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Climate Change and Environmental Risk

Code: 104246 ECTS Credits: 6
2024/2025
Degree Type Year
2503710 Geography, Environmental Management and Spatial Planning OB 2

Contact

Name:
Peter Graham Mortyn
Email:
graham.mortyn@uab.cat

Teaching groups languages

You can view this information at the end of this document.


Prerequisites

Successful completion of the Physical Geography course.


Objectives and Contextualisation

To describe the functioning and operation of the climatic system from the knowledge and the understanding of the fundamental concepts of climatology. This subject considers atmospheric general circulation, introduced in the first course of Physical Geography. It includes the analysis of the terrestrial climatic system and the study of the factors and the elements of the climates of the Earth, and of the mechanisms that describe its climatic diversity. As detailed more during the first days of class, the subject also includes an obligatory field trip to a weather observatory.

 


Learning Outcomes

  1. CM15 (Competence) Propose actions to combat climate change by identifying the social and spatial consequences of its effects.
  2. KM22 (Knowledge) Distinguish the main scientific positions on climate change from a global understanding of the climate system.
  3. SM19 (Skill) Use instrumental and graphic data for the representation of climate analysis and its dynamics.

Content

Bloc 1. Introduction. The Atmosphere.

Bloc 2. Components of the climatic system.

Bloc 3. Solar radiation and temperature.

Bloc 4. Humidity, clouds, and precipitation.

Bloc 5. Atmospheric pressure and winds. General atmospheric circulation.

Bloc 6. Regional study of climate. Climatic classifications.

Bloc 7. Climatic changes.

Bloc 8. The role of the global ocean.

Bloc 9. Past climatic changes from geologic archives.

Bloc 10. Field trip.


Activities and Methodology

Title Hours ECTS Learning Outcomes
Type: Directed      
Directed activity (theoretical class) 30 1.2 CM15, KM22, SM19, CM15
Practical sessions 17 0.68
Type: Supervised      
Field Trip 4 0.16 CM15, KM22, SM19, CM15
Practical exercices 17 0.68 CM15, KM22, SM19, CM15
Tutorials 4 0.16
Type: Autonomous      
Practicals 50 2 CM15, KM22, SM19, CM15
Reading and study 25 1

  1. Lecture and discussion
  2. Individual student activity
  3. Small group activities and exercises
  4. Discussion and analysis
  5. Practical exercises
  6. Problem solving

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.


Assessment

Continous Assessment Activities

Title Weighting Hours ECTS Learning Outcomes
Theoretical quizzes 50 3 0.12 CM15, KM22, SM19
Writing Practicals 50 0 0 CM15, KM22, SM19

Continuous assessment

There is a written quiz at the conclusion of each block, whereby students have a range of questions (short essay answer) and a certain amount of flexibility and choice. There is also a practical exercise connected to each block topic. The overall course grade is determined by performance in both theoretical and practical portions (50% each). A minimum satisfactory performance (5 over 10) is required from each portion of the course, in order to successfully complete the class. 70% of the course material is required to be completed in order to be evaluated.

Plagiarism

VERY IMPORTANT: Partial or total plagiarising will immediately result in a FAIL (0) for the plagiarised exercise (first-year subjects) or the WHOLE SUBJECT (second-, third- and fourth-year subjects). PLAGIARISING consists of copying text from unacknowledged sources -whether this is part of a sentence or a whole text- with the intention of passing it off as the student's own production. It includes cutting and pasting from Internet sources, presented unmodified in the student's own text. Plagiarising is a SERIOUS OFFENCE. Students must respect authors' intellectual property, always identifying the sources they may use; they must also be responsible for the originality and authenticity of their own texts. http://wuster.uab.es/web_argumenta_obert/unit_20/sot_2_01.html

Reviewing grades

In carrying outeach evaluation activity, the professor will inform students (on Moodle) of the procedures to be followed for reviewing all grades awarded, and the date on which such a review will take place.


Bibliography

Bibliografia recomanada

El llibres en què es basa majoritàriament l’assignatura (i que es recomanen si se’n vol

adquirir algun, donada la seva qualitat i el seu preu raonable) és:

CUADRAT, J.M. & PITA, M.F. (2000), Climatología. Madrid, Cátedra

MARTIN VIDE, J. (2005). Los Mapas del Tiempo. Mataró, Davinci

 

Bibliografia complementària

BARRY, R. G. I PERRY, A. H. (1973), Synoptic Climatology. Methods and

Applications, London and New York, Methuen.

BATTAN, L. (1976), El tiempo atmosférico, Barcelona, Omega.

CATALA DE ALEMANY, J. (1986), Diccionario de Meteorología. Madrid, Alhambra.

CLAUSSE, R. Y FACY, L. (1968), Las nubes, Barcelona, Martínez-Roca.

DURAND-DASTES, F. (1972), Climatología, Barcelona, Ariel.

DURAND-DASTES, F. (1982), Geografía de los aires, Barcelona, Ariel.

ELSOM, P. (1990), La contaminación atmosférica., Madrid, Cátedra Geo menor.

FLOHN, H. (1968), Clima y tiempo, Madrid, Guadarrama.

GRIMALT , M. et al (1995). Els núvols. Guia de camp de l’atmosfera i previsió del

temps. Ed. El Mèdol. Tarragona.

HARDY, R., et al (1985), El libro del clima, Madrid, Blume.

HIDY, G. M. (1972), Los vientos. Los origenes y el comportamiento del movimiento

atmósferico, México, Reverté Mexicana.

HUFTY, A. (1984), Introducción a la Climatología, Barcelona, Ariel.

JORGE, J, Y RIVERA , J. (1992), Diccionari de Meteorologia. Barcelona , Universitat

Politècnica de Catalunya.

LONGLEY, R. W. (1973), Tratado ilustrado de Meteorología, Buenos Aires, Ed. Bell.

MARTIN VIDE, J. (1984), Interpretación de los mapas del tiempo, Barcelona, Ketres.

MARTIN VIDE, J. (1991), Fundamentos de Climatología analítica, Madrid, Ed.

Síntesis.

MARTIN VIDE, J. i OLCINA CANTOS, J. (1996), Tiempos y climas mundiales.

Oikos-Tau, Vilassar de Mar.

MEDINA, M. (1973), Introducción a la Meteorología, Madrid, Paraninfo.

MEDINA, M. (1976), Meteorología básica sinóptica, Madrid, Paraninfo.

MILLER, A.A. (1951), Climatologia, Omega, Barcelona.

PAGNEY, P. (1982), Introducción a la Climatología, Barcelona, Oikos-Tau.

PAPADAKIS, J. (1980), El clima, Buenos Aires, Albatros.

PEDELABORDE, P. (1970), Introduction a l'étude scientifique du climat, Paris,

SEDES.

PETTERSEN, P. (1976), Introducción a la Meteorología, Madrid, Espasa-Calpe.

SUREDA, V. (1986), La Climatologia . Col. Coneguem Catalunya 10. La Llar del

LLibre, Sant Cugat del Vallès.

TANK, H. J. (1971), Meteorología, Madrid, Alianza.

TOHARIA, M. (1983), Tiempo y clima, Barcelona, Salvat.

VIAUT, A. (1975), La meteorología, Vilassar de Mar, Oikos-Tau.

VIERS, G. (1975), Climatología, Vilassar de Mar, Oikos-Tau.

 

There will also be selected readings that come from journal articles during the course.


Software

Office


Language list

Name Group Language Semester Turn
(PAUL) Classroom practices 1 English first semester morning-mixed
(TE) Theory 1 English first semester morning-mixed