Metallogenesis

Code:

EMG0021

Acronym:

MET

Keywords
Classification	Keyword
OFICIAL	Earth Sciences

Instance: 2016/2017 - 2S

Active?	Yes
Web Page:	http://moodle.fe.up.pt/0708/course/view.php?id=100
Responsible unit:	Mining Engineering Department
Course/CS Responsible:	Bachelor in Mining and Geo-Environmental Engineering

Cycles of Study/Courses

Acronym	No. of Students	Study Plan	Curricular Years	Credits UCN	Credits ECTS	Contact hours	Total Time
LCEEMG	22	Plano de estudos oficial a partir de 2008/09	3	-	6	56	162

Teaching language

Portuguese

Objectives

This course aims to consolidate the fundamental concepts of Economic Geology and Sustainability in mineral resources. Once a concentration is only possible thanks to the happy chaining several geological processes is an approach the main types of ore deposits.

Learning outcomes and competences

It is intended that at the end of the UC Students have obtained the ability to view the metallogenic processes a holistic point of view based on recent conceptualizations around the notion of tectonic environment.

Working method

Presencial

Pre-requirements (prior knowledge) and co-requirements (common knowledge)

Geology. Mineralogy. Petrology.

 

Program

CHAP. I:Scientific foundations of a Global Metallogenesis.Mineral deposits to vol d'oiseau.

1. Geology, metallogenesis and ideologies over time. 2. Tectonic settings, fundamental concept of global metallogeny. 3. Tectonic settings and classification of mineral deposits. 4. Tectonic settings in the Precambrian.

 CHAP. II: DEPOSITS FORMED IN CONTINENTAL HOT SPOTS, RIFTS AND AULACOGEN

1. INTRACONTINENTAL HOT SPOTS TRACKS. 1.1 - Tectonic Setting. 1.1.1-Hot spot-related rifts.1.1.2. Collision-induced rifts. 1. 2 .  Mineral deposits. 1.2.1 -  Stratabound deposits in sedimentary sucessions. 1.2.2 - Evaporites. 1.2.3 - Deposits associated with magmatic rocks.
2. HOT SPOTS. 2.1 - Tectonic settings 2.2 - Mineral deposits 2.2. 1 -Tin and uranium mineralization associated with anorogenic hot spot granits. 2.2.2 - Apatite, magnetite, vermiculite and pyroclore mineralization associated  with hot spot carbonatites. 2.2.3 - Rift-related basic/ultrabasic intrusions with Cr-Ni-Pt-Cu mineralization.

 CHAP. III: DEPOSITS FORMED IN OCEAN SETTINGS

1. OCEANS RIDGES AND BASINS. 1.1 - Tectonic Settings. 1.2 - First metalogenetic consequences. 2.  Mineral deposits on ocean ridges and in ocean basins A - Hydrothermal metalliferous sediments of oceanic spreading systems; B - Hydrogenous manganese nodules of the ocean floor; C - Iron-Manganese sediments of the ridges.
2. OPHIOLITS. 2.1 - Stratiform pyritic copper sulphides: A – Troodos Massif, Cyprus; B - Lokken and Joma type sulphides; C - Alpes. 2.2 -Podiform chromite deposits in ultrabasic rocks. 2.3 -Others mineral deposits.
3. PASSIVE CONTINENTAL MARGINS. 3.1 - Phosphorites. 3.2 -Banded iron formations. 3.3 -Hydrocarbons: A - Petroleum; B - Natural gas. 3.4 - Carbonate-hosted lead-zinc deposits
4. INTRACONTINENTAL BASINS. 4.1- Minette-type ironstone. 4.2 - Mineral deposits of manganeses.

 

CHAP. IV — DEPOSITS FORMED IN PASSIVE CONTINENTAL MARGINS
1. PLACERES DEPOSITS: A – Rand.
2. RESIDUAL DEPOSITS OF CHEMICAL WEATHERING: A - New Caledonia; B – Moanda; C - Bauxite
3. CALICHES
4 - GOSSAN AND SUPERGENIC DEPOSITS

 CHAP. V — DEPOSITS OF SUBDUCTION- RELATED SETTINGS

1. TECTONIC SETTING
2. MINERAL DEPOSITS ON OUTER ARCS. 2.1 - Scottish Caledonides. 2.2. Tin-bearing granites of the outer zone, Japan
3. MAGMATIC ARCS. 3.1 -Porphyry Copper deposits. 3.2. Kuroko-type stratiform Zn-Pb-Cu sulphides. 3.3. Iberian Pyrite Belt.
4. BACK-ARC MAGMATIC BELTS. 4.1 - Vein-type deposits Cu-Au-Ag of Butte, Montana. 4.2 - Tin deposits of Bolivian. 4.3 - . Western Tin belt of Southeast Asia
5. BACK-ARC COMPRESSIVE CRATONIC BASINS. 5.1- Sandstone-type uranium deposits (roll-type). 5.2 - CoaL. 5.3 -Porphyry molybdenum deposits
6. BACK-ARC MARGINAL CRATONIC BASINS. Mineral deposits
7. INTERA-ARC TROUGHS. Mineral deposits

CAPITULO V – DEPOSITS OF COLLISON-RELATED SETTINGSO
1. REMNANT AND RESIDUAL OCEANS BASINS. 1.1 – Tectonic Settings. 1.2 Mineral deposits
2. SUTURE ZONES AND COLLISION-RELATED OPHIOLITE SHEETS. 2.1 - Tectonic Settings. 2.2 Mineral deposits .
3. HINTERLAND MARGIM OF THE OVERRIDING PLATE. 3.1 - Tectonic Settings. 3.2 Mineral deposits
4. FORELAND THRUST BELTS. 4.1 - Tectonic Settings. 4.2 Mineral deposits. 4.2.1. Pluton-associated hydrothermal deposits of tin and uranium: A- Tin and Uranium occurrences in Tertiary granits, Himalaias; B – The Central Tin Belt, SE-Asia; C – Hercynian tin granites, SW England D – Tin and Tungsten in late Hercynian granites, Portugal. A –Uranium mineralization in the Massif Central, France

Mandatory literature

Madureira C.M.N. e Futuro A.M.; Metalogénese Global

Complementary Bibliography

Stanley, C. J. 340; Mineral deposits. ISBN: 90-5809-068-X
Bateman, Alan M.; Economic Mineral Deposits
Bateman, Alan M.; The Formation of Mineral Deposits
Mitchell A.H.G; GarsonM.S; Mineral Deposits and Global Tectonic Settings, Academic Press, 1981. ISBN: 0-12-499050-9
Barnes, Hubert Lloyd 340; Geochemistry of Hydrothermal Ore Deposits. ISBN: 0-471-57144-X
Kuzvart, Milos; Prospecting and exploration of mineral deposits. ISBN: 0-444-99515-3
Pirajno, Franco; Hydrothermal mineral deposits. ISBN: 3-540-52517-3

Teaching methods and learning activities

All lessons are theoretical-practical, being verbal exposition of the contents to the students being always accompanied by audiovisual media. All lessons take place in the Museum of Mineral Deposits, so the samples of ores and minerals there are a resource used by students for the appropriation of the subjects that are being taught.

keywords

Technological sciences > Engineering > Geological engineering

Evaluation Type

Distributed evaluation with final exam

Assessment Components

Designation	Weight (%)
Exame	80,00
Participação presencial	10,00
Prova oral	0,00
Teste	0,00
Trabalho escrito	10,00
Total:	100,00

Amount of time allocated to each course unit

Designation	Time (hours)
Elaboração de relatório/dissertação/tese	10,00
Frequência das aulas	56,00
Total:	66,00

Calculation formula of final grade

 Examination will be the average components distributed assessment.

Distributed Component (CD): 60%

• CD1 - Monographs:  10%
• CD2 - Attendance - 10%

Exam - 80%

NF = 0.2* CD + 0.6 *Exam

 

Students whose note NF is less than 10, will undergo the 2ª examination .