ECTS Course Catalogue
Course details
Course code:
BBS20183o13Semester:
2013/2014 winterName:
Biotechniques in animal reproductionMajor:
BiologyStudy Type:
second cycleCourse type:
compulsoryStudy Semester:
3ECTS points:
7Hours (Lectures / Tutorials / Other):
25 / 30 / 0Lecturer:
dr hab. inż. Wojciech Kruszyński; prof. dr hab. Ewa Łukaszewicz, dr Przemysław PokornyLanguage of instruction:
Polish / EnglishLearning outcomes:
Knowledge:
Student:
W1 – has the knowledge allowing to interpret the natural phenomena and processes in research work and practical activities [KB2_W01],
W2 - knows the research methodology obligatory in natural sciences [KB2_W01];
W3 - formulates research hypotheses and solves basic scientific problems [KB2_W01];
W4 - knows how to create an interesting multimedia presentation [KB2_W01].
W5 - knows methods of chemical and instrument al analysis, with special attention paid to physico-chemical basis [KB2_W01_BT];
W6 - has the knowledge of research methods and techniques used in laboratories [KB2_W01_BT];
W7 - knows the rules of biological material handling [KB2_W01_BT];
W8 - has the knowledge essential for laboratory equipment operating [KB2_W01_BT];
W9 - demonstrates advantages and disadvantages of particular analytical techniques [KB2_W01_BT];
W10 - describes the methods of mammals, birds and fish reproduction control [KB2_W09_BT];
W11 - has the knowledge in the field of embryos transfer, in vitro fertilization, control and induction of reproduction cycles, obtaining, maturation and culturing of oocytes, aided reproduction [KB2_W09_BT];
W12 - knows the basis of embryonic engineering [KB2_W09_BT].
Skills:
Student:
U1 – effectively and safely uses research apparatus and measurement devices used in biology. Is able to select suitable measurement devices and measure needed values of physiological and morphological features [KB2_U02];
U2 – uses the methods applied in laboratory analytics: optical, spectroscopic, electroanalytical, separation ones [KB2_U01_BT];
U3 - is able to assess factors influencing the result of laboratory analysis avoiding pre- and post-analytical mistakes [KB2_U01_BT];
U4 - interprets the results of laboratory analysis based on standards and reference values [KB2_U01_BT];
U5 - collects and interprets the data form analysis and formulates conclusions based on them [KB2_U01_BT].
U6 - assesses animals reproduction capacity [KB2_U010_BT];
U7 - controls the reproduction of animals and uses reproduction biotechnology (cryopreservation, sex control) [KB2_U010_BT];
U8 - uses techniques of aided birds reproduction in creation of genetic reserves of birds ex situ in vitro and in declining species protection [KB2_U010_BT];
U9 - conducts semen collection, spermatozoa assessment, and knows methods of females insemination in various mammal species [KB2_U010_BT];
U10 - is able to use the in vitro methods of embryos obtaining [KB2_U010_BT];
U11 - knows females artificial insemination methods [KB2_U010_BT].
Competences:
Personal and social competences:
Student:
K1 – demonstrates creativity and is able to determine priorities in task realization taking into account team work [KB2_K05];
K2 – obeys the rules of occupational health and safety in biological laboratories, demonstrating responsibility for an assessment of dangers resulting from research techniques used [KB2_K07];
K3 - demonstrates the care of creation of safe work conditions [KB2_K07].
Prerequisites:
anatomy, biochemistry, zoology, animal physiology, biology of animal growth and reproductionCourse content:
biological basis of the controlling of the reproduction of mammals, birds and fish, artificial insemination (collecting, analysis and treatment of semen and its introduction to the reproduction tract of a female), transfer of embryos (selection of donors and recipients, rinsing out of embryos, assessment, storage and introduction to the reproductive tract of recipients), extracorporal fertilization, controlling and development of reproduction cycles, controlling of the offspring sex on the level of gametes and embryos, controlling of fish sex, maturation and culture of oocytes, supported fertilization, extracorporal maturation of embryos, embryonic engineering. Recommended literature:
1. Bielańska-Osuchowska Z.: Embriologia, PWRiL, Warszawa 1993.
2. Bielański A., Tischner M., Biotechnologia rozrodu zwierząt gospodarskich. Universitas, Kraków 1993.
3. Bieniarz K., Epler P. (1991) Rozród ryb. AR Kraków.
4. Brylińska M. [red.] (2000) Ryby słodkowodne Polski. Wydawnictwo Naukowe PWN, Warszawa.
5. Cryopreservation and Freeze-Drying Protocols – Day J.G. and Stacey G.N. (eds.) Human Press, Totowa, New Jersey.
6. Krzymowski T. red. Biologia rozrodu zwierząt t. 2. Fizjologiczna regulacja procesów rozrodczych samicy. Wydawnictwo UMW, Olsztyn 2007.
7. Muir W.M., Aggrey S.E.: Poultry genetics, breeding and biotechnology. CABI Publishing.
8. Wierzchowski L., Biotechnologia zwierząt- PWN, Warszawa 1997.
Assessment methods:
Completion of the course: Completion of the lectures and exercises together, based on the average grade obtained from three separate sections (fish, bird and mammal) and student’s activity during classes. Written control tests (20-30 minutes per each section) concern the lectures and exercises. The presence on the exercises is compulsory, the student may have only one unauthorized absence. In the case of excused absences the student is required to pass the relevant part of the material.Comment:
specialization: Laboratory Techniques in Biology