Module also offered within study programmes:
General information:
Name:
Ore petrology - advanced
Course of study:
2017/2018
Code:
BGG-2-207-EG-s
Faculty of:
Geology, Geophysics and Environmental Protection
Study level:
Second-cycle studies
Specialty:
Economic Geology
Field of study:
Mining and Geology
Semester:
2
Profile of education:
Academic (A)
Lecture language:
English
Form and type of study:
Full-time studies
Course homepage:
 
Responsible teacher:
mgr inż. Zygo Władysław (wzygo@geol.agh.edu.pl)
Academic teachers:
prof. dr hab. inż. Piestrzyński Adam (piestrz@geol.agh.edu.pl)
dr hab. Prsek Jaroslav (prsek@yahoo.com)
Module summary

Students work on microscopes examine samples from various ore deposits and prepare project.

Description of learning outcomes for module
MLO code Student after module completion has the knowledge/ knows how to/is able to Connections with FLO Method of learning outcomes verification (form of completion)
Skills
M_U001 Student is able identify selected ore minerals using reflected light microscope. GG2A_U09 Project
M_U002 Student is able to describe processes connected with mineral deposits using reflected light microscope. GG2A_U09 Project
Knowledge
M_W001 Student have advanced knowledge on ore petrology necessary for description of processes connected with ore deposits. GG2A_W01 Project
M_W002 Student have advance knowledge on ore minerals occurring in selected mineralization types GG2A_W01 Examination,
Test
FLO matrix in relation to forms of classes
MLO code Student after module completion has the knowledge/ knows how to/is able to Form of classes
Lecture
Audit. classes
Lab. classes
Project classes
Conv. seminar
Seminar classes
Pract. classes
Zaj. terenowe
Zaj. warsztatowe
Others
E-learning
Skills
M_U001 Student is able identify selected ore minerals using reflected light microscope. - - + - - - - - - - -
M_U002 Student is able to describe processes connected with mineral deposits using reflected light microscope. - - + - - - - - - - -
Knowledge
M_W001 Student have advanced knowledge on ore petrology necessary for description of processes connected with ore deposits. - - + - - - - - - - -
M_W002 Student have advance knowledge on ore minerals occurring in selected mineralization types - - + - - - - - - - -
Module content
Laboratory classes:

Different ore minerals should be determine by the individual students. Advanced knowledge on mineral processes, structures and textures. Individual project related to the genesis of a selected mineral deposit.

Student workload (ECTS credits balance)
Student activity form Student workload
Summary student workload 60 h
Module ECTS credits 2 ECTS
Participation in auditorium classes 30 h
Preparation for classes 15 h
Completion of a project 15 h
Additional information
Method of calculating the final grade:

Average grade from two Projects

Prerequisites and additional requirements:

Student must have graduated ore petrology course.

Recommended literature and teaching resources:

1. Pracejus B. (2008) – Ore Minerals Under the Microscope An Optical Guide
2. Ramdohr, P. (1969). The ore minerals and their intergrowths
3. Uytenbogaardt W., Burke E.A.J. (1971) – Tables for microscopic identification of ore minerals
4. Chovan ed. 1994: Ore Textures in the Western Carpathians, Slovak Academy Press, 219p

Scientific publications of module course instructors related to the topic of the module:

JOANNA KOŁODZIEJCZYK   , JAROSLAV PRŠEK , PANAGIOTIS CH. VOUDOURIS , VASILIOS MELFOS  – Bi-sulphotellurides associated with Pb – Bi – (Sb ± Ag, Cu, Fe) sulphosalts: an example from the Stan Terg deposit in Kosovo. Geologica Carpathica, Volume 68 no. 4, 2017
Jaroslav PRŠEK, Martin Ondrejka, Peter Bačik, Bartosz Budzyń, Pavel Uher – Metamorphic-hydrothermal ree minerals in the Bacúch magnetite deposit, Western Carpathians, Slovakia: (Sr,S)-rich monazite-(Ce) and Nd-dominant hingganite /The Canadian Mineralogist ; ISSN 0008-4476. — 2010 vol. 48 iss. 1, s. 81–94.
A. PIESTRZYŃSKI, M. WENDORFF, M. Letsholo, W. Mackay – Platinum-group minerals in the neoproterozoic stratabound copper-silver mineralisation, the Kalahari Copperbelt, northwestern Botswana / South African Journal of Geology ; ISSN 1012-0750. — 2015 vol. 118 iss. 3, s. 275–284.
Jeleň S., Pršek J., Kovalenker V. A., Topa D., Sejkora J., Števko M., Ozdín D., 2012: Bismuth sulfosalts of the cuprobismutite, pavonite and aikinite series from the Rozália mine, Hodruša-Hámre, Slovakia. Can. Mineral., 50, 325-340.
Kołodziejczyk J., Prsek J., Asllani B., Maliqi F., 2016: The paragenesis of silver minerals in the Pb−Zn Stan Terg deposit, Kosovo: an example of precious metal epithermal mineralization Geology, Geophysics & Environment 42, 1, 19–29s.
Kołodziejczyk J. Prsek J., Voudoris P., Melfos V., Asllani B., 2016: Sn-bearing minerals and associated sphalerite from lead-zinc deposits, Kosovo: an electron microprobe and LA-ICP-MS study. Minerals, 6, 2, 42, 1–17
Kołodziejczyk J., Prsek J., Melfos V., Voudoris P. Ch., Maliqi F., Kozub-Budzyń G., Bismuth minerals from the Stan Terg deposit (Trepça, Kosovo) 2015: Neues Jahrbuch für Mineralogie.Abhandlungen ; vol. 192, 3, 317–333.

Additional information:

None