- Docente: Francesca Ventura
- Credits: 6
- SSD: AGR/02
- Language: Italian
- Teaching Mode: Traditional lectures
- Campus: Bologna
-
Corso:
First cycle degree programme (L) in
Agricultural Technology (cod. 8524)
Also valid for First cycle degree programme (L) in Land and agro-forestry Sciences (cod. 8525)
Learning outcomes
At the end of the course the student knows the main meteorological parameters and is able to carry out measurements with the most suitable instruments and process the results as well as calculate water balances and the water requirements of the main crops. The student also acquires the basic knowledge of ecology to define its role in agricultural sciences and has mastered the concepts of interaction between plant organisms in agro-ecosystems to define the conditions of eco-sustainable agriculture; finally he learns the elements to elaborate his own opinion on the current environmental problems of agricultural interest.
Course contents
Introduction to the course
Units of measurement, applications in the agrometeorological field of the problem of measurement and errors 2h
- Agrometeorology
Meteorological factors of agricultural interest (temperature, humidity, precipitation, wind, etc.). 4h
Atmosphere, composition and dynamics 2h
Solar radiation and radiation laws. 2h
Energy and radiative balance applied to crops. 2h
Instrumentation and use of instruments. 2h
Agrometeorological station and measurement networks. 2h
Evaporation and evapotranspiration. 4h
The hydrological cycle and the water balance. 2h
Climate and climate indexes, climates of Italy. 2h
Climate change, adaptation and mitigation to the new climate. 2h
- Agricultural Ecology
Ecology references. Definitions of ecological niche, habitat, biotope, biomes. 2h
Ecological significance of interactions between organisms: competition, resistance, resilience of an ecosystem. 2h
Determination of growth of plants in crops. 2h
- Applications to agriculture
Protection from frost. 2h
Hailstorm. 2h
Phenology and degree days. 2h
Plant-soil-atmosphere relations: stomata. 2h
Plant-soil-atmosphere relations: photochemical smog. 2h
Phytodepuration. 2h
Environmental monitoring, land degradation and strategies to prevent it. 2h
Declinations of agriculture: precision, conservative, biological. 2h
there will be also 4 hours of field work and 10 of classroom exercises on all the topics
Readings/Bibliography
AGROMETEOROLOGIA
• Ventura F., Rossi Pisa P., 2006. Strumenti per l'agrometeorologia. Aracne Editrice, Roma.
(http://www.aracneeditrice.it/aracneweb/index.php/catalogo-aracne.html)
• Ceccon P., Borin M.: Elementi di Agrometeorologia e Agroclimatologia, IMPRIMITUR, 1995;
o alternativamente
• Benincasa F., Maracchi G., Rossi Pisa P.: Agrometeorologia, Patron, 1993.
ECOLOGIA AGRARIA:
• Baldoni G., Ecologia ed Agricoltura, Edagricole, Bologna, 1998
o alternativamente
• Vazzana C., Ecologia Vegetale Agraria, 1998, Pàtron ed. Bologna
Assessment methods
Exam: written test lasting 1h without the help of notes or books.
The written test consists of 6 exercises and open questions.
Each question allows you to get a maximum score of 5 points. To be eligible for the oral examination, a minimum score of 18 points must be obtained in the written test.
Exercises are performed in classroom, as training for the written exam
The possible oral exam consists in the discussion of the written task.
Students wishing to take the exam in English must request it from the teacher at least two days before the exam.
Six total appeals a year, two of which at the beginning of 2019, one in January the other in February before the beginning of the second semester.
Office hours
See the website of Francesca Ventura
SDGs
This teaching activity contributes to the achievement of the Sustainable Development Goals of the UN 2030 Agenda.