OG UZA II
Seminarraum Geochemie 2C193 1.OG UZA II -
Thursday
17.11.
13:00 - 17:00
Mikroskopiepraktikum Geowissenschaften 2A205 2.OG UZA II
Seminarraum Geochemie 2C193 1.OG UZA II -
Thursday
24.11.
13:00 - 17:00
Mikroskopiepraktikum Geowissenschaften 2A205 2.OG UZA II
Seminarraum Geochemie 2C193 1.OG UZA II -
Thursday
01.12.
13:00 - 17:00
Mikroskopiepraktikum Geowissenschaften 2A205 2.OG UZA II
Seminarraum Geochemie 2C193 1.OG UZA II -
Thursday
15.12.
13:00 - 17:00
Mikroskopiepraktikum Geowissenschaften 2A205 2.OG UZA II
Seminarraum Geochemie 2C193 1.OG UZA II -
Thursday
12.01.
13:00 - 17:00
Seminarraum Geochemie 2C193 1.OG UZA II
Seminarraum Paläontologie 2B311 3.OG UZA II -
Thursday
19.01.
13:00 - 17:00
Seminarraum Geochemie 2C193 1.OG UZA II
Seminarraum Paläontologie 2B311 3.OG UZA II -
Thursday
26.01.
13:00 - 17:00
Seminarraum Geochemie 2C193 1.OG UZA II
Seminarraum Paläontologie 2B311 3.OG UZA II
Information
Aims, contents and method of the course
Module objectives: Students know the relationship between form and function. They are able to recognise and interpret causalities between the essential bauplans of organisms and their functions. Students know the mechanisms and patterns of evolutionary and adaptive processes that influence form and function.
Assessment and permitted materials
Three written tests after each thematic block:
1) Paleobotany: to be announced during the course (max. 40 points)
2) Invertebrata: to be announced during the course (max. 40 points)
3) Vertebrata: to be announced during the course (max. 40 points)
1) Paleobotany: to be announced during the course (max. 40 points)
2) Invertebrata: to be announced during the course (max. 40 points)
3) Vertebrata: to be announced during the course (max. 40 points)
Minimum requirements and assessment criteria
Students have to successfully complete three subtests according to a points system (40 points each). Dates will be announced during the course.
The course is completed positively if each of the subtests is passed with at least 21 points. Grading is then proportional to the total points of the three subtests (at least 63 points).
Unsubstantiated absence for a subtest will be graded with 0 points each. Only in justified exceptional cases can a separate substitute date be agreed for a missed subtest.
Attendance is compulsory and unconditionally on the first day of the course. Persons who have registered, but who are absent without good reason on the first day of the course will be excluded from the course.
The course is completed positively if each of the subtests is passed with at least 21 points. Grading is then proportional to the total points of the three subtests (at least 63 points).
Unsubstantiated absence for a subtest will be graded with 0 points each. Only in justified exceptional cases can a separate substitute date be agreed for a missed subtest.
Attendance is compulsory and unconditionally on the first day of the course. Persons who have registered, but who are absent without good reason on the first day of the course will be excluded from the course.
Examination topics
Examination material covers the topics presented in the lectures and exercises.
Reading list
Further readings:
1) Dutta, H.M. & Datta Munshi, J.S. (eds) 2000. Vertebrate Functional Morphology: Horizon of Research in the 21st Century. - Science publishers, 487 pages.
2) Kardong. K. 2015. Vertebrates: Comparative Anatomy, Function, Evolution. - McGraw Hill Higher Education, 794 pages.
3) Liem; K.F., Bemis; W., Walker, W. & Grande, L. 2000. Functional Anatomy of the Vertebrates: An Evolutionary Perspective. - S.Chand (G/L) & Company Ltd., 784 pages.
4) Radinsky, L.B. 1987: The Evolution of Vertebrate Design. - University of Chicago Press, 188 pages.
5) Thomason, J.J. /ed.) 1995. Functional Morphology in Vertebrate Paleontology. - Cambridge University Press, 277 pages.
1) Dutta, H.M. & Datta Munshi, J.S. (eds) 2000. Vertebrate Functional Morphology: Horizon of Research in the 21st Century. - Science publishers, 487 pages.
2) Kardong. K. 2015. Vertebrates: Comparative Anatomy, Function, Evolution. - McGraw Hill Higher Education, 794 pages.
3) Liem; K.F., Bemis; W., Walker, W. & Grande, L. 2000. Functional Anatomy of the Vertebrates: An Evolutionary Perspective. - S.Chand (G/L) & Company Ltd., 784 pages.
4) Radinsky, L.B. 1987: The Evolution of Vertebrate Design. - University of Chicago Press, 188 pages.
5) Thomason, J.J. /ed.) 1995. Functional Morphology in Vertebrate Paleontology. - Cambridge University Press, 277 pages.
Association in the course directory
Last modified: Th 31.10.2024 00:16