Climatology
A.Y. 2024/2025
Learning objectives
The course will permit to the students to know the atmospheric processes and the climate system thus supporting their understanding of dynamics and evolution of natural phenomena. During the course will be explained methods and techniques to perform meteorological investigations and to analyse climate at both local and regional scale. The lectures will be scheduled in the classroom Moreover in the PC room some practical lectures will be done to give to the students the technical know- how to process and analyze meteo and climate data.
Expected learning outcomes
The students will acquire competence and skills for collecting, processing, analyzing and modelling meteorological data.
Lesson period: Second semester
Assessment methods: Esame
Assessment result: voto verbalizzato in trentesimi
Single course
This course can be attended as a single course.
Course syllabus and organization
Single session
Responsible
Lesson period
Second semester
Course syllabus
Introduction to Physical Climatology
Climate: definition
The solar system, its planets and their atmospheres
The Earth atmosphere: composition and features
Classification of Earth atmosphere
Processes and phenomena characterizing the lower atmosphere
Processes and phenomena characterizing the mean atmosphere
Processes and phenomena characterizing the upper atmosphere
The radiative terrestrial energy budget
The radiative atmospheric energy budget
Not radiative contributions to Earth energy budget
The greenhouse effect
Global warming: evidences and effects
Sub-surface energy fluxes: magnitude, measurements and features
The hydrological balance (terrestrial and atmospheric): definition and features
Introduction to meteorology
Weather stations
Instruments and sensor for meteorological studies
Accuracy and precision of meteo instruments
Analysis and processing of meteo data
Meteorological data base
Climate: definition
The solar system, its planets and their atmospheres
The Earth atmosphere: composition and features
Classification of Earth atmosphere
Processes and phenomena characterizing the lower atmosphere
Processes and phenomena characterizing the mean atmosphere
Processes and phenomena characterizing the upper atmosphere
The radiative terrestrial energy budget
The radiative atmospheric energy budget
Not radiative contributions to Earth energy budget
The greenhouse effect
Global warming: evidences and effects
Sub-surface energy fluxes: magnitude, measurements and features
The hydrological balance (terrestrial and atmospheric): definition and features
Introduction to meteorology
Weather stations
Instruments and sensor for meteorological studies
Accuracy and precision of meteo instruments
Analysis and processing of meteo data
Meteorological data base
Prerequisites for admission
Maths, Physics, Physical Geography
Teaching methods
The course will permit to the students to know the atmospheric processes and the climate system thus supporting their understanding of dynamics and evolution of natural phenomena. During the course will be given both lectures on the theoretical basis of Climatology and technical practical activities to understand how to manage and analyse climate and meteo data.
The practical activities will be done in the computer rooms (Labs) of UNIMI.
The practical activities will be done in the computer rooms (Labs) of UNIMI.
Teaching Resources
Slides of the lectures available at the ARIEL web site.
Assessment methods and Criteria
The exam will take place in oral form (vote out of thirty). The students can present an original work they performed by analyzing climate and/or meteo data or they can discuss a paper (dealing with a climatological topic) they have selected on an international peer reviewed journal. After this presentation, the teacher makes a list of questions with the aim of evaluating how much of the used methodologies have been assimilated by the student and how much the student is able to critically approach the investigated problem (in case of data analysis), or evaluating how much of the presented methodologies have been assimilated by the student critically discussing the results (in case of the peer reviewed paper). Finally the teacher makes a couple of questions about the other part of the program.
GEO/04 - PHYSICAL GEOGRAPHY AND GEOMORPHOLOGY - University credits: 6
Lessons: 48 hours
Professor:
Senese Antonella
Shifts:
Turno
Professor:
Senese AntonellaProfessor(s)