Code: | AGR1001 | Acronym: | AGR1001 | Level: | 100 |
Keywords | |
---|---|
Classification | Keyword |
OFICIAL | Agronomy |
Active? | Yes |
Web Page: | https://www.fc.up.pt/pessoas/mccunha/ |
Responsible unit: | Department of Geosciences, Environment and Spatial Plannings |
Course/CS Responsible: | Bachelor in Biology |
Acronym | No. of Students | Study Plan | Curricular Years | Credits UCN | Credits ECTS | Contact hours | Total Time |
---|---|---|---|---|---|---|---|
L:B | 3 | Official Study Plan | 3 | - | 6 | 48 | 162 |
L:CC | 0 | study plan from 2021/22 | 2 | - | 6 | 48 | 162 |
3 | |||||||
L:F | 0 | Official Study Plan | 2 | - | 6 | 48 | 162 |
L:G | 0 | study plan from 2017/18 | 2 | - | 6 | 48 | 162 |
3 | |||||||
L:M | 1 | Official Study Plan | 2 | - | 6 | 48 | 162 |
3 | |||||||
L:Q | 0 | study plan from 2016/17 | 3 | - | 6 | 48 | 162 |
The main course's objectives are:
- To use the technical vocabulary used on agriculture activities and agronomy practices.
- To acquire an integrated view of agriculture and its multifunctionality
- To know the economic and social relevance of agriculture
- To support the integration of the general crop practices with the physical, ecological, social and economic constrains in different production systems.
- To understand that agriculture, because of the value it generates, by the space it occupies, by the labour it requires and by its implicit tradition, performs a diverse set of functions with a great impact on the use of natural resources, landscape construction and environment and, therefore, the design of agro-systems should be based on processes ecologically sustainables, socially responsibles but also economically efficients.
After attending the course, students should:
- Acquire an integrated view of agriculture
- Know the relevance of the agriculture on the: economy, environment and landscape building.
- systematize the knowledge of the basic disciplines to fundament the agronomic practices.
- Support the integration of the general crop practices with the physical, ecological, social and economic constrains in different production systems (e.g. Organic farming, integrated production).
- Be able to integrate a multidisciplinary team to study complex problems at the agricultural system level
n.a.
- Basic concepts of Agronomy and Agriculture
- Multifunctional and systemic approach to agriculture as a man's activity in a society.
- Historical evolution and organization of agriculture.
- Agriculture production systems (e.g. organic farming, integrate production, precision systems).
- Crop growth and development.
- Environment of agriculture production: edaphic-climatic, ecological and socio-economic.
- Crop rotations and consociations.
- Main agricultural practices: preparation andmaintenanceof soil; sowing and planting; basics ofsoil fertilization; basics ofcrop protection; basics of irrigation and drainage; harvesting operation. (see also Agriculture II).
- Main crop productions and agricultural systems in Portugal (cont .Agricultura II).
Lectures:presentation and discussion of the themes.
Practical classes:
1) Fieldwork to allow students a first contact with plants, agricultural practices and crop systems. Some of these works consist in the installation and monitoring of the growth and development of several crops
2) Case studies and exercises. Use of computers for: i) simulations of decision-making at the level of culture system. ii) consulting specialized databases.
3) Field trips are planned.
designation | Weight (%) |
---|---|
Exame | 64,00 |
Trabalho de campo | 19,00 |
Trabalho escrito | 17,00 |
Total: | 100,00 |
designation | Time (hours) |
---|---|
Elaboração de projeto | 10,00 |
Frequência das aulas | 25,00 |
Trabalho de campo | 10,00 |
Total: | 45,00 |
- Attending a minimum of 75% of the classes in the course(FCUP rules:https://sigarra.up.pt/up/LEGISLACAO_GERAL.ver_legislacao?p_nr=4025)
- Delivery and acceptance of practical assignments within the deadline. - The students with practical work approval in previous years will be admitted to the final exam, without having to carry out the practical work again.
- Students exempt from attendance are not dispensed from taking the practical works that require a presential component.
Course evaluation is based in 3 components:
1 - Written exam (WE). Throughout the semester will be proposed two tests optatives. If the student opte for the tests, the value of WE will be obtained by averaging the tests' classification, but none of which may be less than eight values. Obtaining a rating equal to or greater than 8 values in a given test, releases the student evaluation of the correspondent part of program in their final examination. In the final exam is only possible to repeat one of the tests.
2 - Practical work (TP1, TP2 and TP3) (see dossier UC)
3-Continuous assessment (CA) (see dossier UC)
The final grade (CF) is calculated by the algorithm:
CF = (EEx64 + TP1x12 + TP2x12 + TP3x9 + ACx3)/100
To pass the course the CF> = 10 and minimum score of 8 points in all tests. In the case of some of the tests provided does not hold its value in percentage assigned in CF will be added to the written examination (WE).
In the resource examination it is not possible to carry out partial evaluations of the WE component.
n.a.
n.a.
n.a.
Improving theclassification can bedone only on the component.
- To facilitate communication with students, I prepared a web site to support the course: https://www.fc.up.pt/pessoas/mccunha/. Attendance of students outside the teaching periods: Tuesdays 13:30 to 15 pm.
UC Jury committee:
- Mário Cunha, responsible for the UC
- Ana Aguiar
- Albano Pereira