NIGK21003U Early Earth - Formation and History
MSc Programme in Geology-Geoscience
Geochemical evolution of Earth from 4.6 Ga to 2.5 Ga; geochemistry and mineralogy of Earth components
(core, mantle, crust), high temperature geochemical processes; short and long-lived isotopic tracers and their use for constraining the evolution and differentiation history of the early Earth via study of relevant meteorites; origin and distribution of the elements; geochemical cycles in the crust and mantle. Delineation of potential mutual relationships between major impact events, initiation of dynamic crust-mantle interaction processes, and evolution of life during periods of early Earth.
Special focus will be on the origin and distribution of the elements in the solar system and Earth’s early reservoirs (core, mantle, crust), on the geochemical evolution and formation of major magmatic, plutonic and sedimentary rocks on Earth from 4.6 Ga to 2.5 Ga, and on the validity and power of combined applications of dating and isotopic tracers systems for constraining the evolution of early Earth’s reservoirs. Knowledge of the geochemistry of major classes of meteorites and their relationship to the origin and evolution of the Earth and the solar system will underscore the necessity of the study of extraterrestrial materials for constraining the early Earth’s formation.
- Geochemical evolution of Earth during the Hadean and Archean, from 4.6 Ga to 2.5 Ga
- Geochemistry of early Earth’s major reservoirs (core, mantle, crust) and use of (isotope-) geochemical signatures for answering specific questions regarding the reconstruction and tracing of Earth’s early evolution
- Important relevant short and long-lived isotopic tracers that contribute(d) to the temporal evolution of Earth and to the understanding of the formation and early differentiation of early Earth’s reservoirs
- Geochemistry of major meteorite classes and their relationship to the origin and evolution of the Earth and solar system
- Understanding, summarizing and presenting modern scientific research contributions that sign as benchmark studies for the formation and evolution of early Earth
- Demonstration of an understanding of the processes that led to the Earth’s formation and its prime differentiation
- Description of the general characteristics of the different geochemical reservoirs within the Earth, and the interplays between them
- Knowledge of the chemical and mineralogical variations within the early Earth’s geochemical reservoirs in terms of geochemical processes that today operate in modern plate tectonic scenarios, lithospheric recycling and geodynamics.
- Ability to recite the milestones in Earth’s early evolution and to understand the processes that led to the Earth’s formation and its prime differentiation and the chronology of these events
- be familiar with the past processes that led to the structure of the Earth’s crust-mantle-core system
- describe the general characteristics of the different geochemical reservoirs within the Earth, the interplays between them, and explain these within the framework of the evolution of the planet
See Absalon for a list of course literature.
Direct feedback during confrontation times
- 7,5 ECTS
- Type of assessment
- Written assignment, Two weeksOral examination, 20 minutesThe students randomly draw a written assignment two weeks before the hand-in deadline of the assignment. The oral exam uses the written assignment as its point of departure. It includes the titles listed in the officially approved reading list. A combined grade is given after the oral exam.
- Without aids
All aids allowed when working on the written assignment.
No aids allowed at the oral examination. The students can bring a copy of handed in report.
- Marking scale
- 7-point grading scale
- Censorship form
- No external censorship
Several internal examiners.
The same as the ordinary exam.
Criteria for exam assesment
See Learning Outcome
- Course code
- 7,5 ECTS
- Full Degree Master
- 1 block
- Block 2
- Course capacity
- Course is also available as continuing and professional education
- Study board
- Study Board of Geosciences and Management
- Department of Geoscience and Natural Resource Management
- Faculty of Science
- Robert Frei (7-75726568757769436c6a71316e7831676e)