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98084 - Agrometeorology, Soil Physics and Agricultural Ecology.

Academic Year 2025/2026

                
                        Docente:
                        Marco Bittelli
                    
                        Credits:
                        6
                    
                        SSD:
                        AGR/02
                    
                        Language:
                        Italian
                    
                        Teaching Mode:
                        In-person learning (entirely or partially)
                        
                            Campus:
                            Bologna
                        
                            Corso:
                            First cycle degree programme (L) in
                            Land and Agro-Forestry Technologies (cod. 5831)

                            Teaching resources on Virtuale
                        
                                    Course Timetable
                                
from Sep 15, 2025 to Dec 17, 2025

Learning outcomes

At the end of the course the student knows the basics of ecology, the main meteorological quantities and the interactions between plant organisms in agro-ecosystems. It is able to carry out measurements and processing of meteorological and climatic data, calculate water balances and the water requirements of the main crops. It is able to collect, interpret and communicate data and information to formulate autonomous judgments and reflections on current environmental issues of agricultural interest and on eco-sustainable agriculture.

Course contents

Introduction

1. Fundamentals of solar radiation. Electromagnetic spectrum, blackbody radiation, emissivity, albedo, cosine law, radiation attenuation, spectral distribution of blackbody radiation.

2. Radiative fluxes (solar angles, declination, solar traces, direct and diffuse radiation, irradiance, emissivity, absortivity). Measurement of solar radiation (radiometers, pyranometers). Use of software for estimating solar radiation at a territorial level.

3. Temperature, temperature measurement, temperature and heat fluxes in the soil, temperature and biological development, thermal sums.

4. Water vapor and other gases. Concepts of saturated and unsaturated vapor pressure, dew point.

5. Relationship between water, organisms and their environment. Water potential and content, potentials in organisms and the environment, relationships between liquid and gas phases.

6. Wind. Atmospheric boundary layer, turbulence, vortices, vectors.

7. Mass and energy transport in biophysical systems. Conductances.

8. Water movement in soils.

9. Plants and plant communities.

10. Milankovitch cycles. Greenhouse gases, paleoclimate measurements, terrestrial energy balance.

Readings/Bibliography

Soil Physics with Python (Bittelli, Campbell and Tomei). Oxford University Press (ISBN: 9780198854791)

An Introduction to Environmental Biophsyics (Campbell and Norman). Springer (ISBN: 0387949372)

Class notes and computer codes

Teaching methods

Lessons in class, computer exercises, lab and field training.

Assessment methods

Written and oral exam. The written exam will consist of six questions, each worth 5 points. The oral exam will be held the day after the written exam, subject to successful completion.

Teaching tools

Algoritmi e modelli

Links to further information

https://marcobittelli.it

Office hours

See the website of Marco Bittelli