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Application of agro-ecosystem models to field crops (Anno Accademico 2016/2017)
- Oggetto:
Application of agro-ecosystem models to field crops
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Anno accademico 2016/2017
- Codice dell'attività didattica
- AGR0415
- Docente
- Prof. Dario SACCO (Affidamento interno)
- Insegnamento integrato
- Corso di studi
- [f001-c501] LM - Scienze agrarie
- Anno
- 2° anno
- Tipologia
- D - A scelta dello studente
- Crediti/Valenza
- 2
- SSD dell'attività didattica
- AGR/02 - agronomia e coltivazioni erbacee
- Modalità di erogazione
- Tradizionale
- Lingua di insegnamento
- Inglese
- Modalità di frequenza
- Facoltativa
- Tipologia d'esame
- Orale
- Prerequisiti
- Nessuno / None
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Sommario insegnamento
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Obiettivi formativi
The aim of this module will be to show to the students the main structure of a simple cropping system simulation model and to apply it to a case study on intensive cropping systems.
The aim of this module will be to show to the students the main structure of a simple cropping system simulation model and to apply it to a case study on intensive cropping systems.
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Risultati dell'apprendimento attesi
Within this module the students will integrate the knowledge acquired in the other modules through the application of a simple cropping system simulation model dealing with plant growth and crop production.
Within this module the students will integrate the knowledge acquired in the other modules through the application of a simple cropping system simulation model dealing with plant growth and crop production.
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Modalità di insegnamento
The module consists of 20 hours of lectures. PowerPoint presentation and already solved exercises, used during lessons, are available to students.
The module consists of 20 hours of lectures. PowerPoint presentation and already solved exercises, used during lessons, are available to students.
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Modalità di verifica dell'apprendimento
Levels of learning acquired by the students will be evaluated:
- through questions related to topics already taught during the course
- during numerical applications.
Final exam will consists of a model application to be solved on a PC and of a oral part to assess theoretical knowledge of the student.
Levels of learning acquired by the students will be evaluated:
- through questions related to topics already taught during the course
- during numerical applications.
Final exam will consists of a model application to be solved on a PC and of a oral part to assess theoretical knowledge of the student.
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Programma
Soil hydrology: theoretical aspects of water dynamics into the soil.
Practical calculation of water flows into the soil.
Modeling: Presentation of a cropping system simulation model
Description of the different components in cropping system simulation models
Building and application of a simple cropping system simulation model to a case study
Soil hydrology: theoretical aspects of water dynamics into the soil.
Practical calculation of water flows into the soil.
Modeling: Presentation of a cropping system simulation model
Description of the different components in cropping system simulation models
Building and application of a simple cropping system simulation model to a case study
Testi consigliati e bibliografia
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D. Hillel, 1998. Environmental Soil Physics. Academic Press, 771 pp.(available at the Library of ULF Agronomy).
Selected literature from scientific international journals.
D. Hillel, 1998. Environmental Soil Physics. Academic Press, 771 pp.(available at the Library of ULF Agronomy).
Selected literature from scientific international journals.
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Note
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