Degree | Type | Year |
---|---|---|
2504604 Environmental Sciences | OB | 3 |
You can view this information at the end of this document.
There are no specific prerequisites.
This course explores the physical processes determining Earth's climate, focusing on anthropogenic climate change. It will study the components of the Earth's climate system and the history of climate change. It will also discuss how climate change is measured and evidenced through instrumental observations, documentary data, and environmental proxies. The causes of climate changes, including factors such as ocean currents, volcanic and solar activity, orbital variations, and greenhouse gases, will also be analyzed.
Additionally, the course will cover future climate prediction using global and local models. Finally, the Anthropocene era will be addressed, focusing on the impacts of global change related to temperature, sea level, and rainfall patterns, as well as on human population, economy, consumption, development, and energy and land use. The consequences of climate change, including pollution, migrations, biodiversity, food security, and health will be discussed.
By the end of the course, students should be able to understand the scientific foundations of climate change, climate variability, and various basic climate phenomena, the reliability of climate predictions, and their consequences. This course aims to provide basic insights into the Earth's climate system and how its functioning affects and is affected by human activities.
Title | Hours | ECTS | Learning Outcomes |
---|---|---|---|
Type: Directed | |||
Lectures | 38 | 1.52 | CM46, KM57, KM58, SM55 |
Practicum | 10 | 0.4 | CM44, CM46, KM57, KM58, SM55 |
Type: Supervised | |||
Tutoring sessions | 2 | 0.08 | CM44, SM55 |
Type: Autonomous | |||
Readings | 86 | 3.44 | CM44, KM57, SM55 |
Lectures and discussion of topics in class between students and professors. The idea is to facilitate active and inclusive participation. The topics covered in class will be controversial points, current events, and local phenomena whenever possible. The course will include other researchers in conferences in addition to the formal lectures.
The course will also include practical cases, solving exercises in the classroom, and the completion of a group project related to the causes and consequences of climate and global change.
Annotation: Within the schedule set by the centre or degree programme, 15 minutes of one class will be reserved for students to evaluate their lecturers and their courses or modules through questionnaires.
Title | Weighting | Hours | ECTS | Learning Outcomes |
---|---|---|---|---|
First term exam | 35/100 | 2 | 0.08 | CM44, CM46, KM58, SM55 |
Project and presentation | 30/100 | 10 | 0.4 | CM44, KM57, KM58, SM55 |
Second term exam | 35/100 | 2 | 0.08 | CM44, CM46, KM58, SM55 |
70% of the final grade is calculated based on the average grades from two independent midterm exams.
The remaining 30% of the final grade corresponds to the grade for submitting and presenting a group project on the impacts of climate change and/or global change.
To pass the course, the average grade must be equal to or greater than 5 (out of 10), and the grade for each midterm exam must be equal to or greater than 3.5 (out of 10). Otherwise, each assessment with a grade below 3.5 must be retaken in the recovery exam. To attend the recovery exam, the student must have previously been assessed in continuous assessment activities equivalent to 2/3 of the final grade.
Single evaluation: The single evaluation consists of a single exam covering all the theoretical content of the course. The exam will be held on the same date scheduled for the second midterm exam, and the same recovery system will apply as for the continuous evaluation. In any case, the student must have completed and submitted the project. The grade of the single exam must be equal to or greater than 3.5 for it to be averaged with the project's grade in the final grade.
The final grade will be NOT EVALUATED if the student has not attended any of the exams.
Sixth IPCC Report: "The Physical Science Basis".
https://www.ipcc.ch/report/ar6/wg1/
Global Physical Climatology, D.L. Hartmann, Academic Press
https://bibcercador.uab.cat/permalink/34CSUC_UAB/1eqfv2p/alma991008482769706709
Atmosphere, ocean, and climate dynamics: an introductory text, John Marshall and R. Alan Plumb.
https://bibcercador.uab.cat/permalink/34CSUC_UAB/1eqfv2p/alma991010898081306709
Physics of climate, José P. Peixoto and Abraham H. Oort
https://bibcercador.uab.cat/permalink/34CSUC_UAB/1eqfv2p/alma991007575649706709
Intro to R
https://datacarpentry.org/R-ecology-lesson/
Intro to Python
Apart from the basic software, the rest will be free software, such as R or Python.
Name | Group | Language | Semester | Turn |
---|---|---|---|---|
(PAUL) Classroom practices | 1 | Catalan/Spanish | second semester | morning-mixed |
(PAUL) Classroom practices | 2 | Catalan/Spanish | second semester | morning-mixed |
(TE) Theory | 1 | Catalan/Spanish | second semester | morning-mixed |